个人简介
个人简历
杨诚,男,1980年8月出生,博士,凝聚态物理专业和电子信息工程硕士士生导师。2011年毕业于韩国成均馆大学,获纳米技术专业工程博士学位,2011年加入山东师范大学,从事激光光场调控、微纳操控、二维材料制备及其生物传感应用等研究,在国际权威刊物发表Carbon,OE,APL等SCI收录论文70余篇,获授权发明专利11项。承担国家自然科学基金面上及青年基金项目3项、教育部博士点基金1项,山东省自然科学基金面上项目1项等。获得全国“挑战杯”等竞赛优秀指导教师奖多项,目前担任“全国小平科技创新团队-科创探新团队”指导教师,2016级卓物班指导教师。
招生方向
硕士研究生招生专业:凝聚态物理专业和电子信息工程硕士
获得专利
(1)杨诚;毕懿卿;路婧;张超;满宝元;姜守振,一种基于高导电石墨烯/镍颗粒混合结构的可拉伸超级电容器的制备方法,2015.4.9,中国,CN201510165881.7(专利)
(2)杨诚;徐媛媛;毕懿卿;路婧;张超;满宝元,一种海绵状石墨烯/氧化锌混合结构柔性气敏传感器的制备方法,2015.7.8,中国,CN201510165996.6(专利)
(3)杨诚;毕懿卿;路婧;张超;满宝元;姜守振;修显武,一种高导电可拉伸海绵状石墨烯基电极材料的制备方法,2015.8.12,中国,CN201510166658.4(专利)
(4)杨诚;毕懿卿;路婧;徐媛媛;满宝元;姜守振;修显武;刘爱华,一种海绵状石墨烯基可拉伸气敏传感器的制备方法,2015.7.29,中国,CN201510165967.X(专利)
(5)杨诚;满宝元;张超,双温区控制低温直接制备石墨烯的方法及双温区管式炉,2012.9.25,中国,CN201210360986.4(专利)
(6)满宝元;张超;姜守振;杨诚;许士才,基于小尺寸目标基底的大面积石墨烯转移支撑架及方法,2014.1.9,中国,CN201410010068.8
(7)姜守振;张超;许士才;满宝元;刘杰;刘玫;杨诚,三明治式石墨烯饱和吸收体及其制备方法,2013.10.23,中国,CN201310503425.X(专利)
(8)许士才;满宝元;姜守振;刘杰;杨诚;刘玫;范秀伟,一种大面积石墨烯的转移方法,2012.3.2,中国,CN201210053514.4(专利)
(9)姜守振;许士才;满宝元;刘杰;杨诚;范秀伟;刘玫,一种基于大尺寸石墨烯的饱和吸收镜的制备方法,2012.3.2,中国,CN201210053561.9(专利)
(10)许士才;姜守振;满宝元;陈传松;张超;杨诚;刘玫,石墨烯薄膜式扬声器及其制备方法,2012.10.26,中国,CN201210416963.0(专利)
(11)姜守振;于志强;许士才;杨诚;张强,果蔬大棚的远程环境监测系统,2012.5.17,中国,CN201220222071.2
研究领域
激光光场调控、微纳操控、二维材料制备及其生物传感应用
近期论文
查看导师新发文章
(温馨提示:请注意重名现象,建议点开原文通过作者单位确认)
发表SCI收录论文60多篇,部分重要论文(第一或者通讯作者)如下:
(1)WenyuanZhang,PeihongMan,MinghongWang,YingShi,YuanyuanXu,ZhenLi,ChengYang(*),BaoyuanMan,RolesofgraphenenanogapfortheAgNFselectrodepositiononthewovenCunetasflexiblesubstrateanditsapplicationinSERS,Carbon2018,133,300-305,
(2)ChengYang,YuanyuanXu,MinghongWang,TianmingLi,YanyanHuo,ChuanxiYang,andBaoyuanMan,MultifunctionalpaperstripbasedonGO-veiledAgnanoparticleswithhighlySERSsensitiveanddeliverablepropertiesforhigh-performancemoleculardetection,OpticsExpress,2018.26(8):10023-10037
(3)YuanyuanXu;PeihongMan;YanyanHuo;TingyinNing;ChonghuiLi;BaoyuanMan(*)ChengYang(*)Synthesisofthe3DAgNF/AgNPArraysforthePaper-basedSurfaceEnhancementRamanScatteringApplication,SensorsandActuatorsB:Chemical,2018,265,302-309
(4)Xu,Yuanyuan;Yang,Cheng(*);Wang,Minghong;Pan,Xiaoxiao;Zhang,Chao;Liu,Mei;Xu,Shicai;Jiang,Shouzheng;Man,Baoyuan,(*)Adsorbableandself-supported3DAgNPs/G@Nifoamascut-and-pastehighly-sensitiveSERSsubstratesforrapidinsitudetectionofresiduum,OpticsExpress,2017.25(14):16437~16451
(5)Yang,Cheng;Xu,Yuanyuan;Man,Peihong;Zhang,Hao;Huo,Yanyan;Yang,
Chuanxi;Li,Zhen;Jiang,Shouzhen;Man,Baoyuan,(*)Formationoflarge-area
stretchable3Dgraphene-nickelparticlefoamsandtheirsensorapplications,RSCAdvances,2017,7(56):35016~35026
(6)Li,Tianming;Xu,Yuanyuan;Feng,Yang;Zhang,Chao;Yang,Chuanxi;Sun,Zhencui;Zhang,Hao;Yuan,Xiaobo;Ning,Tingyin;Yang,Cheng,(*)Self-assemblyofthestretchableAuNPs@MoS2@GFsubstratefortheSERSapplication,AppliedSurfaceScience,2017.11.30,423:1072~1079
(7)Zhao,Yuefeng;Pan,Xiaoxiao;Zhang,Liren;Xu,Yuanyuan;Li,Chonghui;
Wang,Jundong;Ou,Jiayu;Xiu,Xianwu;Man,Baoyuan;(*)Yang,Cheng(*),Dense
AuNP/MoS2hybridfabricationonfibermembranesformoleculeseparationandSERSdetection,RSCAdvances,2017,7(58):36516~36524
(8)ChengYang(*);ChaoZhang;YanyanHuo;ShouzhenJiang;HengweiQiu;YuanyuanXu;XiuhuaLi;BaoyuanMan,(*)Shell-isolatedgraphene@Cu
nanoparticlesongraphene@CusubstratesfortheapplicationinSERS,Carbon,
2016.3,98:526~533
(9)ZhenLi;ShouzhenJiang;ShicaiXu;ChaoZhang;HengweiQiu;PeixiChen;SaisaiGao;BaoyuanMan;ChengYang(*);MeiLiu,Facilesynthesisoflarge-areaandhighlycrystallineWS2filmondielectricsurfacesforSERS,JournalofAlloysandCompounds,2016.1.20,(666):412~418(期刊论文)
(10)HengweiQiu;SaisaiGao;PeixiChen;ZhenLi;XiaoyunLiu;ChaoZhang;
YuanyuanXu;ShouzhenJiang;YanyanHuo;WeiweiYue,ChengYang(*)Evanescentwaveabsorptionsensorbasedontaperedmultimodefibercoatedwithmonolayergraphenefilm,OpticsCommunications,2016.5.1,366:275~281
(11)Y.Y.Xu;C.Yang(*);S.Z.Jiang;B.Y.Man;M.Liu;C.S.Chen;C.Zhang;Z.C.Sun;H.W.Qiu;H.S.Li;D.J.Feng;J.X.Zhang,Layer-controlledlargeareaMoS2layersgrownonmicasubstrateforsurface-enhancedRamanscattering,AppliedSurfaceScience,2015.12.1,357:1708~1713
(12)Yang,Cheng;Xu,Yuanyuan;Zhang,Chao;Sun,Zhencui;Chen,Chuansong;Li,Xiuhua;Jiang,Shouzhen;Man,Baoyuan,(*)Facilesynthesis3Dflexiblecore-shellgraphene/glassfiberviachemicalvapordeposition.,NanoscaleRes.Lett.,2014,9(1):394