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국립부경대학교PukyongNationalUniversity:112 varpeContext=""; varsUserId=""; varsUserName=""; varsUserNo=""; varsUserNum=""; varsUserLevel=""; functionsearchPost(){ newdaum.Postcode({ oncomplete:function(data){ //팝업에서검색결과항목을클릭했을때실행할코드를작성하는부분. //각주소의노출규칙에따라주소를조합한다. //내려오는변수가값이없는경우엔공백('')값을가지므로,이를참고하여분기한다. varfullAddr='';//최종주소변수 varextraAddr='';//조합형주소변수 //사용자가선택한주소타입에따라해당주소값을가져온다. if(data.userSelectedType==='R'){//사용자가도로명주소를선택했을경우 fullAddr=data.roadAddress; }else{//사용자가지번주소를선택했을경우(J) fullAddr=data.jibunAddress; } //사용자가선택한주소가도로명타입일때조합한다. if(data.userSelectedType==='R'){ //법정동명이있을경우추가한다. if(data.bname!==''){ extraAddr+=data.bname; } //건물명이있을경우추가한다. if(data.buildingName!==''){ extraAddr+=(extraAddr!==''?','+data.buildingName:data.buildingName); } //조합형주소의유무에따라양쪽에괄호를추가하여최종주소를만든다. fullAddr+=(extraAddr!==''?'('+extraAddr+')':''); } $(".zip").val(data.zonecode); $(".addr1").val(fullAddr); $(".addr2").focus(); } }).open(); } varfail_common_msg = "에러가발생했습니다!";varfail_common_sql = "sql에러가발생했습니다!errorcode:{0},errormsg:{1}";varinfo_nodata_msg = "해당데이터가없습니다.";varerrors_prefix = "";varerrors_suffix = "";varerrors_required = "{0}은필수입력값입니다.";varerrors_minlength = "{0}은{1}자이상입력해야합니다.";varerrors_maxlength = "{0}은{1}자이상입력할수없습니다.";varerrors_invalid = "{0}은유효하지않은값입니다.";varerrors_byte = "{0}은byte타입이어야합니다.";varerrors_short = "{0}은short타입이어야합니다.";varerrors_integer = "{0}은integer타입이어야합니다.";varerrors_long = "{0}은long타입이어야합니다.";varerrors_float = "{0}은float타입이어야합니다.";varerrors_double = "{0}은double타입이어야합니다.";varerrors_date = "{0}은날짜유형이아닙니다.";varerrors_range = "{0}은{1}과{2}사이의값이어야합니다.";varerrors_creditcard = "{0}은유효하지않은신용카드번호입니다.";varerrors_email = "{0}은유효하지않은이메일주소입니다.";varerrors_ihidnum = "유효하지않은주민등록번호입니다.";varerrors_korean = "{0}은한글을입력하셔야합니다.";/*varpopList=[];*///팝업Close기능functionclose_pop_allday(fl,popup_no){if(fl==true){//쿠키세팅(그냥닫기오늘안보기)setCookie("layerPopup"+popup_no,"Y",1);$("#layerPopup_"+popup_no).hide();}else{ //false로들어오면그냥숨기기만$("#layerPopup_"+popup_no).hide();}};$(function(){ /*for(vari=0;i1670){ //창가로크기가500미만일경우 $('.incQck').css('display','block') }else{ //창가로크기가500보다클경우 $('.incQck').css('display','none') } } $(window).resize(function(){ //창크기변화감지 if(''>1){ incQckToggle() } }); $(function(){ $('.logoutBtn').on('click',function(){ if(confirm('로그아웃하시겠습니까?')){ location.href='/main/155'; } }); getBookmarkList(); $(".nbar-toggler").on("click",function(){ $('#sidebar').toggleClass('active'); }); varLogOutTimer=function(){ varS={ timer:null, limit:1000*60*60, fnc:function(){ }, start:function(){ S.timer=window.setTimeout(S.fnc,S.limit); }, reset:function(){ window.clearTimeout(S.timer); S.start(); } }; document.onmousemove=function(){ S.reset(); }; returnS; }(); //로그아웃체크시간설정 LogOutTimer.limit=1000*60*60; //로그아웃함수설정 LogOutTimer.fnc=function(){ //alert("LogOut"); if(''!=''){ alert("장시간사용하지않아로그아웃되었습니다."); location.href="/main"; } } //로그아웃타이머실행 LogOutTimer.start(); }); functionaddBookmark(){ if(''!=''){ $.ajax({ url:peContext+"/addBookmark.do", method:'POST', dataType:"json", data:{ nm:'', no:'', ste:'IE5ISH' } }).done(function(data){ if(data.chkRst>0){ alert('등록된페이지입니다.') } if(data.result>0){ alert('저장되었습니다.'); getBookmarkList(); } }); }else{ alert('로그인후이용가능합니다.') } } functiongetBookmarkList(){ if(''!=''){ $ .ajax({ url:peContext+"/getBookmarkList.do", method:'POST', dataType:"json", data:{ ste:'IE5ISH' } }) .done( function(data){ varlist=data.bookmarkList varhtml=''; if(list.length>0){ $ .each( list, function(index,item){ if(item.mnuId=='1'){ html+=' ' +item.mnuNm +'삭제' }else{ html+=' ' +item.mnuNm +'삭제' } }); } if(list.length0){ if(list.length>0){ varmypeBookmarkList="" $ .each( list, function(index,item){ mypeBookmarkList+=' ' mypeBookmarkList+=' ' +(index+1) +'' mypeBookmarkList+=' ' +item.mnuNm +'' mypeBookmarkList+=' 삭제' mypeBookmarkList+=' ' }); }else{ mypeBookmarkList+=' ' mypeBookmarkList+=' #' mypeBookmarkList+=' 즐겨찾기를추가하세요' mypeBookmarkList+=' ' } $('#bookmarkList').html(mypeBookmarkList); } }); } } functiondeleteBookmark(id){ if(''!='' &&confirm('삭제시복구가불가합니다.삭제하시겠습니까?')==true){ $.ajax({ url:peContext+"/deleteBookmark.do", method:'POST', dataType:"json", data:{ id:id, ste:'IE5ISH' } }).done(function(data){ if(data.result>0){ getBookmarkList(); } }); } } functiongetCookie(name){ varcookieName=name+"="; vari=0; while(i 열기 JOIN SITEMAP ENGLISH LOGIN 검색 전체메뉴열기 전체메뉴열기         11 모두의미래,함께하는꿈! TowardtheFuture,DreamingTogether! 재학생 수강신청 비교과신청바로가기 부경구글앱스 OCU바로가기 KCU바로가기 디딤돌 학생생활관 부산아메리카코너 교직원 KORUS KORUSVPN 웹메일 강의공유방 구성원참여·소통채널 교직원증명서발급 예비부경인 학부/학과/전공검색 학부입부경대학교 Pukyong National University : 112학정보 대학원입학정보 찾아오시는길 캠퍼스투어신청 학생생활관 동문 총동창회 대학발전기금 학생상담센터 4119고객센터 단디센터 청렴센터 부경포털 부경챗봇 PukyongToday 국내첫스마트연어양식장준공 국내첫스마트연어양식장,국립부경대수산과학연구소에들어서-20일부산스마트양식클러스터준공식…대서양연어연500t양식△ 부산스마트양식클러스터준공식행사전경.ⓒ사진이성재(대외홍보센터)국내첫스마트연어양식장이국립부경대학교(총장배상훈)수산과학연구소부지에들어섰다. 국립부경대와부산광역시,해양수산부,GS건설은12월20일오후국립부경대수산과학연구소(부산동백리)내부지에서‘부산스마트양식클러스터준공식’을개최했다. 이날준공식에는배상훈국립부경대총장을비롯해김광회미래혁신부시장,강도형해양수산부장관,허윤홍GS건설대표등이참석했다. 지난2022년착공해지상2층지하1층으로준공된부산스마트양식클러스터는스마트기술을적용해연간500t규모의대서양연어를길러낼수있는친환경양식장이다.GS건설자회사인‘에코아쿠아팜’이운영을담당한다. 해상이아닌육상에서대서양연어를양식하는이양식장은사육수를99%이상재사용하는순환여과방식으로센서,통신및데이터저장장치,스마트양식플랫폼등첨단기술이적용된다.2년여의양식기간을거쳐오는2026년에대서양연어가처음출하될예정이다. 부산스마트양식클러스터는지난2019년부산시가해양수산부의스마트양식클러스터조성사업에선정된이후2020년부산시와GS건설의업무협약,2021년국립부경대와GS건설협약등에이어이날준공으로본격운영을시작하게되면서지·산·학협력의대표성공사례로도주목된다. 배상훈국립부경대총장은“부산스마트양식클러스터준공으로우리는기술자립과첨단친환경양식기술개발을위한전초기지를갖게됐다.이곳이부산의첨단수산기술의수준을혁신적으로끌어올릴것으로기대한다.”라고밝혔다. 한편‘스마트양식클러스터조성사업’은노동집약적국내양식산업을정보통신기술(ICT)등첨단기술접목디지털산업으로전환하기위한해양수산부사업이다.부산,전남,강원도,경북,제주등5개지역에조성중으로,부산이가장먼저완료돼본격적으로스마트양식장을운영하게됐다.△준공식에서축사를하고있는배상훈총장.△준공식참석자들이국민의례를하고있다.△부산스마트양식클러스터건물내부모습.△건물내부를둘러보고있는준공식참석자들.△부산스마트양식클러스터건물외부모습. 국내첫스마트연어양식장준공 제자들위해39;1억39;건넨교수님 대학떠나도이어지는제자사랑‘1억쾌척’-국립부경대이병근명예교수,국제통상학부학생지원발전기금기부△ 이병근명예교수(왼쪽)가배상훈총장에게발전기금을전달하고기념촬영하고있다.ⓒ사진이성재(대외홍보센터) 국립부경대학교(총장배상훈)는이병근명예교수(국제통상학부)가제자들을위해써달라며대학에 거액을 쾌척했다고12월 20일밝혔다. 이병근명예교수는최근국립부경대대학본부3층총장실에서열린발전기금전달식에서배상훈총장에게1억원을전달했다. 이병근명예교수는“20년넘게학생들을가르치면서많은학생들이공부하고,졸업하고,성공하는모습을지켜봐왔다.앞으로도학생들이계속마음껏공부하고활동하며성장하는데보탬이되길바라는마음으로기부하게됐다.”라고밝혔다. 2002년국립부경대에부임한이병근명예교수는22년간국제통상학부교수로재직하다지난8월31일퇴임했다. 이병근명예교수는“우리대학국제통상학부가청년무역전문가양성사업에선정되면서학생들이지역과세계에서활약할기회가많아졌는데,학생들이많은경험을하며유능한국제통상인재로활약하는데발전기금이쓰이면좋을것같다.”라고전했다. 국립부경대는이병근명예교수의뜻에따라이번발전기금을국제통상학부학생들의현장무역실습과장학금등을지원하는데사용할계획이다.  제자들위해39;1억39;건넨교수님 부산MICE콘텐츠공모전수상 국립부경대·경성대연합팀,‘제14회부산 MICE 콘텐츠공모전’ 장려상- 김예나·조해원△ 국립부경대·경성대연합팀학생들이상을받고기념촬영하고있다. 국립부경대학교와경성대학교학생연합팀이 ‘제14회부산 MICE 콘텐츠공모전’에서장려상을수상했다. 국립부경대경영학부 4학년김예나, 조해원학생과경성대경영학과학생팀은이번대회에서 ‘을숙도의유니크베뉴지정을통한사계절활용방안’을제안해우수한평가를받았다. 부산광역시주최,(사)부산관광마이스진흥회주관, ㈜벡스코후원으로열린이번공모전은 △전시회·국제회의등 MICE 행사기획및유치제안 △신규유니크베뉴발굴및기존유니크베뉴활성화방안제안 △블레저(Bleisure) 여행객맞춤형관광프로그램제안등 3가지주제로진행됐다. 이번공모전평가는 1차심사로기획서제출,2차심사로발표가진행됐고, 총 43팀중 8팀이 2차심사에진출해발표와질의응답을통해우수작을가렸다. 국립부경대·경성대연합팀은을숙도의관광잠재력이충분히발휘되지못하는점을해결하기위해을숙도의사계절관광활용방안을기획안으로발전시킨점을인정받았다. 이들은 3개월동안팀원각자가사계절가운데하나의계절을주제로기획안을만들고, 구체적인수익성분석과자원배분을통해실현할수있는방안을마련했다. 이를통해주변의잠재적자원을활용해새로운관광기회를만들었다는평가를받았다. 부산MICE콘텐츠공모전수상 일시정지 19,649재적생수 국제교류본부 도서관 진로취업길라잡이 학부대학 교수학습지원센터 공지사항 비교과안내 학사안내 등록장학채용초빙 더보기 ◆◆[국비지원]2025년취업연계교육생모집(소프트웨어개발) 2024-12-16 ★2025학년도예비부경인입학준비종합안내★ 2024-12-12 ★★디지털스마트부산아카데미제6기국립부경대AI프로젝트훈련과정모집★★ 2024-11-28 2024학년도부경더채움장학금(취업성공장학금)신청연장안내 2024-11-18 ★★[소프트웨어융합혁신원]코드트리(CodeTree)코딩학습서비스사용지원안내(1년간이용가능)★★ 2024-11-08 2025학년도1학기다전공이수(취소)신청안내 2024-12-19 2025학년도1학기융합전공주전공이수신청(취소)안내 2024-12-19 ♧♣2025년새해맞이!성장을돕는집단상담Beginain♣♧ 2024-12-20 ★방학에함께하는진로고민!진로코칭상담신청하세요★ 2024-12-20 (♥소규모1:1스피치실습)[교수학습지원센터]2024학년도스피치역량강화프로그램신청안내 2024-05-20 ♥비교과서포터즈(비즈bee-s)♥12월꿀벌이의Bee밀의섬탐험![창의융합교육DesignThinking등] 2024-12-13 ♥비교과서포터즈(비즈bee-s)♥비교과개인수기영상[수요일은부경일자리Day!] 2024-12-13 ♥비교과서포터즈(비즈bee-s)♥11월벌들의비행[IESS스트레스검사] 2024-12-13 제5회비교과참여수기공모전수상작소개 2024-12-12 2025년2월학사학위취득유예및조기졸업신청안내 2024-11-27 2025학년도1학기재입학신청안내(학부) 2024-11-27 2025년2월학부2차졸업예비사정실시안내 2024-10-28 2025년2월학부졸업예정자졸업자격인증신청안내 2024-09-10 2025년8월학부사전졸업예비사정실시안내 2024-09-02 2025년2월학부1차졸업예비사정실시안내 2024-09-02 2024-2학기온라인공개강좌학점인정사전승인신청안내 2024-09-02 ★(신입생포함)2025학년도1학기국가장학금1차신청안내★ 2024-12-17 2025학년도1학기교내특별장학금신청안내 2024-12-16 2025년1학기농림축산식품부청년창업농장학생선발안내<~2025.1.7.(화)> 2024-12-19 2025년도제33기세아해암장학모집설명회개최(비대면화상) 2024-12-19 2025년도제33기세아해암장학생(지역인재다문화가족자녀)특별모집<~2025.1.19.(일)> 2024-12-18 2025년도제33기세아해암장학생(일반학사)모집<~2025.1.19.(일)> 2024-12-18 2025년(재)한국지도자육성장학재단장학생추천대상자모집안내<~2025.1.10.(금)16:00> 2024-12-13 [서류합격자공고]대학공무직(전임연구원)면접대상자공고 2024-12-19 국립부경대학교인쇄전자기술연구소행정원(파트)채용계획을다음과같이공고합니다(상시채용) 2024-12-13 [채용공고]환경·해양대학지구환경시스템과학부환경공학전공공무원조교채용공고 2024-12-13 국립부경대학교이차전지특성화대학지원사업단사무원(기간제계약직원)채용최종합격자공고 2024-12-19 [채용공고]정보융합대학조형학부시각디자인전공조교채용 2024-12-19 <2025-전기>정보융합대학전임교원신규채용외국어강의평가알림 2024-12-18 [채용공고]인문사회과학대학국어국문학과조교채용 2024-12-17 PUKYONGNATIONALUNIVERSITY 부경나우 부경나우 교수동정 PKNUResearch1000 부산녹색환경지원센터ESG워크숍열려 국립부경대부산녹색환경지원센터,‘부산환경산업의지속가능한발전을위한ESG워크숍’개최△ 워크숍전경.국립부경대학교부산녹색환경지원센터(센터장이태윤)는12월 16일오후환경해양관1층대회의실에서‘부산환경산업의지속가능한발전을위한ESG워크숍’을개최했다. 이번워크숍은ESG환경정책및신기술연구현황을공유하고부산지역기업의지속가능한발전및환경경쟁력확보를위한발전방향을모색하기위해마련됐다. 이날행사는이태윤센터장의개회사를시작으로국립부경대이민희학무부총장과부산광역시의회복지환경위원회성현달의원의축사가진행됐다. 이어부산녹색환경지원센터는지역환경개선과센터발전에기여한성현달의원과,안전하고건강한물환경조성에크게기여한낙동강유역물관리위원회남광희위원장에게감사패를전달했다. 이어ESG환경정책분야에서남광희위원장의‘ESG경영의필요성과트렌드’발표와국립부경대한희진교수(글로벌자율전공)의‘기후변화와기후공시’발표가열렸다. 신기술연구분야에서는국립부경대남기전교수(환경공학전공)의‘환경분야AI활용현황-AI를이용한환경물관리및산업의디지털화’발표가진행됐고,부산녹색환경지원센터의2024년우수연구개발과제로국립부경대이준엽교수(환경공학전공)의‘부산시하수처리장유기성찌꺼기처리및바이오가스생산증대를위한약품투입최적화및우수식종원발굴’발표가이어졌다. 발표에이어리뉴어스(주),(주)이산등환경산업체들이참가한가운데회사소개와환경인재채용홍보도진행돼행사에참여한관련분야대학생들의호응을얻었다. 부산녹색환경지원센터이태윤센터장은“센터는부산환경보전과지속가능한미래를위해끊임없이노력해왔으며,이번워크숍을통해ESG경영의중요성을다시한번되새기고지역환경과경제의조화로운발전을위한방향을모색하는기회가될것으로기대한다.”라고밝혔다. ‘2024부산수산인의밤’개최 국립부경대,‘2024부산수산인의밤’행사개최-수산분야산？관？학관계자‘한자리에’…18일부경컨벤션홀△ 2024 부산수산인의밤기념단체사진.국립부경대학교(총장배상훈)는12월18일오후부경컨벤션홀에서‘2024부산수산인의밤’행사를성황리에개최했다. ‘2024수산인의밤’은국립부경대수산가공연구센터(센터장전병수),LINC3.0사업단(단장류지열)및블루푸드혁신생태계조성사업단(단장이상길)이주최하고수산업전문가과정12기원우회가주관한행사다. 이날부산시수산진흥과이금옥과장을비롯해국립부경대하명신부총장,수산업전문가과정원우등150여명이참석해수산업분야에서의성과와미래비전을공유하며전문가와관계자들간의네트워크를다졌다. 수산업전문가과정은부산수산업의경쟁력확보를위해지역수산가공업경영자와종사자를대상으로선진수산기술과동향을전수하는프로그램이다.국립부경대수산가공연구센터가해양수산부와부산시의위탁을받아지난2012년개설한이후올해32명을포함해총380여명의수산전문인력을배출했다. 이번행사에서는△수산식품기업도약의첫걸음△부산시블루푸드테크발전을위한지산학협력방안등세미나를통해수산업계의현황과미래전망에대한정보를공유하고,수산업전문가과정원우들의제품전시홍보를통해수산업계의동향에대한정보를제공했다. 전병수수산가공연구센터장은“수산업은해양도시부산의중심산업이자우리의미래를책임질중요한분야다.수산업전문가과정교육이후에도교류협력네트워킹행사를통해지자체？대학？산업체간에더욱긴밀히협력하고함께나아갈수있는계기가마련되길기대한다.”라고밝혔다. 대면입학상담행사열려 국립부경대,정시신입생모집앞두고대면입학상담개최-수험생및학부모100여명참가△ 입학상담행사전경.ⓒ사진이성재(대외홍보센터)국립부경대학교(총장배상훈)는2025학년도정시신입생모집을앞두고16,17일양일간대면입학상담행사를개최했다. 국립부경대학교입학본부(본부장박인호)는미래관4층컨벤션홀에서열린이번행사에서입학사정관등입학전문가들이수험생과학부모등100여명을대상으로1대1집중상담을진행했다. 입학본부는이번상담행사를통해△2025학년도정시신입생모집전형안내△전년도입시결과등정시신입생모집지원에앞서수험생들이가장궁금해하는입시정보를맞춤형으로제공했다. 이와함께자유전공학부(다군)등신설학과(전공)안내를동시에진행하며차별화된개별상담서비스도제공했다. 국립부경대학교의정시신입생모집관련궁금한사항은누구나국립부경대학교입학본부에문의하면된다.  태국어교육과정수료식열려 국립부경대,태국어교육과정수료식개최-13일태국매솟…태국이주민학교학생100명수료△ 태국어교육과정수료식기념촬영장면.국립부경대학교코이카시민사회협력프로그램사업단(단장정법모·국제지역학부교수)은지난12월13일태국매솟센타라라이프호텔에서태국어교육과정수료식을개최했다. 이날수료식에는사업단의정법모단장과문기홍부단장,이정혜,김지윤연구원을비롯해지구촌나눔운동태국사업소허춘중소장,박미경팀장,탁커뮤니티컬리지PremjitMorsing부학장등이참석한가운데태국이주민학교학생100명이수료증을받았다. 사업단은한국국제협력단(KOICA·코이카)이지원하는시민사회협력진입형사업에2023년5월선정돼사업을운영해왔으며,이사업의하나로160시간의태국어교육과정을100명에게교육하는사업을1차,2차로나누어운영하고이날2차년도사업의수료식을했다. 사업단은미얀마에서태국으로이주한청년들을대상으로사회적응력과취업역량을키우기위해이번교육과정을진행했다.수료식을앞둔12월11일에는우수수료생20명을대상으로한태국어말하기대회도열었다. 수료식에서는교육과정운영에협력한한매솟협력센터,태국어교육을맡은딱커뮤니티컬리지관계자들과학생들이참가한가운데축하행사도진행됐다. 늘봄학교·교육기부박람회체험행사성료 국립부경대경상권교육기부거점지원센터,‘2024늘봄학교·교육기부박람회’체험행사개최△2024 늘봄학교·교육기부박람회의경상권교육기부거점지원센터부스전경국립부경대학교경상권교육기부거점지원센터(센터장이상길)는12월13일부터15일까지사흘간일산킨텍스에서열린교육부주최‘2024늘봄학교·교육기부박람회’에서교육기부체험행사를펼쳤다. 이번박람회는늘봄월드테마파크형식으로다채로운늘봄·교육기부프로그램을소개하고체험하는행사로열렸다. 국립부경대경상권교육기부거점지원센터는이번박람회에서△플라스틱뚜껑을활용한업사이클링키링만들기△나만의수산생물슈링클스키링만들기등체험프로그램을운영하며참여자들이환경에대해생각해보는기회를제공했다. 특히지속적으로생태·환경교육기부에참여했던국립부경대관상어동아리P.A.R.K.학생들이체험부스운영을주도하고,직접크리스마스콘셉트로꾸민관상어수조를전시해어린이와학생,학부모들의이목을끌었다. 이와함께올해진행해온2024년교육기부및늘봄학교초1맞춤형프로그램운영사업성과를알리고,교육기부및지역사회기여를홍보하기위한다양한이벤트도진행했다. 경상권교육기부거점지원센터의이번박람회활동에는협력기관인삼진어묵에서기념품을지원하고,그리핀아트,마음향기심리상담센터,주식회사놀잇,휴몬랩도함께참여했다. 한편경상권교육기부거점지원센터는교육부와한국과학창의재단으로부터지정받아2023년국립부경대내에설립됐으며,지역사회와함께교육기부협업네트워크를구성해교육자원발굴및지역간교육격차해소를위해노력하고있다.  제3회디지털금융인재양성포럼열려 ‘부산을디지털금융허브로!’디지털금융포럼개최-11일국립부경대…‘제3회디지털금융인재양성포럼’△포럼참석자들이단체기념촬영하고있다.ⓒ사진이성재(대외홍보팀)부산을글로벌금융허브로도약시키기위한‘제3회디지털금융인재양성포럼’이12월11일오후국립부경대학교부경컨벤션홀에서열렸다. 국립부경대디지털금융학과와한국디지털금융진흥원(원장이현규)이공동주관하고(사)한국인터넷전자상거래학회(회장김종호)가주최한이번행사는‘미래금융을여는부산의디지털자산혁명’을주제로진행됐다. 이날행사에는이경식한국거래소부이사장,김구영SK브로드밴드부사장,최중근아이티센그룹부사장을비롯해부산시,BNK금융그룹,부산일보,비온미디어,글로벌핀테크산업진흥센터관계자들과김종호한국인터넷전자상거래학회장,오창규한국정보시스템학회장등지자체,기업,학계관계자들이대거참석했다. 이번포럼은김상민부산디지털자산거래소대표이사의‘Target2026블록체인시티부산’기조연설을시작으로디지털금융분야전문가들의주제발표를통해디지털금융산업활성화와디지털자산거래기반마련방안등을모색했다. 주제발표로는△디지털자산,어디까지신뢰할수있나?(이수정국립부경대디지털금융학과교수)△WEB3.0금융시대의새로운패러다임:RWATokenization(임대훈(주)크레더대표)△AI와디지털금융의융합:통신과금융의미래를잇다(조호근SK브로드밴드Connectivity사업본부Enterprise컨설팅담당상무)등이진행됐다. 이현규한국디지털금융진흥원장(국립부경대디지털금융학과장)은“이번포럼을통해디지털금융과디지털자산거래에대한심도있는논의와함께부산이글로벌디지털금융산업의허브로서나아갈방향과관련분야인재양성의전략을모색하는계기가되길바란다.”라고밝혔다. 한편한국디지털금융진흥원은디지털금융산업의활성화를위한디지털금융연구성과를확산하기위해2022년부터디지털금융인재양성포럼을개최하고있다.△포럼전경. 카자흐스탄대학·기업과협력확대 국립부경대,카자흐스탄대학·기업과협력확대△ 배상훈총장(앞줄오른쪽세번째)이카자흐스탄대학·기업관계자들과기념촬영하고있다.ⓒ사진이성재(대외홍보팀)국립부경대학교(총장배상훈)가12월10일카자흐스탄대학·기업들과학술교류협의회를하고협력을확대하기로했다. 국립부경대는이날오후대학본부총장실에서카라간다산업대학교,동카자흐스탄기술대학교,루드니산업대학교,주식회사카르메트,주식회사SSGPO,알루르그룹등카자흐스탄대학총장및기업관계자들이참석한가운데국제학술교류협력등을협의했다. 카자흐스탄대학및기업관계자들은이날학생과교원,연구자교류등국제학술교류네트워크개발등에대한협력방안을국립부경대와논의하고,캠퍼스투어를진행했다. 한편국립부경대는올해10월기준학·석·박사과정,석박사통합과정,교환학생,연수과정,복수학위등에68개국1,752명의외국인유학생이재학하고있으며,이가운데카자흐스탄유학생은23명이다. 마약예방중요하다 국립부경대,대학생마약사용경험설문조사실시-마약예방조치‘법적제재강화’가장중요 국립부경대학교인권센터(센터장함혜현)는최근마약사용경험및인식설문조사를실시하고12월 11일결과를발표했다. 이센터가학내학생복지과,경찰범죄심리학전공공익탐정단과공동으로진행한이번설문조사에는부산지역대학생568명이참여했다. 이번설문조사에서‘당신또는당신의가까운사람들이마약을사용한경험이있습니까?’라는질문에6.8%인39명이‘그렇다’라고응답했다.성별로보면남성응답자184명중20명(10.8%),여성응답자384명중19명(4.9%)이그렇다고응답한것으로나타났다. ‘마약예방을위해어떤조치가중요하다고생각하나요?’라는질문에는‘법적제재강화(136명)’응답이가장많았고,‘교육및홍보(98명)’,‘상담및치료프로그램+법적제재강화(76명)’,‘상담및치료프로그램(64명)’순으로나타났다. ‘마약관련정보는주로어디서얻나요?’라는질문에는인터넷,학교,친구순으로응답했으며,대학생들이가장많이알고있는마약의종류는대마초,코카인,헤로인,필로폰,펜타닐순으로나타났다.마약예방의중요성에대해서는응답자의94%(536명)가‘매우중요하다’라고답했다. 함혜현국립부경대인권센터장은“대학생대부분이마약예방의중요성을인식하고있다는것을알수있었고,이번설문조사가대학생마약예방을위한인식확산에도움이될것으로기대한다.”라고밝혔다.  동북아시아문화학회신임회장 국립부경대윤일교수,동북아시아문화학회신임회장취임 국립부경대학교윤일교수(일본어문학전공)가동북아시아문화학회신임회장으로취임했다.임기는12월부터2년이다. 1998년설립된동북아시아문화학회는동북아시아문화에대한다양한담론의장을탐색하고 동북아시아문화교류를분석해동북아시아문화공동체구축을시도하는등동북아시아연구에노력하고있다. 이학회는해마다2회에걸쳐국제학술대회를개최하며동북아시아국가들과학술연구네트워크를구축해교류하고, 한국연구재단등재학술지인'동북아문화연구'를연간4회발간하고있다. 조선통신사상징물디자인이나오기까지 ‘해양도시부산의가장평화로웠던시간’-홍동식교수,칼럼게재 국립부경대학교홍동식교수(시각디자인전공)의칼럼‘해양도시부산의가장평화로웠던시간’이(사)한국해양산업협회발행웹진에실렸다. 11월29일자로게재한이칼럼은부산의대표적인문화콘텐츠인조선통신사에대한상징물디자인이나오게된여정을다뤘다. 부산의주요단체들의상징물을디자인하는등시각디자인전문가로활발한활동을펼치고있는홍동식교수는이번조선통신사상징물디자인에조선통신사의역사와소통의정신을담았다고밝힌다. 홍동식교수는“조선은임진왜란이후국가적으로일본과의친화정책을펴게된다.일본의사정을살피고일본과의우호를유지,강화하는것이무엇보다중요했다.”라면서,“조선통신사는바로평화우호를위해파견된외교관이었다.그외교관의행렬중심에부산이라는해양도시가있었다.”라고설명했다. 홍동식교수에따르면한일양국은이조선통신사기록물을유네스코세계기록유산공동등재를추진해2017년10월세계기록유산등재가확정됐다. 다만이를상징할수있는상징물디자인이없었다.이에조선통신사관련다양한축제와뱃길탐방,유네스코등재기념이벤트진행에따른상징물디자인개발을홍동식교수가맡게된것. 홍동식교수는“조선통신사의가운데글자인통할통(通)을대표상징요소로활용하기로하고通을활용하여시각적요소들을형상화하여갔다.”라고설명했다. 이디자인에는조선통신사의긴여정을알리는길이한글로왼쪽에표기됐고,길위를달리는말의힘찬발길질과한복의아름다운옷고름이투영됐다.한국과일본의평화로운수교를상징하며푸른색과붉은색매듭의묶음모양으로귀한선물을정성스럽게포장한마음을시각적으로표현했다. 홍교수는“(디자인과정은)양국해양도시의발전과우호증진그리고해양도시부산의가장평화로웠던시간을되새김하는행복한시간이었다.”라고소회를밝혔다. ▷칼럼전문보기(클릭) 한국과학기술한림원정회원선출 전병수교수,한국과학기술한림원정회원선출 국립부경대학교전병수교수(식품공학전공)가2025년한국과학기술한림원정회원으로선출됐다. 한국과학기술한림원은11월29일정기총회를열고전병수교수를비롯한내년도정회원36명을선출했다. 부산에서유일하게내년도정회원으로선출된전병수교수는농수산학부에이름을올렸다.전병수교수는1994년부터국립부경대식품공학전공에재직하며식품및바이오산업분야교육과연구를수행하고있다. 과기한림원정회원은과학기술분야에서20년이상활동하면서선도적인연구성과를낸연구자중에서선발된다.교신저자로발표한대표논문10편에대한연구업적의수월성과독창성,학문적영향력과기여도를심사해정책학부,이학부,공학부,농수산학부,의약학부로선발한다. 대한중국학회학술상수상 채영희교수,대한중국학회학술상수상 국립부경대학교채영희교수(국어국문학과)가대한중국학회(회장김현태)학술상을수상했다. 채영희교수는지난11월16일국립부경대에서열린대한중국학회와중국인문학회(회장김태완)의2024년도추계연합학술대회에서국립부경대손동주교수(일본어문학전공)와함께연구한논문‘司譯院漢語學習書類의敎育內容硏究’로학술상을받았다. 대한중국학회학술상은대한중국학회발행등재학술지인『중국학』에게재된논문가운데학술적가치가뛰어난우수논문을선정하여매년수여하고있다. 채영희교수는“조선시대역관양성을위해사용한교육방법과교재에대한연구로대한중국학회의학술상을받게되어연구자로서큰영광.”이라고수상소감을밝혔다. 대한중국학회는1983년창립된이래현재1,000여명의중국학관련학자와전문가들이회원으로가입돼있으며,어문학을비롯하여문화와사회과학등중국학전반의학문연구를수용하는전국규모의학회로한국연구재단등재학술지『중국학』을매년4회발행하고있다. 한편이번추계연합학술대회는대한중국학회와중국인문학회가공동주관,동아대공자아카데미,국립부경대인문사회과학대학,부산외국어대외국어연구소,전남대중국인문연구소가공동주최해‘차세대중국학학자의연구동향과전망’을주제로국내외250여명의학자가참가한가운데열렸다. 대한민국학술원우수학술도서선정 이은교수번역서,대한민국학술원우수학술도서선정 국립부경대학교이은교수(과학컴퓨팅학과)등이번역한『네트워크사이언스』(에이콘출판)가2024년대한민국학술원우수학술도서로선정됐다. 이책은복잡계네트워크이론의창시자인세계적과학자알버트라슬로바라바시가지었고,이은교수를비롯해한양대(에리카)이미진？손승우교수,숭실대윤진혁교수,경상국립대이상훈교수,가톨릭대조항현교수,한국에너지공과대김희태교수가번역했다. 이책은대한민국학술원이선정한올해우수학술도서294종가운데자연과학분야에선정됐다. 이책은인터넷을비롯해사회연결망,그리고우리의생물학적실재를결정하는유전자네트워크까지,어디에나있는네트워크를이해하기위한네트워크과학에대해물리학부터컴퓨터과학,공학,경제,사회과학까지광범위한주제로다루고있다. 역자인이은교수는사회연결망과그연결망내에서의집단적의견형성및인지편향에대한연구를수행해왔고,특별히불균등하게분포된자원,특성,연결망의구조가사회에미치는영향에대해연구하고있다. 청소년기신체활동습관중요하다 김대환교수,KNN특집방송인터뷰-방송 국립부경대학교김대환교수(스마트헬스케어학부해양스포츠전공)가KNN특집방송에출연했다. 11월9일방영된이특집은부산시교육청이추진하고있는주요정책인‘아침체인지(體仁智)’프로그램에대해집중적으로다룬방송이다.아침체인지는정규교육과정시작전아침시간을활용해신체활동에참여하는자율적인체육활동이다. 스포츠산업관련전문가인김대환교수는이방송에출연해체육활동이청소년들에게미치는영향과효과등에대해설명했다. 김대환교수는방송에서“세계보건기구에서조사한결과에따르면한국학생들의94%가하루에1시간미만의신체활동을하는것으로조사되었고이러한수치는전세계150여개국가에서최하위수준.”이라고지적했다. 이어“미국과영국에서는2005년부터아침0교시체육활동을굉장히장려하고활발하게운영하고있다.그렇게안정적으로활발하게운영하기위해서여러가지법적정책적지원근거도마련하고기금을통해서재정적지원체계도마련하고있다.”라고소개했다. 그는“성장기아이들이건강하고바르고현명하게자라기위해서는청소년기에신체활동습관을들이는것이매우중요하다.신체활동을통해다양한심리적안정과행복감을느낄수있기때문에정서발달에도도움이되고,신체활동에참여함으로써학생들과함께소통하고,공감하면서스포츠맨십과같은사회성과관련된다양한요소들을배울수있다는점에서굉장히중요하다고생각한다.”라고밝혔다. 김대환교수는“아이들의교육,양육에있어신체활동,특히아침체인지프로그램참여를적극적으로고려해보기를권해드리고싶다.”라고제안했다. ▷방송보러가기(클릭) 한국자원공학회·한국암반공학회학술상 최요순교수, 한국자원공학회·한국암반공학회학술상동시수상 국립부경대학교최요순교수(에너지자원공학과)가한국자원공학회(회장정명채)와한국암반공학회(회장박찬)의학술상을동시에수상하는영예를안았다. 최요순교수는지난11월6일부터3일간강원도하이원그랜드호텔에서열린2024추계자원연합학술대회에서뛰어난연구및학술활동을인정받아각학회로부터학술상을받았다. 한국자원공학회는최요순교수가스마트마이닝기술분야의국내최고전문가로서자원산업의생산성향상과안전성개선에크게기여하고,국내외학술지에수많은우수논문을게재하는등왕성한학술활동과후학양성노력을인정해학술상을수여했다. 한국암반공학회는광물자원개발기술과ICT및자동화기술을융합한스마트마이닝기술분야에서국내최고전문가로서왕성한연구활동와우수한학술논문발표를통해암반공학발전에크게기여한공로로최요순교수에게학술상을수여했다. 부울경전문가협의회의장 이유태교수,부울경전문가협의회의장‘활약’ 국립부경대학교이유태교수(경영학부)가최근발족한부울경전문가협의회의장을맡아활약한다. 지난11월1일발족한이협의회는부산지역대학의전현직교수와각계전문가를중심으로‘부산국제해양메가시티’조성을논의하는모임이다. 협의회는이날부산상공회의소중회의실에서창립심포지엄과정책토론회를개최했다.이유태교수가협의회의장을맡고박맹언전부경대총장과허남식신라대총장이고문으로참여했다. 이날정책토론회에서는‘대한민국흥망성쇠,듀얼메가시티’를주제로발표가진행됐고,이어진토론에서는이유태의장을좌장으로국립부경대하명신대외부총장,신라대박재욱교수,배광효사회혁신연구원장등이패널로참석해토론을펼쳤다. KimJin-goo|ReportsFirstSubtropicalSpeciesofCreediidaeinSouthKorea FirstDiscoveryofaNewSpeciesofTtibyeolbari(Limnichthyskoreanus)inSouthKorea-ResearchTeamatPukyongNationalUniversityReportsFirstSubtropicalSpeciesofCreediidaeinSouthKoreaResearcherLeeYu-jinfromPukyongNationalUniversity(Ph.D.CandidateinMarineBiology)publishedanewspecies,‘Ttibyeolbari(Limnichthyskoreanus),’intheOctoberissueoftheprestigiousinternationaljournalinzoology,.Thepaperistitled‘Limnichthyskoreanus,anewspeciesofcreediidfish(Teleostei,Acropomatiformes,Creediidae)fromKorea’(Advisor:ProfessorKimJin-goo). Thenewlyreportedspecies,Limnichthyskoreanus,isasmallfishmeasuringlessthan5cm,collectedbyProfessorKimJin-goowhileskindivinginMoseulpo,JejuIsland.ThisisalsothefirsttimethatasubtropicalspeciesoftheCreediidaefishhasbeenreportedinSouthKorea.TheCreediidaefamilyhasneverhadasinglespeciesreportedinSouthKorea,makingitataxonwithnobiologicalinformationailable. InastudywhereresearcherLeeYu-jinraisedLimnichthyskoreanusinalaboratorytankforthreemonths,itwasfoundthatthefishhasauniquebehiorofhidingingrelandsand,thenleapingatanincrediblespeedtointerceptfoodwhensmallcrustaceans,suchaswaterstriders,approach,beforereturningtoitsoriginalposition.Additionally,itsheartratewasmeasuredat190to240beatsperminute,indicatingthatitcanmoveremarkablyfastdespitebeingasmallfish. Theresearchteamwentthroughsomeupsanddownsalmostlosingthespeciestheyhadjustdiscovered.ProfessorKimJin-gooinitiallycollectedthisspeciesandplaceditinacollectionjarwithotherspecimens,butwhenhecheckedoutsidethewater,hecouldnotfindit.Afterreturningtoheraccommodation,researcherLeeYu-jinshookthecollectionjartoexaminethespecimens,duringwhichaIstigobiuscampbelliinthejarregurgitatedtheundigestedLimnichthyskoreanus,allowingthemtoconfirmthespeciesain,leadingtotheannouncementofthenewspecies. ProfessorKimJin-goostated,“Limnichthyskoreanusisasmallfishspeciesthatliveshiddeninthegreloftheshallowintertidalzoneatadepthof1-2metersinMoseulpo,JejuIsland,andduetoitsuniquecharacteristicofbeingfoundonlyinJeju,thereisaneedforfollow-upresearchforspeciesconservationaswellasvariouseffortsforhabitatprotectioninthefuture.” ProfessorKimJin-goohasoperatedthemarinefishresourcedonationandregistrationpreservationencyundertheMinistryofOceansandFisheriesfor11years,andwiththebudgetsupportfromtheNationalMarineBiodiversityInstitute,hehasachievedresearchresultsreportingthenewspeciesofLimnichthyskoreanus,dedicatinghimselftotheassetizationofmarinefishresources.Todate,hehassuccessfullysecuredover800specimensofnativefishspecies,andtheLimnichthyskoreanusspecimenshebeentransferredtotheNationalMarineBiodiversityInstituteforcontinuedresearchuse. EomWoo-ram|DevelopNewCancerTreatmentTechnologyUsing‘Nano-Bubbles’ PukyongNationalUniversity·TechUniversityofKorea·SungkyunkwanUniversity,DevelopNewCancerTreatmentTechnologyUsing‘Nano-Bubbles’-Nano-BubblesResponsivetoUltrasound…DestroyingCancerCellNucleitoTreatMetastaticCancerProfessorEomWoo-ramfromtheDepartmentofBioengineeringatPukyongNationalUniversity,ProfessorYooDong-gilfromTechUniversityofKorea,andProfessorParkJae-hyungfromSungkyunkwanUniversityhesuccessfullydevelopedanewtypeofmechanicalcelldeathmethod(ciptosis)thatcandramaticallyenhancetheefficacyofcancerimmunotherapy,markingthefirstdevelopmentofitskindintheworld. Cancerimmunotherapyisamethodoftreatingcancerbyutilizingthebody'simmunefunction,anditisgainingattentionforitslowersideeffectsandsuperiortreatmenteffectscomparedtotraditionalchemotherapy.Inparticular,immunecheckpointinhibitors,whicharearepresentativemethodofimmunotherapycapableofnormalizingimmuneresponsesdisruptedbycancercells,arebeingactivelyappliedclinicallytotreatvarioustypesofcancer. However,recentstudiesheshownthatwhenthereisadeficiencyinthenumberofcytotoxicTcellspresentinthetumormicroenvironment,theeffectivenessofimmunecheckpointinhibitortherapysignificantlydecreases.Consequently,therehasbeenacontinuousdemandfornewtechnologiesthatcanattractexternalimmunecellstothetumorsitetoenhancetheefficacyofcancerimmunotherapyandexpandtreatmentbenefitstoalargerpatientpopulation. ProfessorEomWoo-ram'sresearchteamfocusedontheroleofeosinophils,atypeofwhitebloodcell.Althougheosinophilsaregenerallyknowntoheanegativeimpactoncancertreatment,theycanbestimulatedbyinterleukin-33(IL-33),whichresidesinsidethecellnucleus,toattractimmunecellsintothetumorandexhibitstronganti-cancereffects.However,IL-33istightlyboundwithinthecellnucleus,makingtreatmentoptionsutilizingeosinophilsandIL-33extremelylimited. ProfessorEomWoo-ram'sresearchteamsuccessfullydevelopedamechanicalcelldeathmethod(citopsis)thatcanrupturecellswhenexposedtoultrasoundbyutilizingnano-sizedbubblescapableofpenetratingintothecells. Thenano-explosiveentmadefromnano-bubblesresponsivetoultrasoundrupturesthenucleiofcancercells,releasingIL-33,whichishardlyreleasedinitsnaturalstate,intotheextracellularspace.ThisIL-33stimulateseosinophilstoattractimmunecellsintothetumor,elucidatingitsanti-cancereffect.Theresearchteamvalidatedthetherapeuticefficacyofthenano-explosiveentinareallungmetastaticcancermousemodel,confirmingadramaticenhancementintheanti-cancerefficacyofexistingimmunecheckpointinhibitors. Theprincipalinvestigator,ProfessorEomWoo-ram,stated,“Currently,cancerimmunotherapyisveryexpensive,costingmillionsofwon,andhaslimitationsasitiseffectiveonlyforasubsetofpatients.However,Iexpectthatthisresearchwilldramaticallyenhancethetherapeuticefficacyofcancerimmunotherapy,increasingthepotentialfortreatingmetastaticcancersthathebeendifficulttotreatwithexistingtherapies.” TheresearchteamconductedthisstudywiththesupportoftheNationalResearchFoundationofKorea’sIndividualBasicResearchandNationalNewDrugDevelopmentprojects.Theresearchresultswerepublishedintheinternationaljournal,withresearcherSongYe-ri(SungkyunkwanUniversity)andProfessorEomWoo-ramasfirstauthorsandProfessorsEomWoo-ramandParkJae-hyungascorrespondingauthors. Meanwhile,ProfessorEomWoo-ram'sresearchteamisconductingfollow-upresearchtodevelopcancerandobesitytreatmentmethodsutilizingnanotechnologythatcanregulatecellularfunctions. ChoSeung-mok|RevealedtheSpecialBenefitsofLimePeel PukyongNationalUniversityFacultyStartupCompany,RevealstheSleepImprovementEffectofLimePeelfortheFirstTime-NutraightCo.,Ltd.PublishesPaperinanInternationalJournalandPursuesExportofHealthFunctionalFoods PukyongNationalUniversityfacultystartupcompanyNutraight(CEOChoSeung-mok,ProfessorofFoodEngineering)hasrevealedthesleepimprovementeffectsandmechanismsofactionfromthepeeloflime,atypeofcitrusfruitforthefirsttime. NutraightCo.,Ltd.'sresearchteam,incollaborationwithDr.LeeJae-gwang'sresearchteamattheKoreaFoodResearchInstituteandProfessorJangH.Youn'sresearchteamattheUniversityofSouthernCalifornia'sSchoolofMedicine,scientificallyelucidatedthesleepeffectsandmechanismsofactionoflimepeel. Theresearchteam,withsupportfromtheTIPSprogramoftheMinistryofSMEsandStartups,exploredgloballyrecognizedrawmaterialstodevelophigh-qualitysleepfunctionalingredientsthatcanenhanceglobalcompetitiveness.Thestudyfoundthatlimepeelextractshowedsignificantreductionsinsleeponsettimeandincreasesintotalsleeptimeinanimaltests. Inparticular,itwasconfirmedthatlimepeelextracthastheabilitytoincreasedeepsleepandimprovesleepquality.Thesleepeffectsoflimepeelextractareattributedtotheflonoidcompoundsabundantlyfoundinlimepeel,whichactivateGABAreceptorsliketheinhibitoryneurotransmitterGABAinthecentralnervoussystem,andthismechanismofactionhasbeenscientificallyproven. Theresearchteamrecentlypublishedapapercontainingtheseresearchresultsintheprestigiousinternationaljournal(IF:6.9),whichisinthetop10%ofthepharmaceuticalfield.Inarecentlycompletedhumantrial,limepeelextractdemonstratedexcellentclinicaleffects,suchasreducedsleeponsettime,increasedsleepefficiency,longertotalsleeptime,andincreasedste2sleep,andtheteamiscurrentlypreparingtosubmitthepaper. Notably,Nutraight'scorporateresearchinstitutefocusedondevelopingamethodthatselectivelyextractsonlytheflonoidcomponentsthatinducesleepwhileinhibitingtheextractionofpolysaccharideslikepectinfromlimepeel,thusestablishinganefficientandeconomicalindustrialproductionprocess. Thefirstauthorofthisresearchpaper,LeadResearcherKimSeong-hee,stated,“Buildingontheworld’sfirststudyrevealingthesleepeffectsandmechanismsoflime,wehesuccessfullyindustrializedfunctionalingredients,andweplantoconductfollow-upresearchonpromisingleadcompoundsbasedonactiveingredients.Inparticular,wecanalsoseetheuseoflimepeel,abyproductgeneratedduringtheproductionoflimejuice,asagoodexampleofhigh-valuefoodupcycling.” CEOChoSeung-mokstated,“WeherecentlycompletedtheapplicationforindividualrecognitionoffunctionalingredientswiththeMinistryofFoodandDrugSafety,finalizingourpreparationsforenteringthedomesticmarket.Wearecurrentlyworkingonregisteringlimesleepmaterialsasnewdietaryingredients(NDI)withtheU.S.FDA,andstartingnextyear,weplantofocusontheglobalizationoflimesleepmaterials,particularlyintheU.S.market.” CEOChoSeung-mokhasdevelopedthecountry’sfirstindividuallyrecognizedsleepfunctionalingredient,earningrecognitionforhisoutstandingresearchcapabilitiesinthefield.HefoundedNutraightCo.,Ltd.withthegoalofdevelopinghigh-efficacy,low-dosesleepfunctionalingredientsthatcansucceedintheglobalmarket. SongJin-ho,VicePresidentofMnaInvestment,aninvestorinNutraightCo.,Ltd.,stated,“Nutraighthasdevelopeditsproductsthroughefficacycomparisonswithrenownedforeigningredientsfromthebeginningoftheresearchphase,anditisexpectedtoplayapioneeringroleinrevitalizingtheexportofhealthfunctionalfoodsinKorea.”Hehighlyassessedtheglobalsuccesspotentialoflimesleepmaterials. HeoWon-bin·OhYoung-sam|RevealedtheCorrelationBetweenExcessiveAlcoholConsumptioninAdolescentsand39;RiskySexualBehiors39; RevealedtheCorrelationBetweenExcessiveAlcoholConsumptioninAdolescentsand'RiskySexualBehiors'-ResearchResultsfromProfessorsHeoWon-binandOhYoung-samatPukyongNationalUniversityResearchhasfoundthatasadolescents'alcoholconsumptionincreases,thelikelihoodofengingin'RiskySexualBehiors'alsorises. ProfessorsHeoWon-binandOhYoung-samfromtheDepartmentofSocialWelfareatPukyongNationalUniversitypresentedresearchfindingsthatclarifythecorrelationbetweenalcoholconsumptionandriskysexbehioramongKoreanadolescentswhohehadsexualexperienceswiththeoppositesex. Riskysexbehiorsrefertosexualactivitiesthatdonotinvolvecontraception,suchastheuseofcondoms. Theresearchteamconductedthestudyusingstatisticaldatafromthe16th(2020)YouthHealthBehiorSurvey,focusingon54,948participants(from7thgradeto12thgrade).Amongthese,theyexamined2,487adolescentswhohadsexualexperienceswiththeoppositesex,comparing547adolescentswhoconsumedalcoholwith547whodidnot. TheresearchteamanalyzedthestatisticaldatausingmethodssuchasPropensityScoreMatching(PSM)andMultipleLogisticRegressionAnalyses.Theresultsshowedthatthepresenceorabsenceofalcoholconsumptionitselfwasnotrelatedtoriskysexualbehiors. However,whenanalyzingonlythegroupthatconsumedalcohol(547participants),itwasfoundthatasalcoholconsumptionincreased,thelikelihoodofenginginriskysexbehiors,meaninghingsexualintercoursewithoutcontraception,alsoincreased. Inparticular,whenanalyzinggenderdifferences,itwasrevealedthatthelikelihoodofenginginriskysexbehiorincreasedwithalcoholconsumptiononlyamongfemaleadolescents,whilenosuchassociationwasobservedinmaleadolescents. ProfessorOhYoung-samstated,“Toensurepropersexualbehiorandawarenessamongadolescents,itisnecessarytoestablishvariouseducationalprogramsandprotectivemeasuresregardingsexinhomes,schools,andcommunities.” Theresearchfindingsarepublishedinthepapertitled‘TheRelationshipsBetweenAlcoholDrinkingandRiskySexualBehiorAmongKoreanAdolescents:FocusingonHeterosexualAdolescents’inthelatestissueoftheinternationaljournal. SeoMin-ho|ResearchonImprovingHydrogenFuelCellsLifespan‘IntheSpotlight’ PukyongNationalUniversity·KoreaInstituteofMaterialsScience·GIST,DevelopTechnologytoEnhancetheLifespanofHydrogenFuelCells-DevelopmentofNewCarbonMaterialAdditivesforElectrodes…SignificantlyImprovedtheDurabilityofPolymerElectrolyteMembraneFuelCellsProfessorSeoMin-hofromtheDepartmentofNanotechnologyEngineeringatPukyongNationalUniversity,Dr.ChoiSeung-mokfromtheKoreaInstituteofMaterialsScience,andProfessorEomKwang-seopfromtheGwangjuInstituteofScienceandTechnology(GIST)researchteamhesuccessfullyenhancedthedurabilityofacommercial-gradepolymerelectrolytefuelcellsystembyutilizinganewlydevelopedcarbonmaterial,whichwascreatedforthefirsttimeglobally,asanadditiveintheelectrodemanufacturingprocess. Polymerelectrolytemembranefuelcells,whicharegainingattentionasenvironmentallyfriendlyandhigh-efficiencybatteries,generateelectricitybyusinghydrogenasfuelthroughahydrogenoxidationreaction,emittingonlywaterasareactionproduct.However,inconventionalpolymerelectrolytefuelcellsystems,thestart-upandshut-downprocessesgeneratehighvoltesabove1.4V,whichacceleratescarboncorrosioninthecatalystlayer.Thisleadstothecollapseofthecatalystlayerandthephenomenonofwateraccumulationinsidetheelectrodesduetothewaterproducedduringtheoxygenreductionreaction(waterflooding),whichcausedaproblemwithsignificantreductionindurability. ProfessorSeoMin-ho'sresearchteameffectivelyimprovedthedeclineindurabilityoffuelcellscausedbycarboncorrosionbyutilizinganewcarbonmaterialwithhighcarboncorrosionresistanceasanadditiveintheelectrodes.Thefluorine-dopedgraphenenanoribbonsandcarbonnanotubecomposite(F-GNR@CNT)usedinthisstudyweredevelopedtoovercomethecarboncorrosionvulnerabilityofexistinggraphenenanoribbonoxides. Existinggraphenenanoribbonoxidesbecomeenrichedwithoxygenfunctionalgroupsduetostrongchemicaloxidationduringthesynthesisprocess,resultinginsignificantdefectsandinstabilityattheboundaryregions,makingthemhighlysusceptibletoelectrochemicalcarboncorrosionduringfuelcelloperation.ProfessorSeoMin-ho’sresearchteamsynthesizedacarbonnanotubecompositewithhighcorrosionresistancebycontrollingtheoxidationlevelandformedstablecarbon-fluorinebondsthroughaheattreatmentprocessforfluorinedoping. ProfessorSeoMin-ho’sresearchteamdevelopedanelectrodemanufacturingtechnologythatoptimizestheprocessofaddingaminimalamountoftheF-GNR@CNTcompositeincollaborationwithDr.ChoiSeung-MokfromtheKoreaInstituteofMaterialsScienceandDr.ChoiYoung-WoofromtheKoreaInstituteofEnergyTechnologyandmanufacturedtheelectrodes. IncollaborationwithProfessorEomKwang-Seob’sresearchteamfromGIST,thedurabilityofacceleratedelectrochemicalcarboncorrosionoftheseelectrodeswasevaluated,andtheresultsindicatedthatthedegradationrateinthemasstransportregionoftheexistingcatalystlayerelectrodewasapproximately85%,whiletheelectrodewiththeaddednewcarbonmaterialexhibitedadegradationrateofabout40%,confirmingaveryhighresistancetoelectrochemicalcarboncorrosion. Theprincipalinvestigator,ProfessorSeoMin-ho,statedthat“thefluorine-dopedgraphenenanoribbonandcarbonnanotubecomposite,proventhroughacombinationofexperimentsandcomputationalscience,willbeanimportantstrategyforefficientlyandeasilydevelopinghigh-durabilityhydrogenfuelcellswhenusedasanadditiveinelectrodes. ThisresearchachievementwascarriedoutwithsupportfromthePukyongNationalUniversity’sYoungResearcherChallengeResearch,theKoreaEnergyTechnologyEvaluationInstitute,theKoreaIndustrialTechnologyPlanningandEvaluationInstitute,andthefundamentalprojectsoftheKoreaInstituteofMaterialsScience.TheresearchresultswerepublishedintheinternationaljournalwithPh.D.studentJinSong(KoreaInstituteofMaterialsScience·GIST)andDr.KwonJun-Hwa(GIST)asthefirstauthors,andDr.ChoiSeung-MokandprofessorsEomKwang-SeobandSeoMin-hoascorrespondingauthors. Meanwhile,theresearchteamisconductingfollow-upstudiestoenhancetheperformanceandstabilityofthepolymerelectrolytemembranefuelcellsystemthroughthedevelopmentofcatalystfoundationaltechnologiesandelectrodefabricationprocesses,includingnewhigh-durabilitycarbonsupportsandnanoparticlestructurecontrol. JeongYeon-ho|ResearchonFutureWirelessOpticalCommunicationUsingUltrioletLightGainedInternationalAttention ResearchonFutureWirelessOpticalCommunicationUsingUltrioletLightGainedInternationalAttention-ProfessorJeongYeon-ho’sTeamatPukyongNationalUniversityPublishedPaperintheTop-rankedInternationalJournalintheJCRResearchondevelopingnewwirelessopticalcommunicationtechnologyforthefutureusingultrioletlightisgaininginternationalattention. Thepapertitled‘AComprehensiveSurveyonOpticalScatteringCommunications:CurrentResearch,NewTrends,andFutureVision’byProfessorJeongYeon-ho’sresearchteamfromPukyongNationalUniversity(MajorofInformationandCommunicationsEngineering)waspublishedinthelatestissue(Volume26,Issue2)oftheinternationaljournal(IF34.4). Thisinternationaljournal,inwhichthepaperwaspublished,isrecognizedasatop-tier(rankedfirstinJCR)journalinthefieldsofelectrical,electronic,andcomputerengineering. ProfessorJeongYeon-ho’sresearchteamcomprehensivelysummarizedtheultrioletcommunicationresearchconductedoverthepastfiveyearsattheMobileTransmissionSystemsLaboratoryofPukyongNationalUniversityandpresentedatechnologyroadmap,includingexistingdevelopedtechnologies,asummaryofcoretechnologiesforbeginners,andthelatestresearchtrendsinthispaper. Ultrioletcommunicationisgainingattentionasafuturetechnologytoovercomethelimitationsofexistingradiofrequency(RF)communication,includingregulationsandcosts.Byutilizingultrioletlightinthe200-280nmrange,itispossibletoimplementindoorandoutdoorwirelesscommunicationwithoutinterferencefromsolarultrioletlight,alongwithadvantessuchascompactdevices,lowpowerconsumption,andhighsecurity. Theresearchteamnotonlyconductedtheoreticalmodelingoftheultriolet-basedvehicle-to-vehicle(V2V)communicationsysteminthispaperbutalsoimplementeditusingactualhardwareandcarriedoutexperimentalteststodemonstrateitsfeasibility.TheteamfiledpatentsfortheseresearchresultsintheUnitedStatesanddomesticallyandalsopublishedthefindingsinanotherinternationaljournal,(I.F7.9/top2.5%). ProfessorJeongYeon-hostated,“Ultrioletcommunication,asascattering-basedtransmissiontechnology,isexpectedtoplayanimportantroleinnext-generationopticalwirelesscommunicationasanewalternativetransmissiontechnologytoradiofrequencycommunication,andIhopethisresearchcontributestotheadvancementoffuturewirelesscommunication.” Meanwhile,inthispaper,ProfessorJeongYeon-hoservedasthecorrespondingauthor,andSudanshuArya,aprofessorfromVelloreInstituteofTechnologyinIndiaandaformermemberofthePukyongNationalUniversityMobileTransmissionSystemsLaboratory,wasthefirstauthor. LimDo-jin|DispensingSystemPublishedinaTopGlobalJournal DispensingSystemDevelopedbyPukyongNationalUniversityProfessor’sTeamPublishedinaTopGlobalJournal-ProfessorLimDo-jin’sResearchTeam…PublishedaPaperinAstudyonanoveldispensingsystembyProfessorLimDo-jin’s(DepartmentofChemicalEngineering)researchteamatPukyongNationalUniversityhasbeenpublishedinatopglobaljournal. Apapertitled‘Syringepump-embedded,on-demandsamplesupplyandcollectionsystemfordroplet3Dcellcultureindigitalmicrofluidics,’coveringresearchontheindependentlydevelopedsolenoidpump-basedsamplesupplyandcollectiondevicebyProfessorLimDo-jin’sresearchteam,wasrecentlypublishedintheinternationaljournal(IF8.0). Thisinternationaljournalisthetop(ranked1st)among76journalsinthefieldofInstruments&Instrumentation. ProfessorLimDo-jin’sresearchteamdevelopedadispensingsystemthatusesanindependentlydevelopedsmallsolenoidpumptoperformvariousfunctionssuchassamplesupply,splitting,andcollectioninasingledevice,anddemonstratedallstesofdroplet(averysmall,rounddrop)3Dcellcultureusingthissystem. Variousdispensingtechnologiesarecurrentlyusedtosupplydropletstocellculturedevices;however,theuseofprecisesyringepumpsisessentialforsupplyingsamplesataconstantvolumeandspeed.However,mostsyringepumpshealargevolume,makingitdifficulttominiaturizethesystem,andlackacollectionfunction,requiringcomplexsystemconfigurationsforapplicationinbiologicalfields. Thefirstauthorofthisresearchpaper,Ph.D.studentBaeSeo-jun,appliedasimplemethodofsupplyingsamplesbyinsertingasamplechamberinsteadoffillingthesyringeforsamplesupply,thusaddressingtheissueofdeadvolumethatinevitablyarisesfromtheuseofsyringes. Hestated,“Bycombiningthenewlydevelopeddispensingdevicewiththeexcellentdropletmanipulationtechnologyknownasdigitalmicrofluidics,itisexpectedtohelputilizethecharacteristicsofdigitalmicrofluidicsmoreeffectivelyinvariousstudiesrequiringautomation,suchasorganoidculture.” ProfessorLimDo-jin'sresearchteamconductedthisstudywiththesupportoftheMid-CareerResearcherSupportProgramfromtheNationalResearchFoundationofKorea(NRF-2021R1A2C). LimDo-jin|PublishedCoverPaperinInternationalJournal ProfessorLimDo-jin'sResearchTeamatPukyongNationalUniversityPublishedCoverPaperinInternationalJournal-DevelopmentofaNewTechnologyforDroplet3DCellCultureinOil…PublishedintheInternationalJournal《SmallMethods》ThepaperbyProfessorLimDo-jin’sresearchteamfromPukyongNationalUniversity(DepartmentofChemicalEngineering)waspublishedasthecoverarticleintheinternationaljournal《SmallMethods(IF10.7)》. Thetitleofthepaperpublishedasthecoverarticleinthelatestissueofthisjournalis‘3DCellCultureMethodinChannel-FreeWater-in-OilDroplets.’ Inthispaper,ProfessorLimDo-jin’sresearchteamdevelopedandpresentedanoveldroplet-based3Dcellculturetechnologyinoilthatdoesnotusechannels(passes)forthecultivationoforganoids,whicharemodelsofartificialorgans. Organoidsareartificiallycreatedorganmodelsthataregainingattentionasanewpreclinicalmodelcapableofreplacinganimalexperiments,oftenreferredtoasthe’gamechangerofregenerativemedicine‘inthefuture. However,duetothesizelimitationsof3Dcellculturesdeterminedbythesizeoftheculturesystem,thereisalimitationinorganoidcultivationthatnecessitatesacumbersomeandcomplexprocessofsequentiallychangingtheculturesystem. Toaddressthisissue,theresearchteamachievedtheformationofvarioussizesof3Dcellculturesthroughasimplesystemconfigurationusinganoveldroplet(averysmall,rounddrop)3Dcellculturetechnologythatdoesnotutilizechannels. Thefirstauthorofthisresearchpaper,Ph.D.studentBaeSeo-jun,systematicallyanalyzedover10,000spheroidimesanddiscoveredthatthesizeofspheroidsformedcanbedeterminedbycontrollingthedropletsize. Hestated,“Thedroplet-based3Dcellculturetechnologyinoilthatdoesnotusechannels,combinedwithdigitalmicrofluidicsthatexcelsindropletmanipulation,isexpectedtoaidinthedevelopmentofautomatedorganoidculturesystems.” ProfessorLimDo-jin’sresearchteamconductedthisstudywiththesupportoftheMid-CareerResearcherSupportProjectfromtheNationalResearchFoundationofKorea. 증명서발급 친절하게안내해드리겠습니다.설명글입니다. 바로가기 Smart-LMS 친절하게안내해드리겠습니다.설명글입니다. 바로가기 수강신청 친절하게안내해드리겠습니다.설명글입니다. 바로가기 학사일정 친절하게안내해드리겠습니다.설명글입니다. 바로가기 등록금안내 친절하게안내해드리겠습니다.설명글입니다. 바로가기 발전기금 친절하게안내해드리겠습니다.설명글입니다. 바로가기 일시정지 일시정지 일시정지 부산최초의대학/부경대역사갤러리 재적생수23,489 국제협력대학48개국258개 국제교류본부 도서관 입학본부 진로취업길라잡이 학부대학 교수학습지원센터 PUKYONGNATIONALUNIVERSITY 부경나우 부경나우 교수동정 PKNUResearch1000 부산녹색환경지원센터ESG워크숍열려 국립부경대부산녹색환경지원센터,‘부산환경산업의지속가능한발전을위한ESG워크숍’개최△ 워크숍전경.국립부경대학교부산녹색환경지원센터(센터장이태윤)는12월 16일오후환경해양관1층대회의실에서‘부산환경산업의지속가능한발전을위한ESG워크숍’을개최했다. 이번워크숍은ESG환경정책및신기술연구현황을공유하고부산지역기업의지속가능한발전및환경경쟁력확보를위한발전방향을모색하기위해마련됐다. 이날행사는이태윤센터장의개회사를시작으로국립부경대이민희학무부총장과부산광역시의회복지환경위원회성현달의원의축사가진행됐다. 이어부산녹색환경지원센터는지역환경개선과센터발전에기여한성현달의원과,안전하고건강한물환경조성에크게기여한낙동강유역물관리위원회남광희위원장에게감사패를전달했다. 이어ESG환경정책분야에서남광희위원장의‘ESG경영의필요성과트렌드’발표와국립부경대한희진교수(글로벌자율전공)의‘기후변화와기후공시’발표가열렸다. 신기술연구분야에서는국립부경대남기전교수(환경공학전공)의‘환경분야AI활용현황-AI를이용한환경물관리및산업의디지털화’발표가진행됐고,부산녹색환경지원센터의2024년우수연구개발과제로국립부경대이준엽교수(환경공학전공)의‘부산시하수처리장유기성찌꺼기처리및바이오가스생산증대를위한약품투입최적화및우수식종원발굴’발표가이어졌다. 발표에이어리뉴어스(주),(주)이산등환경산업체들이참가한가운데회사소개와환경인재채용홍보도진행돼행사에참여한관련분야대학생들의호응을얻었다. 부산녹색환경지원센터이태윤센터장은“센터는부산환경보전과지속가능한미래를위해끊임없이노력해왔으며,이번워크숍을통해ESG경영의중요성을다시한번되새기고지역환경과경제의조화로운발전을위한방향을모색하는기회가될것으로기대한다.”라고밝혔다. ‘2024부산수산인의밤’개최 국립부경대,‘2024부산수산인의밤’행사개최-수산분야산？관？학관계자‘한자리에’…18일부경컨벤션홀△ 2024 부산수산인의밤기념단체사진.국립부경대학교(총장배상훈)는12월18일오후부경컨벤션홀에서‘2024부산수산인의밤’행사를성황리에개최했다. ‘2024수산인의밤’은국립부경대수산가공연구센터(센터장전병수),LINC3.0사업단(단장류지열)및블루푸드혁신생태계조성사업단(단장이상길)이주최하고수산업전문가과정12기원우회가주관한행사다. 이날부산시수산진흥과이금옥과장을비롯해국립부경대하명신부총장,수산업전문가과정원우등150여명이참석해수산업분야에서의성과와미래비전을공유하며전문가와관계자들간의네트워크를다졌다. 수산업전문가과정은부산수산업의경쟁력확보를위해지역수산가공업경영자와종사자를대상으로선진수산기술과동향을전수하는프로그램이다.국립부경대수산가공연구센터가해양수산부와부산시의위탁을받아지난2012년개설한이후올해32명을포함해총380여명의수산전문인력을배출했다. 이번행사에서는△수산식품기업도약의첫걸음△부산시블루푸드테크발전을위한지산학협력방안등세미나를통해수산업계의현황과미래전망에대한정보를공유하고,수산업전문가과정원우들의제품전시홍보를통해수산업계의동향에대한정보를제공했다. 전병수수산가공연구센터장은“수산업은해양도시부산의중심산업이자우리의미래를책임질중요한분야다.수산업전문가과정교육이후에도교류협력네트워킹행사를통해지자체？대학？산업체간에더욱긴밀히협력하고함께나아갈수있는계기가마련되길기대한다.”라고밝혔다. 대면입학상담행사열려 국립부경대,정시신입생모집앞두고대면입학상담개최-수험생및학부모100여명참가△ 입학상담행사전경.ⓒ사진이성재(대외홍보센터)국립부경대학교(총장배상훈)는2025학년도정시신입생모집을앞두고16,17일양일간대면입학상담행사를개최했다. 국립부경대학교입학본부(본부장박인호)는미래관4층컨벤션홀에서열린이번행사에서입학사정관등입학전문가들이수험생과학부모등100여명을대상으로1대1집중상담을진행했다. 입학본부는이번상담행사를통해△2025학년도정시신입생모집전형안내△전년도입시결과등정시신입생모집지원에앞서수험생들이가장궁금해하는입시정보를맞춤형으로제공했다. 이와함께자유전공학부(다군)등신설학과(전공)안내를동시에진행하며차별화된개별상담서비스도제공했다. 국립부경대학교의정시신입생모집관련궁금한사항은누구나국립부경대학교입학본부에문의하면된다.  태국어교육과정수료식열려 국립부경대,태국어교육과정수료식개최-13일태국매솟…태국이주민학교학생100명수료△ 태국어교육과정수료식기념촬영장면.국립부경대학교코이카시민사회협력프로그램사업단(단장정법모·국제지역학부교수)은지난12월13일태국매솟센타라라이프호텔에서태국어교육과정수료식을개최했다. 이날수료식에는사업단의정법모단장과문기홍부단장,이정혜,김지윤연구원을비롯해지구촌나눔운동태국사업소허춘중소장,박미경팀장,탁커뮤니티컬리지PremjitMorsing부학장등이참석한가운데태국이주민학교학생100명이수료증을받았다. 사업단은한국국제협력단(KOICA·코이카)이지원하는시민사회협력진입형사업에2023년5월선정돼사업을운영해왔으며,이사업의하나로160시간의태국어교육과정을100명에게교육하는사업을1차,2차로나누어운영하고이날2차년도사업의수료식을했다. 사업단은미얀마에서태국으로이주한청년들을대상으로사회적응력과취업역량을키우기위해이번교육과정을진행했다.수료식을앞둔12월11일에는우수수료생20명을대상으로한태국어말하기대회도열었다. 수료식에서는교육과정운영에협력한한매솟협력센터,태국어교육을맡은딱커뮤니티컬리지관계자들과학생들이참가한가운데축하행사도진행됐다. 늘봄학교·교육기부박람회체험행사성료 국립부경대경상권교육기부거점지원센터,‘2024늘봄학교·교육기부박람회’체험행사개최△2024 늘봄학교·교육기부박람회의경상권교육기부거점지원센터부스전경국립부경대학교경상권교육기부거점지원센터(센터장이상길)는12월13일부터15일까지사흘간일산킨텍스에서열린교육부주최‘2024늘봄학교·교육기부박람회’에서교육기부체험행사를펼쳤다. 이번박람회는늘봄월드테마파크형식으로다채로운늘봄·교육기부프로그램을소개하고체험하는행사로열렸다. 국립부경대경상권교육기부거점지원센터는이번박람회에서△플라스틱뚜껑을활용한업사이클링키링만들기△나만의수산생물슈링클스키링만들기등체험프로그램을운영하며참여자들이환경에대해생각해보는기회를제공했다. 특히지속적으로생태·환경교육기부에참여했던국립부경대관상어동아리P.A.R.K.학생들이체험부스운영을주도하고,직접크리스마스콘셉트로꾸민관상어수조를전시해어린이와학생,학부모들의이목을끌었다. 이와함께올해진행해온2024년교육기부및늘봄학교초1맞춤형프로그램운영사업성과를알리고,교육기부및지역사회기여를홍보하기위한다양한이벤트도진행했다. 경상권교육기부거점지원센터의이번박람회활동에는협력기관인삼진어묵에서기념품을지원하고,그리핀아트,마음향기심리상담센터,주식회사놀잇,휴몬랩도함께참여했다. 한편경상권교육기부거점지원센터는교육부와한국과학창의재단으로부터지정받아2023년국립부경대내에설립됐으며,지역사회와함께교육기부협업네트워크를구성해교육자원발굴및지역간교육격차해소를위해노력하고있다.  제3회디지털금융인재양성포럼열려 ‘부산을디지털금융허브로!’디지털금융포럼개최-11일국립부경대…‘제3회디지털금융인재양성포럼’△포럼참석자들이단체기념촬영하고있다.ⓒ사진이성재(대외홍보팀)부산을글로벌금융허브로도약시키기위한‘제3회디지털금융인재양성포럼’이12월11일오후국립부경대학교부경컨벤션홀에서열렸다. 국립부경대디지털금융학과와한국디지털금융진흥원(원장이현규)이공동주관하고(사)한국인터넷전자상거래학회(회장김종호)가주최한이번행사는‘미래금융을여는부산의디지털자산혁명’을주제로진행됐다. 이날행사에는이경식한국거래소부이사장,김구영SK브로드밴드부사장,최중근아이티센그룹부사장을비롯해부산시,BNK금융그룹,부산일보,비온미디어,글로벌핀테크산업진흥센터관계자들과김종호한국인터넷전자상거래학회장,오창규한국정보시스템학회장등지자체,기업,학계관계자들이대거참석했다. 이번포럼은김상민부산디지털자산거래소대표이사의‘Target2026블록체인시티부산’기조연설을시작으로디지털금융분야전문가들의주제발표를통해디지털금융산업활성화와디지털자산거래기반마련방안등을모색했다. 주제발표로는△디지털자산,어디까지신뢰할수있나?(이수정국립부경대디지털금융학과교수)△WEB3.0금융시대의새로운패러다임:RWATokenization(임대훈(주)크레더대표)△AI와디지털금융의융합:통신과금융의미래를잇다(조호근SK브로드밴드Connectivity사업본부Enterprise컨설팅담당상무)등이진행됐다. 이현규한국디지털금융진흥원장(국립부경대디지털금융학과장)은“이번포럼을통해디지털금융과디지털자산거래에대한심도있는논의와함께부산이글로벌디지털금융산업의허브로서나아갈방향과관련분야인재양성의전략을모색하는계기가되길바란다.”라고밝혔다. 한편한국디지털금융진흥원은디지털금융산업의활성화를위한디지털금융연구성과를확산하기위해2022년부터디지털금융인재양성포럼을개최하고있다.△포럼전경. 카자흐스탄대학·기업과협력확대 국립부경대,카자흐스탄대학·기업과협력확대△ 배상훈총장(앞줄오른쪽세번째)이카자흐스탄대학·기업관계자들과기념촬영하고있다.ⓒ사진이성재(대외홍보팀)국립부경대학교(총장배상훈)가12월10일카자흐스탄대학·기업들과학술교류협의회를하고협력을확대하기로했다. 국립부경대는이날오후대학본부총장실에서카라간다산업대학교,동카자흐스탄기술대학교,루드니산업대학교,주식회사카르메트,주식회사SSGPO,알루르그룹등카자흐스탄대학총장및기업관계자들이참석한가운데국제학술교류협력등을협의했다. 카자흐스탄대학및기업관계자들은이날학생과교원,연구자교류등국제학술교류네트워크개발등에대한협력방안을국립부경대와논의하고,캠퍼스투어를진행했다. 한편국립부경대는올해10월기준학·석·박사과정,석박사통합과정,교환학생,연수과정,복수학위등에68개국1,752명의외국인유학생이재학하고있으며,이가운데카자흐스탄유학생은23명이다. 마약예방중요하다 국립부경대,대학생마약사용경험설문조사실시-마약예방조치‘법적제재강화’가장중요 국립부경대학교인권센터(센터장함혜현)는최근마약사용경험및인식설문조사를실시하고12월 11일결과를발표했다. 이센터가학내학생복지과,경찰범죄심리학전공공익탐정단과공동으로진행한이번설문조사에는부산지역대학생568명이참여했다. 이번설문조사에서‘당신또는당신의가까운사람들이마약을사용한경험이있습니까?’라는질문에6.8%인39명이‘그렇다’라고응답했다.성별로보면남성응답자184명중20명(10.8%),여성응답자384명중19명(4.9%)이그렇다고응답한것으로나타났다. ‘마약예방을위해어떤조치가중요하다고생각하나요?’라는질문에는‘법적제재강화(136명)’응답이가장많았고,‘교육및홍보(98명)’,‘상담및치료프로그램+법적제재강화(76명)’,‘상담및치료프로그램(64명)’순으로나타났다. ‘마약관련정보는주로어디서얻나요?’라는질문에는인터넷,학교,친구순으로응답했으며,대학생들이가장많이알고있는마약의종류는대마초,코카인,헤로인,필로폰,펜타닐순으로나타났다.마약예방의중요성에대해서는응답자의94%(536명)가‘매우중요하다’라고답했다. 함혜현국립부경대인권센터장은“대학생대부분이마약예방의중요성을인식하고있다는것을알수있었고,이번설문조사가대학생마약예방을위한인식확산에도움이될것으로기대한다.”라고밝혔다.  동북아시아문화학회신임회장 국립부경대윤일교수,동북아시아문화학회신임회장취임 국립부경대학교윤일교수(일본어문학전공)가동북아시아문화학회신임회장으로취임했다.임기는12월부터2년이다. 1998년설립된동북아시아문화학회는동북아시아문화에대한다양한담론의장을탐색하고 동북아시아문화교류를분석해동북아시아문화공동체구축을시도하는등동북아시아연구에노력하고있다. 이학회는해마다2회에걸쳐국제학술대회를개최하며동북아시아국가들과학술연구네트워크를구축해교류하고, 한국연구재단등재학술지인'동북아문화연구'를연간4회발간하고있다. 조선통신사상징물디자인이나오기까지 ‘해양도시부산의가장평화로웠던시간’-홍동식교수,칼럼게재 국립부경대학교홍동식교수(시각디자인전공)의칼럼‘해양도시부산의가장평화로웠던시간’이(사)한국해양산업협회발행웹진에실렸다. 11월29일자로게재한이칼럼은부산의대표적인문화콘텐츠인조선통신사에대한상징물디자인이나오게된여정을다뤘다. 부산의주요단체들의상징물을디자인하는등시각디자인전문가로활발한활동을펼치고있는홍동식교수는이번조선통신사상징물디자인에조선통신사의역사와소통의정신을담았다고밝힌다. 홍동식교수는“조선은임진왜란이후국가적으로일본과의친화정책을펴게된다.일본의사정을살피고일본과의우호를유지,강화하는것이무엇보다중요했다.”라면서,“조선통신사는바로평화우호를위해파견된외교관이었다.그외교관의행렬중심에부산이라는해양도시가있었다.”라고설명했다. 홍동식교수에따르면한일양국은이조선통신사기록물을유네스코세계기록유산공동등재를추진해2017년10월세계기록유산등재가확정됐다. 다만이를상징할수있는상징물디자인이없었다.이에조선통신사관련다양한축제와뱃길탐방,유네스코등재기념이벤트진행에따른상징물디자인개발을홍동식교수가맡게된것. 홍동식교수는“조선통신사의가운데글자인통할통(通)을대표상징요소로활용하기로하고通을활용하여시각적요소들을형상화하여갔다.”라고설명했다. 이디자인에는조선통신사의긴여정을알리는길이한글로왼쪽에표기됐고,길위를달리는말의힘찬발길질과한복의아름다운옷고름이투영됐다.한국과일본의평화로운수교를상징하며푸른색과붉은색매듭의묶음모양으로귀한선물을정성스럽게포장한마음을시각적으로표현했다. 홍교수는“(디자인과정은)양국해양도시의발전과우호증진그리고해양도시부산의가장평화로웠던시간을되새김하는행복한시간이었다.”라고소회를밝혔다. ▷칼럼전문보기(클릭) 한국과학기술한림원정회원선출 전병수교수,한국과학기술한림원정회원선출 국립부경대학교전병수교수(식품공학전공)가2025년한국과학기술한림원정회원으로선출됐다. 한국과학기술한림원은11월29일정기총회를열고전병수교수를비롯한내년도정회원36명을선출했다. 부산에서유일하게내년도정회원으로선출된전병수교수는농수산학부에이름을올렸다.전병수교수는1994년부터국립부경대식품공학전공에재직하며식품및바이오산업분야교육과연구를수행하고있다. 과기한림원정회원은과학기술분야에서20년이상활동하면서선도적인연구성과를낸연구자중에서선발된다.교신저자로발표한대표논문10편에대한연구업적의수월성과독창성,학문적영향력과기여도를심사해정책학부,이학부,공학부,농수산학부,의약학부로선발한다. 대한중국학회학술상수상 채영희교수,대한중국학회학술상수상 국립부경대학교채영희교수(국어국문학과)가대한중국학회(회장김현태)학술상을수상했다. 채영희교수는지난11월16일국립부경대에서열린대한중국학회와중국인문학회(회부경대학교 Pukyong National University : 112장김태완)의2024년도추계연합학술대회에서국립부경대손동주교수(일본어문학전공)와함께연구한논문‘司譯院漢語學習書類의敎育內容硏究’로학술상을받았다. 대한중국학회학술상은대한중국학회발행등재학술지인『중국학』에게재된논문가운데학술적가치가뛰어난우수논문을선정하여매년수여하고있다. 채영희교수는“조선시대역관양성을위해사용한교육방법과교재에대한연구로대한중국학회의학술상을받게되어연구자로서큰영광.”이라고수상소감을밝혔다. 대한중국학회는1983년창립된이래현재1,000여명의중국학관련학자와전문가들이회원으로가입돼있으며,어문학을비롯하여문화와사회과학등중국학전반의학문연구를수용하는전국규모의학회로한국연구재단등재학술지『중국학』을매년4회발행하고있다. 한편이번추계연합학술대회는대한중국학회와중국인문학회가공동주관,동아대공자아카데미,국립부경대인문사회과학대학,부산외국어대외국어연구소,전남대중국인문연구소가공동주최해‘차세대중국학학자의연구동향과전망’을주제로국내외250여명의학자가참가한가운데열렸다. 대한민국학술원우수학술도서선정 이은교수번역서,대한민국학술원우수학술도서선정 국립부경대학교이은교수(과학컴퓨팅학과)등이번역한『네트워크사이언스』(에이콘출판)가2024년대한민국학술원우수학술도서로선정됐다. 이책은복잡계네트워크이론의창시자인세계적과학자알버트라슬로바라바시가지었고,이은교수를비롯해한양대(에리카)이미진？손승우교수,숭실대윤진혁교수,경상국립대이상훈교수,가톨릭대조항현교수,한국에너지공과대김희태교수가번역했다. 이책은대한민국학술원이선정한올해우수학술도서294종가운데자연과학분야에선정됐다. 이책은인터넷을비롯해사회연결망,그리고우리의생물학적실재를결정하는유전자네트워크까지,어디에나있는네트워크를이해하기위한네트워크과학에대해물리학부터컴퓨터과학,공학,경제,사회과학까지광범위한주제로다루고있다. 역자인이은교수는사회연결망과그연결망내에서의집단적의견형성및인지편향에대한연구를수행해왔고,특별히불균등하게분포된자원,특성,연결망의구조가사회에미치는영향에대해연구하고있다. 청소년기신체활동습관중요하다 김대환교수,KNN특집방송인터뷰-방송 국립부경대학교김대환교수(스마트헬스케어학부해양스포츠전공)가KNN특집방송에출연했다. 11월9일방영된이특집은부산시교육청이추진하고있는주요정책인‘아침체인지(體仁智)’프로그램에대해집중적으로다룬방송이다.아침체인지는정규교육과정시작전아침시간을활용해신체활동에참여하는자율적인체육활동이다. 스포츠산업관련전문가인김대환교수는이방송에출연해체육활동이청소년들에게미치는영향과효과등에대해설명했다. 김대환교수는방송에서“세계보건기구에서조사한결과에따르면한국학생들의94%가하루에1시간미만의신체활동을하는것으로조사되었고이러한수치는전세계150여개국가에서최하위수준.”이라고지적했다. 이어“미국과영국에서는2005년부터아침0교시체육활동을굉장히장려하고활발하게운영하고있다.그렇게안정적으로활발하게운영하기위해서여러가지법적정책적지원근거도마련하고기금을통해서재정적지원체계도마련하고있다.”라고소개했다. 그는“성장기아이들이건강하고바르고현명하게자라기위해서는청소년기에신체활동습관을들이는것이매우중요하다.신체활동을통해다양한심리적안정과행복감을느낄수있기때문에정서발달에도도움이되고,신체활동에참여함으로써학생들과함께소통하고,공감하면서스포츠맨십과같은사회성과관련된다양한요소들을배울수있다는점에서굉장히중요하다고생각한다.”라고밝혔다. 김대환교수는“아이들의교육,양육에있어신체활동,특히아침체인지프로그램참여를적극적으로고려해보기를권해드리고싶다.”라고제안했다. ▷방송보러가기(클릭) 한국자원공학회·한국암반공학회학술상 최요순교수, 한국자원공학회·한국암반공학회학술상동시수상 국립부경대학교최요순교수(에너지자원공학과)가한국자원공학회(회장정명채)와한국암반공학회(회장박찬)의학술상을동시에수상하는영예를안았다. 최요순교수는지난11월6일부터3일간강원도하이원그랜드호텔에서열린2024추계자원연합학술대회에서뛰어난연구및학술활동을인정받아각학회로부터학술상을받았다. 한국자원공학회는최요순교수가스마트마이닝기술분야의국내최고전문가로서자원산업의생산성향상과안전성개선에크게기여하고,국내외학술지에수많은우수논문을게재하는등왕성한학술활동과후학양성노력을인정해학술상을수여했다. 한국암반공학회는광물자원개발기술과ICT및자동화기술을융합한스마트마이닝기술분야에서국내최고전문가로서왕성한연구활동와우수한학술논문발표를통해암반공학발전에크게기여한공로로최요순교수에게학술상을수여했다. 부울경전문가협의회의장 이유태교수,부울경전문가협의회의장‘활약’ 국립부경대학교이유태교수(경영학부)가최근발족한부울경전문가협의회의장을맡아활약한다. 지난11월1일발족한이협의회는부산지역대학의전현직교수와각계전문가를중심으로‘부산국제해양메가시티’조성을논의하는모임이다. 협의회는이날부산상공회의소중회의실에서창립심포지엄과정책토론회를개최했다.이유태교수가협의회의장을맡고박맹언전부경대총장과허남식신라대총장이고문으로참여했다. 이날정책토론회에서는‘대한민국흥망성쇠,듀얼메가시티’를주제로발표가진행됐고,이어진토론에서는이유태의장을좌장으로국립부경대하명신대외부총장,신라대박재욱교수,배광효사회혁신연구원장등이패널로참석해토론을펼쳤다. KimJin-goo|ReportsFirstSubtropicalSpeciesofCreediidaeinSouthKorea FirstDiscoveryofaNewSpeciesofTtibyeolbari(Limnichthyskoreanus)inSouthKorea-ResearchTeamatPukyongNationalUniversityReportsFirstSubtropicalSpeciesofCreediidaeinSouthKoreaResearcherLeeYu-jinfromPukyongNationalUniversity(Ph.D.CandidateinMarineBiology)publishedanewspecies,‘Ttibyeolbari(Limnichthyskoreanus),’intheOctoberissueoftheprestigiousinternationaljournalinzoology,.Thepaperistitled‘Limnichthyskoreanus,anewspeciesofcreediidfish(Teleostei,Acropomatiformes,Creediidae)fromKorea’(Advisor:ProfessorKimJin-goo). Thenewlyreportedspecies,Limnichthyskoreanus,isasmallfishmeasuringlessthan5cm,collectedbyProfessorKimJin-goowhileskindivinginMoseulpo,JejuIsland.ThisisalsothefirsttimethatasubtropicalspeciesoftheCreediidaefishhasbeenreportedinSouthKorea.TheCreediidaefamilyhasneverhadasinglespeciesreportedinSouthKorea,makingitataxonwithnobiologicalinformationailable. InastudywhereresearcherLeeYu-jinraisedLimnichthyskoreanusinalaboratorytankforthreemonths,itwasfoundthatthefishhasauniquebehiorofhidingingrelandsand,thenleapingatanincrediblespeedtointerceptfoodwhensmallcrustaceans,suchaswaterstriders,approach,beforereturningtoitsoriginalposition.Additionally,itsheartratewasmeasuredat190to240beatsperminute,indicatingthatitcanmoveremarkablyfastdespitebeingasmallfish. Theresearchteamwentthroughsomeupsanddownsalmostlosingthespeciestheyhadjustdiscovered.ProfessorKimJin-gooinitiallycollectedthisspeciesandplaceditinacollectionjarwithotherspecimens,butwhenhecheckedoutsidethewater,hecouldnotfindit.Afterreturningtoheraccommodation,researcherLeeYu-jinshookthecollectionjartoexaminethespecimens,duringwhichaIstigobiuscampbelliinthejarregurgitatedtheundigestedLimnichthyskoreanus,allowingthemtoconfirmthespeciesain,leadingtotheannouncementofthenewspecies. ProfessorKimJin-goostated,“Limnichthyskoreanusisasmallfishspeciesthatliveshiddeninthegreloftheshallowintertidalzoneatadepthof1-2metersinMoseulpo,JejuIsland,andduetoitsuniquecharacteristicofbeingfoundonlyinJeju,thereisaneedforfollow-upresearchforspeciesconservationaswellasvariouseffortsforhabitatprotectioninthefuture.” ProfessorKimJin-goohasoperatedthemarinefishresourcedonationandregistrationpreservationencyundertheMinistryofOceansandFisheriesfor11years,andwiththebudgetsupportfromtheNationalMarineBiodiversityInstitute,hehasachievedresearchresultsreportingthenewspeciesofLimnichthyskoreanus,dedicatinghimselftotheassetizationofmarinefishresources.Todate,hehassuccessfullysecuredover800specimensofnativefishspecies,andtheLimnichthyskoreanusspecimenshebeentransferredtotheNationalMarineBiodiversityInstituteforcontinuedresearchuse. EomWoo-ram|DevelopNewCancerTreatmentTechnologyUsing‘Nano-Bubbles’ PukyongNationalUniversity·TechUniversityofKorea·SungkyunkwanUniversity,DevelopNewCancerTreatmentTechnologyUsing‘Nano-Bubbles’-Nano-BubblesResponsivetoUltrasound…DestroyingCancerCellNucleitoTreatMetastaticCancerProfessorEomWoo-ramfromtheDepartmentofBioengineeringatPukyongNationalUniversity,ProfessorYooDong-gilfromTechUniversityofKorea,andProfessorParkJae-hyungfromSungkyunkwanUniversityhesuccessfullydevelopedanewtypeofmechanicalcelldeathmethod(ciptosis)thatcandramaticallyenhancetheefficacyofcancerimmunotherapy,markingthefirstdevelopmentofitskindintheworld. Cancerimmunotherapyisamethodoftreatingcancerbyutilizingthebody'simmunefunction,anditisgainingattentionforitslowersideeffectsandsuperiortreatmenteffectscomparedtotraditionalchemotherapy.Inparticular,immunecheckpointinhibitors,whicharearepresentativemethodofimmunotherapycapableofnormalizingimmuneresponsesdisruptedbycancercells,arebeingactivelyappliedclinicallytotreatvarioustypesofcancer. However,recentstudiesheshownthatwhenthereisadeficiencyinthenumberofcytotoxicTcellspresentinthetumormicroenvironment,theeffectivenessofimmunecheckpointinhibitortherapysignificantlydecreases.Consequently,therehasbeenacontinuousdemandfornewtechnologiesthatcanattractexternalimmunecellstothetumorsitetoenhancetheefficacyofcancerimmunotherapyandexpandtreatmentbenefitstoalargerpatientpopulation. ProfessorEomWoo-ram'sresearchteamfocusedontheroleofeosinophils,atypeofwhitebloodcell.Althougheosinophilsaregenerallyknowntoheanegativeimpactoncancertreatment,theycanbestimulatedbyinterleukin-33(IL-33),whichresidesinsidethecellnucleus,toattractimmunecellsintothetumorandexhibitstronganti-cancereffects.However,IL-33istightlyboundwithinthecellnucleus,makingtreatmentoptionsutilizingeosinophilsandIL-33extremelylimited. ProfessorEomWoo-ram'sresearchteamsuccessfullydevelopedamechanicalcelldeathmethod(citopsis)thatcanrupturecellswhenexposedtoultrasoundbyutilizingnano-sizedbubblescapableofpenetratingintothecells. Thenano-explosiveentmadefr부경대학교 Pukyong National University : 112omnano-bubblesresponsivetoultrasoundrupturesthenucleiofcancercells,releasingIL-33,whichishardlyreleasedinitsnaturalstate,intotheextracellularspace.ThisIL-33stimulateseosinophilstoattractimmunecellsintothetumor,elucidatingitsanti-cancereffect.Theresearchteamvalidatedthetherapeuticefficacyofthenano-explosiveentinareallungmetastaticcancermousemodel,confirmingadramaticenhancementintheanti-cancerefficacyofexistingimmunecheckpointinhibitors. Theprincipalinvestigator,ProfessorEomWoo-ram,stated,“Currently,cancerimmunotherapyisveryexpensive,costingmillionsofwon,andhaslimitationsasitiseffectiveonlyforasubsetofpatients.However,Iexpectthatthisresearchwilldramaticallyenhancethetherapeuticefficacyofcancerimmunotherapy,increasingthepotentialfortreatingmetastaticcancersthathebeendifficulttotreatwithexistingtherapies.” TheresearchteamconductedthisstudywiththesupportoftheNationalResearchFoundationofKorea’sIndividualBasicResearchandNationalNewDrugDevelopmentprojects.Theresearchresultswerepublishedintheinternationaljournal,withresearcherSongYe-ri(SungkyunkwanUniversity)andProfessorEomWoo-ramasfirstauthorsandProfessorsEomWoo-ramandParkJae-hyungascorrespondingauthors. Meanwhile,ProfessorEomWoo-ram'sresearchteamisconductingfollow-upresearchtodevelopcancerandobesitytreatmentmethodsutilizingnanotechnologythatcanregulatecellularfunctions. ChoSeung-mok|RevealedtheSpecialBenefitsofLimePeel PukyongNationalUniversityFacultyStartupCompany,RevealstheSleepImprovementEffectofLimePeelfortheFirstTime-NutraightCo.,Ltd.PublishesPaperinanInternationalJournalandPursuesExportofHealthFunctionalFoods PukyongNationalUniversityfacultystartupcompanyNutraight(CEOChoSeung-mok,ProfessorofFoodEngineering)hasrevealedthesleepimprovementeffectsandmechanismsofactionfromthepeeloflime,atypeofcitrusfruitforthefirsttime. NutraightCo.,Ltd.'sresearchteam,incollaborationwithDr.LeeJae-gwang'sresearchteamattheKoreaFoodResearchInstituteandProfessorJangH.Youn'sresearchteamattheUniversityofSouthernCalifornia'sSchoolofMedicine,scientificallyelucidatedthesleepeffectsandmechanismsofactionoflimepeel. Theresearchteam,withsupportfromtheTIPSprogramoftheMinistryofSMEsandStartups,exploredgloballyrecognizedrawmaterialstodevelophigh-qualitysleepfunctionalingredientsthatcanenhanceglobalcompetitiveness.Thestudyfoundthatlimepeelextractshowedsignificantreductionsinsleeponsettimeandincreasesintotalsleeptimeinanimaltests. Inparticular,itwasconfirmedthatlimepeelextracthastheabilitytoincreasedeepsleepandimprovesleepquality.Thesleepeffectsoflimepeelextractareattributedtotheflonoidcompoundsabundantlyfoundinlimepeel,whichactivateGABAreceptorsliketheinhibitoryneurotransmitterGABAinthecentralnervoussystem,andthismechanismofactionhasbeenscientificallyproven. Theresearchteamrecentlypublishedapapercontainingtheseresearchresultsintheprestigiousinternationaljournal(IF:6.9),whichisinthetop10%ofthepharmaceuticalfield.Inarecentlycompletedhumantrial,limepeelextractdemonstratedexcellentclinicaleffects,suchasreducedsleeponsettime,increasedsleepefficiency,longertotalsleeptime,andincreasedste2sleep,andtheteamiscurrentlypreparingtosubmitthepaper. Notably,Nutraight'scorporateresearchinstitutefocusedondevelopingamethodthatselectivelyextractsonlytheflonoidcomponentsthatinducesleepwhileinhibitingtheextractionofpolysaccharideslikepectinfromlimepeel,thusestablishinganefficientandeconomicalindustrialproductionprocess. Thefirstauthorofthisresearchpaper,LeadResearcherKimSeong-hee,stated,“Buildingontheworld’sfirststudyrevealingthesleepeffectsandmechanismsoflime,wehesuccessfullyindustrializedfunctionalingredients,andweplantoconductfollow-upresearchonpromisingleadcompoundsbasedonactiveingredients.Inparticular,wecanalsoseetheuseoflimepeel,abyproductgeneratedduringtheproductionoflimejuice,asagoodexampleofhigh-valuefoodupcycling.” CEOChoSeung-mokstated,“WeherecentlycompletedtheapplicationforindividualrecognitionoffunctionalingredientswiththeMinistryofFoodandDrugSafety,finalizingourpreparationsforenteringthedomesticmarket.Wearecurrentlyworkingonregisteringlimesleepmaterialsasnewdietaryingredients(NDI)withtheU.S.FDA,andstartingnextyear,weplantofocusontheglobalizationoflimesleepmaterials,particularlyintheU.S.market.” CEOChoSeung-mokhasdevelopedthecountry’sfirstindividuallyrecognizedsleepfunctionalingredient,earningrecognitionforhisoutstandingresearchcapabilitiesinthefield.HefoundedNutraightCo.,Ltd.withthegoalofdevelopinghigh-efficacy,low-dosesleepfunctionalingredientsthatcansucceedintheglobalmarket. SongJin-ho,VicePresidentofMnaInvestment,aninvestorinNutraightCo.,Ltd.,stated,“Nutraighthasdevelopeditsproductsthroughefficacycomparisonswithrenownedforeigningredientsfromthebeginningoftheresearchphase,anditisexpectedtoplayapioneeringroleinrevitalizingtheexportofhealthfunctionalfoodsinKorea.”Hehighlyassessedtheglobalsuccesspotentialoflimesleepmaterials. HeoWon-bin·OhYoung-sam|RevealedtheCorrelationBetweenExcessiveAlcoholConsumptioninAdolescentsand39;RiskySexualBehiors39; RevealedtheCorrelationBetweenExcessiveAlcoholConsumptioninAdolescentsand'RiskySexualBehiors'-ResearchResultsfromProfessorsHeoWon-binandOhYoung-samatPukyongNationalUniversityResearchhasfoundthatasadolescents'alcoholconsumptionincreases,thelikelihoodofengingin'RiskySexualBehiors'alsorises. ProfessorsHeoWon-binandOhYoung-samfromtheDepartmentofSocialWelfareatPukyongNationalUniversitypresentedresearchfindingsthatclarifythecorrelationbetweenalcoholconsumptionandriskysexbehioramongKoreanadolescentswhohehadsexualexperienceswiththeoppositesex. Riskysexbehiorsrefertosexualactivitiesthatdonotinvolvecontraception,suchastheuseofcondoms. Theresearchteamconductedthestudyusingstatisticaldatafromthe16th(2020)YouthHealthBehiorSurvey,focusingon54,948participants(from7thgradeto12thgrade).Amongthese,theyexamined2,487adolescentswhohadsexualexperienceswiththeoppositesex,comparing547adolescentswhoconsumedalcoholwith547whodidnot. TheresearchteamanalyzedthestatisticaldatausingmethodssuchasPropensityScoreMatching(PSM)andMultipleLogisticRegressionAnalyses.Theresultsshowedthatthepresenceorabsenceofalcoholconsumptionitselfwasnotrelatedtoriskysexualbehiors. However,whenanalyzingonlythegroupthatconsumedalcohol(547participants),itwasfoundthatasalcoholconsumptionincreased,thelikelihoodofenginginriskysexbehiors,meaninghingsexualintercoursewithoutcontraception,alsoincreased. Inparticular,whenanalyzinggenderdifferences,itwasrevealedthatthelikelihoodofenginginriskysexbehiorincreasedwithalcoholconsumptiononlyamongfemaleadolescents,whilenosuchassociationwasobservedinmaleadolescents. ProfessorOhYoung-samstated,“Toensurepropersexualbehiorandawarenessamongadolescents,itisnecessarytoestablishvariouseducationalprogramsandprotectivemeasuresregardingsexinhomes,schools,andcommunities.” Theresearchfindingsarepublishedinthepapertitled‘TheRelationshipsBetweenAlcoholDrinkingandRiskySexualBehiorAmongKoreanAdolescents:FocusingonHeterosexualAdolescents’inthelatestissueoftheinternationaljournal. SeoMin-ho|ResearchonImprovingHydrogenFuelCellsLifespan‘IntheSpotlight’ PukyongNationalUniversity·KoreaInstituteofMaterialsScience·GIST,DevelopTechnologytoEnhancetheLifespanofHydrogenFuelCells-DevelopmentofNewCarbonMaterialAdditivesforElectrodes…SignificantlyImprovedtheDurabilityofPolymerElectrolyteMembraneFuelCellsProfessorSeoMin-hofromtheDepartmentofNanotechnologyEngineeringatPukyongNationalUniversity,Dr.ChoiSeung-mokfromtheKoreaInstituteofMaterialsScience,andProfessorEomKwang-seopfromtheGwangjuInstituteofScienceandTechnology(GIST)researchteamhesuccessfullyenhancedthedurabilityofacommercial-gradepolymerelectrolytefuelcellsystembyutilizinganewlydevelopedcarbonmaterial,whichwascreatedforthefirsttimeglobally,asanadditiveintheelectrodemanufacturingprocess. Polymerelectrolytemembranefuelcells,whicharegainingattentionasenvironmentallyfriendlyandhigh-efficiencybatteries,generateelectricitybyusinghydrogenasfuelthroughahydrogenoxidationreaction,emittingonlywaterasareactionproduct.However,inconventionalpolymerelectrolytefuelcellsystems,thestart-upandshut-downprocessesgeneratehighvoltesabove1.4V,whichacceleratescarboncorrosioninthecatalystlayer.Thisleadstothecollapseofthecatalystlayerandthephenomenonofwateraccumulationinsidetheelectrodesduetothewaterproducedduringtheoxygenreductionreaction(waterflooding),whichcausedaproblemwithsignificantreductionindurability. ProfessorSeoMin-ho'sresearchteameffectivelyimprovedthedeclineindurabilityoffuelcellscausedbycarboncorrosionbyutilizinganewcarbonmaterialwithhighcarboncorrosionresistanceasanadditiveintheelectrodes.Thefluorine-dopedgraphenenanoribbonsandcarbonnanotubecomposite(F-GNR@CNT)usedinthisstudyweredevelopedtoovercomethecarboncorrosionvulnerabilityofexistinggraphenenanoribbonoxides. Existinggraphenenanoribbonoxidesbecomeenrichedwithoxygenfunctionalgroupsduetostrongchemicaloxidationduringthesynthesisprocess,resultinginsignificantdefectsandinstabilityattheboundaryregions,makingthemhighlysusceptibletoelectrochemicalcarboncorrosionduringfuelcelloperation.ProfessorSeoMin-ho’sresearchteamsynthesizedacarbonnanotubecompositewithhighcorrosionresistancebycontrollingtheoxidationlevelandformedstablecarbon-fluorinebondsthroughaheattreatmentprocessforfluorinedoping. ProfessorSeoMin-ho’sresearchteamdevelopedanelectrodemanufacturingtechnologythatoptimizestheprocessofaddingaminimalamountoftheF-GNR@CNTcompositeincollaborationwithDr.ChoiSeung-MokfromtheKoreaInstituteofMaterialsScienceandDr.ChoiYoung-WoofromtheKoreaInstituteofEnergyTechnologyandmanufacturedtheelectrodes. IncollaborationwithProfessorEomKwang-Seob’sresearchteamfromGIST,thedurabilityofacceleratedelectrochemicalcarboncorrosionoftheseelectrodeswasevaluated,andtheresultsindicatedthatthedegradationrateinthemasstransportregionoftheexistingcatalystlayerelectrodewasapproximately85%,whiletheelectrodewiththeaddednewcarbonmaterialexhibitedadegradationrateofabout40%,confirmingaveryhighresistancetoelectrochemicalcarboncorrosion. Theprincipalinvestigator,ProfessorSeoMin-ho,statedthat“thefluorine-dopedgraphenenanoribbonandcarbonnanotubecomposite,proventhroughacombinationofexperimentsandcomputationalscience,willbeanimportantstrategyforefficientlyandeasilydevelopinghigh-durabilityhydrogenfuelcellswhenusedasanadditiveinelectrodes. ThisresearchachievementwascarriedoutwithsupportfromthePukyongNationalUniversity’sYoungResearcherChallengeResearch,theKoreaEnergyTechnologyEvaluationInstitute,theKoreaIndustrialTechnologyPlanningandEvaluationInstitute,andthefundamentalprojectsoftheKoreaInstituteofMaterialsScience.TheresearchresultswerepublishedintheinternationaljournalwithPh.D.studentJinSong(KoreaInstituteofMaterialsScience·GIST)andDr.KwonJun-Hwa(GIST)asthefirstauthors,andDr.ChoiSeung-MokandprofessorsEomKwang-SeobandSeoMin-hoascorrespondingauthors. Meanwhile,theresearchteamisconductingfollow-upstudiestoenhancetheperformanceandstabilityofthepolymerelectrolytemembranefuelcellsystemthroughthedevelopmentofcatalystfoundationaltechnologiesandelectrodefabricationprocesses,includingnewhigh-durabilitycarbonsupportsandnanoparticlestructurecontrol. JeongYeon-ho|ResearchonFutureWirelessOpticalCommunicationUsingUltrioletLightGainedInternationalAttention ResearchonFutureWirelessOpticalCommunicationUsingUltrioletLightGainedInternationalAttention-ProfessorJeongYeon-ho’sTeamatPukyongNationalUniversityPublishedPaperintheTop-rankedInternationalJournalintheJCRResearchondevelopingnewwirelessopticalcommunicationtechnologyforthefutureusingultrioletlightisgaininginternationalattention. Thepapertitled‘AComprehensiveSurveyonOpticalScatteringCommunications:CurrentResearch,NewTrends,andFutureVision’byProfessorJeongYeon-ho’sresearchteamfromPukyongNationalUniversity(MajorofInformationandCommunicationsEngineering)waspublishedinthelatestissue(Volume26,Issue2)oftheinternationaljournal(IF34.4). Thisinternationaljournal,inwhichthepaperwaspublished,isrecognizedasatop-tier(rankedfirstinJCR)journalinthefieldsofelectrical,electronic,andcomputerengineering. ProfessorJeongYeon-ho’sresearchteamcomprehensivelysummarizedtheultrioletcommunicationresearchconductedoverthepastfiveyearsattheMobileTransmissionSystemsLaboratoryofPukyongNationalUniversityandpresentedatechnologyroadmap,includingexistingdevelopedtechnologies,asummaryofcoretechnologiesforbeginners,andthelatestresearchtrendsinthispaper. Ultrioletcommunicationisgainingattentionasafuturetechnologytoovercomethelimitationsofexistingradiofrequency(RF)communication,includingregulationsandcosts.Byutilizingultrioletlightinthe200-280nmrange,itispossibletoimplementindoorandoutdoorwirelesscommunicationwithoutinterferencefromsolarultrioletlight,alongwithadvantessuchascompactdevices,lowpowerconsumption,andhighsecurity. Theresearchteamnotonlyconductedtheoreticalmodelingoftheultriolet-basedvehicle-to-vehicle(V2V)communicationsysteminthispaperbutalsoimplementeditusingactualhardwareandcarriedoutexperimentalteststodemonstrateitsfeasibility.TheteamfiledpatentsfortheseresearchresultsintheUnitedStatesanddomesticallyandalsopublishedthefindingsinanotherinternationaljournal,(I.F7.9/top2.5%). ProfessorJeongYeon-hostated,“Ultrioletcommunication,asascattering-basedtransmissiontechnology,isexpectedtoplayanimportantroleinnext-generationopticalwirelesscommunicationasanewalternativetransmissiontechnologytoradiofrequencycommunication,andIhopethisresearchcontributestotheadvancementoffuturewirelesscommunication.” Meanwhile,inthispaper,ProfessorJeongYeon-hoservedasthecorrespondingauthor,andSudanshuArya,aprofessorfromVelloreInstituteofTechnologyinIndiaandaformermemberofthePukyongNationalUniversityMobileTransmissionSystemsLaboratory,wasthefirstauthor. LimDo-jin|DispensingSystemPublishedinaTopGlobalJournal DispensingSystemDevelopedbyPukyongNationalUniversityProfessor’sTeamPublishedinaTopGlobalJournal-ProfessorLimDo-jin’sResearchTeam…PublishedaPaperinAstudyonanoveldispensingsystembyProfessorLimDo-jin’s(DepartmentofChemicalEngineering)researchteamatPukyongNationalUniversityhasbeenpublishedinatopglobaljournal. Apapertitled‘Syringepump-embedded,on-demandsamplesupplyandcollectionsystemfordroplet3Dcellcultureindigitalmicrofluidics,’coveringresearchontheindependentlydevelopedsolenoidpump-basedsamplesupplyandcollectiondevicebyProfessorLimDo-jin’sresearchteam,wasrecentlypublishedintheinternationaljournal(IF8.0). Thisinternationaljournalisthetop(ranked1st)among76journalsinthefieldofInstruments&Instrumentation. ProfessorLimDo-jin’sresearchteamdevelopedadispensingsystemthatusesanindependentlydevelopedsmallsolenoidpumptoperformvariousfunctionssuchassamplesupply,splitting,andcollectioninasingledevice,anddemonstratedallstesofdroplet(averysmall,rounddrop)3Dcellcultureusingthissystem. Variousdispensingtechnologiesarecurrentlyusedtosupplydropletstocellculturedevices;however,theuseofprecisesyringepumpsisessentialforsupplyingsamplesataconstantvolumeandspeed.However,mostsyringepumpshealargevolume,makingitdifficulttominiaturizethesystem,andlackacollectionfunction,requiringcomplexsystemconfigurationsforapplicationinbiologicalfields. Thefirstauthorofthisresearchpaper,Ph.D.studentBaeSeo-jun,appliedasimplemethodofsupplyingsamplesbyinsertingasamplechamberinsteadoffillingthesyringeforsamplesupply,thusaddressingtheissueofdeadvolumethatinevitablyarisesfromtheuseofsyringes. Hestated,“Bycombiningthenewlydevelopeddispensingdevicewiththeexcellentdropletmanipulationtechnologyknownasdigitalmicrofluidics,itisexpectedtohelputilizethecharacteristicsofdigitalmicrofluidicsmoreeffectivelyinvariousstudiesrequiringautomation,suchasorganoidculture.” ProfessorLimDo-jin'sresearchteamconductedthisstudywiththesupportoftheMid-CareerResearcherSupportProgramfromtheNationalResearchFoundationofKorea(NRF-2021R1A2C). LimDo-jin|PublishedCoverPaperinInternationalJournal ProfessorLimDo-jin'sResearchTeamatPukyongNationalUniversityPublishedCoverPaperinInternationalJournal-DevelopmentofaNewTechnologyforDroplet3DCellCultureinOil…PublishedintheInternationalJournal《SmallMethods》ThepaperbyProfessorLimDo-jin’sresearchteamfromPukyongNationalUniversity(DepartmentofChemicalEngineering)waspublishedasthecoverarticleintheinternationaljournal《SmallMethods(IF10.7)》. Thetitleofthepaperpublishedasthecoverarticleinthelatestissueofthisjournalis‘3DCellCultureMethodinChannel-FreeWater-in-OilDroplets.’ Inthispaper,ProfessorLimDo-jin’sresearchteamdevelopedandpresentedanoveldroplet-based3Dcellculturetechnologyinoilthatdoesnotusechannels(passes)forthecultivationoforganoids,whicharemodelsofartificialorgans. Organoidsareartificiallycreatedorganmodelsthataregainingattentionasanewpreclinicalmodelcapableofreplacinganimalexperiments,oftenreferredtoasthe’gamechangerofregenerativemedicine‘inthefuture. However,duetothesizelimitationsof3Dcellculturesdeterminedbythesizeoftheculturesystem,thereisalimitationinorganoidcultivationthatnecessitatesacumbersomeandcomplexprocessofsequentiallychangingtheculturesystem. Toaddressthisissue,theresearchteamachievedtheformationofvarioussizesof3Dcellculturesthroughasimplesystemconfigurationusinganoveldroplet(averysmall,rounddrop)3Dcellculturetechnologythatdoesnotutilizechannels. Thefirstauthorofthisresearchpaper,Ph.D.studentBaeSeo-jun,systematicallyanalyzedover10,000spheroidimesanddiscoveredthatthesizeofspheroidsformedcanbedeterminedbycontrollingthedropletsize. Hestated,“Thedroplet-based3Dcellculturetechnologyinoilthatdoesnotusechannels,combinedwithdigitalmicrofluidicsthatexcelsindropletmanipulation,isexpectedtoaidinthedevelopmentofautomatedorganoidculturesystems.” ProfessorLimDo-jin’sresearchteamconductedthisstudywiththesupportoftheMid-CareerResearcherSupportProjectfromtheNationalResearchFoundationofKorea. 증명서발급 친절하게안내해드리겠습니다.설명글입니다. 바로가기 Smart-LMS 친절하게안내해드리겠습니다.설명글입니다. 바로가기 수강신청 친절하게안내해드리겠습니다.설명글입니다. 바로가기 학사일정 친절하게안내해드리겠습니다.설명글입니다. 바로가기 등록금안내 친절하게안내해드리겠습니다.설명글입니다. 바로가기 발전기금 친절하게안내해드리겠습니다.설명글입니다. 바로가기 PRCampus Youtube Facebook 뉴스레터 인스타그램 BLOG 캠퍼스DroneVR Youtube Facebook 뉴스레터 인스타그램 BLOG 캠퍼스DroneVR TOP 주요사이트 학생 kcu바로가기 ocu바로가기 국제학생증 부경구글앱스 비교과신청바로가기 수강신청 실무전산 실용영어(글로벌어학교육센터) 인터넷휴ㆍ복학 총동창회 대학안전사고보상공제 학사정보안내 교직원 KORUS KORUSVPN 나라배움터 맞춤형복지포털 생활공감정책제안방 웹메일 홈페이지빌더 (구)홈페이지빌더 대학정보알림 교육수요자만족도 규정집 대학자체평가 재정현황 정보공시(대학알리미) 정책실명제(국민신청실명제) 평의원회 현업공무원지정및초과근무수당 교내주요사이트 공동실험실습관 공학교육혁신센터 교수회 국립대학육성사업 대학발전기금 도서관 드래곤밸리기업지원종합시스템 디지털스마트부산아카데미사업단 링크플러스사업단 박물관 보건진료소 부경대학교기록포털   부경대학교디딤돌시스템 산학협력단 소비자생활협동조합 연구분석장비센터 인문한국플러스(HK+)사업단 장애학생지원센터 정보전산원 직장어린이집 총장임용추천위원회 체육진흥원 평생교육원 학생생활관 해양어류지원기탁기관 교외주요사이트 개인정보보호포털 교육부 한국교육시설안전원 국립대학육성사업발전협의회 병무청 부산지역국립대학혁신네트워크 정부민원포털민원24 중앙교육연수원 한국교직원공제회 개인정보처리방침 이메일무단수집금지 대학행정서비스헌장 정보공개방 정책실명제 NEWSLetter신청 행정예고 청렴센터 대연캠퍼스()부산광역시남구용소로45TEL:FAX: 용당캠퍼스()부산광역시남구신선로365TEL:FAX: (C)2021PUKYONGNATIONALUNIVERSITY.ALLRIGHTSRESERVED.