个人简历

陈浩，教授课程：
1.光纤通信原理
2.光子学基础
研究生培养基础要求：
欢迎具有光学、光电子学及无机材料学知识基础，积极、热情、富有团队协作精神的同学。
个人教育简历：
1994.08-1998.06江苏师范大学本科生
2001.09-2004.06华东师范大学硕士生
2010.09-2013.06复旦大学博士生
个人工作简历：
1998.08-2014.01江苏师范大学历任助教、实验师、讲师、副教授、教授
2014.01-2016.12江苏师范大学江苏省先进激光材料与器件重点实验室副主任
2017.01-至今江苏师范大学技术转移中心副主任
其中，2016.05-2016.10台湾交通大学访问
近期主要主持的项目：
1.国家自然科学基金面上项目：Ho:YAG透明陶瓷中“晶界”对激光振荡的调控机理研究(11274144)；2012.01-2016.12；项目经费：86万；项目负责人。
2.国家自然科学基金面上项目：钬激光器双波长同带泵浦及双增益光谱平坦技术研究(61775088)；2018.01-2018.12；项目经费：16万；项目负责人。
3.徐州市工业重点研发项目：远程激发微晶白光LED关键技术及产业化研究（KC16GZ014）；2016.10-2018.09；项目经费：50万；项目负责人。
4.其他在研项目2项，项目经费110万。
专利：
1.波长连续可调谐激光装置CN2014100188142014.01.15
2.高功率窄线宽可调谐激光器CN2014100185972014.01.15
3.一种使用二次曲面镜的高功率窄线宽可调谐激光器CN2014100178382014.01.15
4.一种基于激光介质中心零增益结构的涡旋激光器CN2015105961762015.09.17
5.用于提升~1.5μm激光效率的Er,Yb共掺光纤CN2015105921972015.09.17
6.一种氧化钇基透明陶瓷的制备方法CN2015109825742015.12.23
7.Y2O3基透明陶瓷粉体的喷射共沉淀制备方法CN2015109934852015.12.25
8.一种He-Ne精校准方法CN2015109862532016.04.29
9.一种透明陶瓷荧光管内壁封装蓝光芯片的白光LED光源CN2016101283802016.03.07
10.一种磁光氧化铽透明陶瓷的制备方法CN2016101048802016.02.25
11.一种基于透明陶瓷荧光管的高功率白光LED光源CN2016101284272016.03.07
12.一种喷枪喷涂制备YAG基复合结构透明陶瓷的方法CN2016102192562016.04.08
13.一种基于透明陶瓷荧光体的直管型白光LED光源CN2016201731512016.03.07
14.成像用双波段发光Nd:Y2O3纳米荧光粉体及其制备方法CN2016108246312016.09.14
15.一种基于远程激发技术的大功率白光LED路灯光源CN2016109391072016.10.25
16.一种基于荧光透明陶瓷材料的LED远程发光器件CN2016109528082016.10.25
17.一种白光LED用复合钙钛矿红色荧光粉及其制备方法CN2016111284722016.12.09
18.一种白光LED用三方双钙钛矿红色荧光粉及其制备方法CN2016111281902016.12.09
19.一种超薄透明陶瓷流延素坯的烧结防变形方法CN2016111282982016.12.09
20.喷射共沉淀制备高分散性纳米氧化物粉体的连续方法CN2017100980902017.02.22
21.一种高导热低膨胀WCu封装材料的制备方法CN2017102290452017.04.10
22.一种快速低耗高效制备YAG粉体的方法CN2017102746642017.04.25
23.一种提高化学沉淀法制备氧化物粉体分散性的方法CN2017102803642017.04.25
24.一种Li+共掺提高硅酸盐荧光粉长余辉特性的方法CN2017102315862017.04.10
25.一种Mg助剂体系YAG基透明陶瓷的制备方法CN2017104285442017.06.08
26.一种氧化钇纳米粉体及纳米结构的制备方法CN2017100593212017.01.24
27.一种Ca助剂体系YAG基透明陶瓷的制备方法CN2017104275732017.06.08
28.一种非硅助剂下真空烧结YAG基透明陶瓷的制备方法CN2017108033572017.09.08
29.一种用四斜叶搅拌器共沉淀制备氧化钇纳米晶粉体的方法CN2017107273442017.08.22
获奖情况：
1.2012年，徐州市科技进步奖二等奖（排名第2）
2.2012年，淮海科技进步奖二等奖（排名第2）
3.2014年，中国精品科技期刊顶尖学术论文领跑者5000（排名第1）
4.2015年，江苏省科学技术奖（排名第2）
5.2015年，江苏省研究生培养模式改革成果奖（排名第2）
6.2015年，校先进工作者
7.2015年，校2013-2015年岗位聘期考核优秀
8.2017年，“挑战杯”全国竞赛江苏省选拔赛三等奖指导教师

研究领域

1.固体激光器、光纤激光器及其在医学与工业领域的应用装备研究；
2.白光LED/激光照明技术及其产业化应用研究

近期论文

1.ZhangLe,ZhouTianyuan,SelimFaridaA.,ChenHao.SingleCaOaccelerateddensificationandmicrostructurecontrolofhighlytransparentYAGceramic[J].JournaloftheAmericanCeramicSociety,2018,101(2):703-712.
2.ZhangLe,JiangZhigang,YaoQing,WangZhongying,ZhangYikun,WeiShuai,ZhouTianyuan,BenYue,SunRong,ChenHao.StirringspeedassistedhomogenizationofprecipitationreactionforenhancedopticalperformanceofY2O3transparentceramics[J].CeramicsInternational,2018.
3.YaoQing,ZhangLe,JiangZhigang,HuangGuocan,ZhouTianyuan,BenYue,WeiShuai,SunRong,ChenHao,WangYun.IsobamassistedslurryoptimizationandgelcastingoftransparentYAGceramics[J].CeramicsInternational,2018,44(2):1699-1704.
4.张乐,周天元,陈浩,杨浩,张其土,宋波,汪正平.Nd:YAG激光透明陶瓷的研究进展[J].材料导报,2017,31(13):41-50.
5.王骋,魏帅,甄方正,周天元,杨浩,张乐,陈浩.化学沉淀法制备YAG透明陶瓷粉体研究进展[J].材料导报,2017,31(Z2):77-83.
6.ZhouTianyuan,ZhangLe,WeiShuai,WangLixi,YangHao,FuZhenxiao,ChenHao,SelimFaridaA.,ZhangQitu.MgOassisteddensificationofhighlytransparentYAGceramicsandtheirmicrostructuralevolution[J].JournaloftheEuropeanCeramicSociety,2017,38(2):687-693.
7.ZhouTianyuan,ZhangLe,SelimFaridaA,YangHao,ZhangQitu,SunRong,WongChingping,ChenHao.AnnealinginduceddiscolorationoftransparentYAGceramicsusingdivalentadditivesinsolid-statereactionsintering[J].JournaloftheEuropeanCeramicSociety,2017,37:4123-4128.
8.ZhouTianyuan,ZhangLe,LiZheng,WeiShuai,WuJiadong,WangLixi,YangHao,FuZhenxiao,ChenHao,WongChingping,ZhangQitu.EnhancedconversionefficiencyofCr4+ioninCr:YAGtransparentceramicbyoptimizingtheannealingprocessanddopingconcentration[J].JournalofAlloysandCompounds,2017,703:34-39.
9.ZhouTianyuan,ZhangLe,LiZheng,WeiShuai,WuJiadong,WangLixi,YangHao,FuZhenxiao,ChenHao,TangDingyuan,WongChingping,ZhangQitu.TowardvacuumsinteringofYAGtransparentceramicusingdivalentdopantassinteringaids:Investigationofmicrostructuralevolutionandopticalproperty[J].CeramicsInternational,2017,43(3):3140-3146.
10.ZhangLe,LiZheng,ZhenFangzheng,WangLixi,ZhangQitu,SunRong,SelimFaridaA.,WongChingping,ChenHao.Highsinterabilitynano-Y2O3powderspreparedviadecompositionofhydroxyl-carbonateprecursorsfortransparentceramics[J].JournalofMaterialsScience,2017,52(14):8556-8567.
11.ZhangLe,BenYue,WuJiadong,YangHao,WongChingping,ZhangQitu,ChenHao.Aluminaassistedgrainrefinementandphysicalperformanceenhancementofyttriatransparentceramicsbytwo-stepsintering[J].MaterialsScienceandEngineering:A,2017,684:466–469.
12.ZhangLe,BenYue,ChenHao,TangDingyuan,FuXianzhu,SunRong,SongBo,WongChingping.Lowtemperature-sinteringandmicrostructureofhighlytransparentyttriaceramics[J].JournalofAlloysandCompounds,2017,695:2580-2586.
13.WuJiadong,ZhangLe,BenYue,ChenHao,FuXianzhu,WongChingping.Improvedfull-coloremissionandswitchedluminescenceinsingleCa3(PO4)2:Dy3+,Eu3+phosphorsforwhiteLEDs[J].JournalofAlloysandCompounds,2017,697:215-221.
14.WuJiadong,ZhangChunxiang,LiuJun,ZhaoTing,YaoWeichao,TangPinghua,ZhangLe,ChenHao.Over19 WSingle-Mode1545 nmEr,YbCodopedAll-FiberLaser,[J].AdvancesinCondensedMatterPhysics,2017,2017(ArticleID7408565):1-5.
15.WeiShuai,ZhangLe,YangHao,ZhouTianyuan,WongChingping,ZhangQitu,ChenHao.Preliminarystudyof3Dball-milledpowderprocessingandSPS-accelerateddensificationofZnSeceramics[J].OpticalMaterialsExpress,2017,7(4):1131-1140.
16.WeiShuai,ZhangLe,BenYue,ZhouTianyuan,LiZheng,YangHao,SelimFaridaA.,WongChingping,ChenHao.Highdispersibilityofα-Al2O3powdersfromcoprecipitationmethodbystep-by-stephorizontalball-milling[J].JournalofMaterialsScience:MaterialsinElectronics,2017,28(21):16254-16261.
17.JiangZhigang,ZhangLe,YaoQing,WeiShuai,ZhouTianyuan,BenYue,SunRong,HuangGuocan,ChenHao,WangYun.Agitatordependenthomogeneityenhancementofco-precipitationreactionforimprovingthedispersibilityofprecursorsandY2O3powders[J].CeramicsInternational,2017,43(18):16121-16127.
18.BenYue,ZhangLe,WeiShuai,ZhouTianyuan,LiZheng,YangHao,WongChingping,ChenHao.Improvedformingperformanceofβ-TCPpowdersbydopingsilicafor3Dceramicprinting[J].JournalofMaterialsScience:MaterialsinElectronics,2017,28(7):5391-5397.
19.BenYue,ZhangLe,WeiShuai,ZhouTianyuan,LiZheng,YangHao,WangYun,SelimFaridaA.,WongChingping,ChenHao.PVBmodifiedsphericalgranulesofβ-TCPbyspraydryingfor3Dceramicprinting[J].JournalofAlloysandCompounds,2017,721:312-319..
20.L.Wang,H.Huang,D.Shen,J.Zhang,H.Chen,andD.Tang,“Diode-pumpedhighpower2.7μmEr:Y2O3ceramiclaseratroomtemperature,”Opt.Mater.(Amst).,pp.12–15,2016.
21.W.Yao,F.Wu,Y.Zhao,H.Chen,X.Xu,andD.Shen,“HighlyefficientTm:CaYAlO4laserin-bandpumpedbyaRamanfiberlaserat1.7μm,”Appl.Opt.,vol.55,no.14,pp.3730–3733,2016.
22.J.Zhang,Q.Liu,D.Shen,J.Zhang,D.Tang,andH.Chen,“Shortpulse-widthgain-switchedHo:YAGceramiclaserat∼2.09μm,”Appl.Opt.,vol.55,no.8,p.1890,2016.
23.J.Zhang,D.Shen,X.Xu,andH.Chen,“Widelytunable,narrowline-widthHo :CaYAlO4laserwithavolumeBragggrating,”vol.6,no.6,pp.1768–1773,2016.
24.J.Zhang,D.Shen,J.Zhang,D.Tang,andH.Chen,“Gain-switchedHo:YAGceramiclaserwithanacousto-opticmodulator,”Opt.Eng.,vol.55,no.4,p.46115,2016.
25.W.Yao,B.Chen,J.Zhang,Y.Zhao,H.Chen,andD.Shen,“High-average-poweroperationofapulsedRamanfiberamplifierat1686nm,”Opt.Express,vol.23,no.9,p.11007,2015.
26.L.Wang,H.Huang,D.Shen,J.Zhang,H.Chen,Y.Wang,X.Liu,andD.Tang,“Roomtemperaturecontinuous-wavelaserperformanceofLDpumpedEr:Lu2O3andEr:Y2O3ceramicat27μm,”Opt.Express,vol.22,no.16,p.19495,2014.
27.T.Zhao,Y.Wang,H.Chen,andD.Shen,“GraphenepassivelyQ-switchedHo:YAGceramiclaser,”Appl.Phys.BLasersOpt.,vol.116,no.4,pp.947–950,2014.
28.T.Zhao,Y.Wang,D.Shen,J.Zhang,D.Tang,andH.Chen,“Continuous-waveandQ-switchedoperationofaresonantlypumpedpolycrystallineceramicHo:LuAGlaser,”Opt.Express,vol.22,no.16,p.19014,2014.
29.X.Qin,H.Yang,D.Shen,H.Chen,G.Zhou,D.Luo,J.Zhang,S.Wang,J.Ma,andD.Tang,“FabricationandopticalpropertiesofhighlytransparentEr:YAGpolycrystallineceramicsforeye-safesolid-statelasers,”Int.J.Appl.Ceram.Technol.,vol.10,no.1,pp.123–128,2013.
30.Y.Wang,H.Chen,D.Shen,J.Zhang,andD.Tang,“Highpowercontinuous-waveandgrapheneQ-switchedoperationofEr:YAGceramiclasersat~1.6 μm,”J.Opt.Soc.Korea,vol.17,no.1,pp.5–9,2013.
31.H.Yang,J.Zhang,D.Luo,H.Lin,H.Chen,D.Shen,andD.Tang,“OpticalpropertiesandlaserperformanceofHo:LuAGceramics,”Phys.StatusSolidi,vol.10,no.6,pp.903–906,2013.
32.H.Chen,D.Y.Shen,X.D.Xu,T.Zhao,X.F.Yang,D.H.Zhou,andJ.Xu,“High-power2.1 μmHo:Lu1.5Y1.5Al5O12laserin-bandpumpedbyaTmfiberlaser,”LaserPhys.Lett.,vol.9,no.1,pp.26–29,2012.
33.H.Yang,J.Zhang,X.Qin,D.Luo,J.Ma,D.Tang,H.Chen,D.Shen,andQ.Zhang,“PolycrystallineHo:YAGtransparentceramicsforeye-safesolidstatelaserapplications,”J.Am.Ceram.Soc.,vol.95,no.1,pp.52–55,2012.
34.H.Chen,D.Shen,J.Zhang,H.Yang,D.Tang,T.Zhao,andX.Yang,“In-bandpumpedhighlyefficientHo:YAGceramiclaserwith21Woutputpowerat2097nm.,”Opt.Lett.,vol.36,no.9,pp.1575–7,May2011.
35.D.Shen,H.Chen,X.Qin,J.Zhang,D.Tang,X.Yang,andT.Zhao,“PolycrystallineceramicEr:YAGlaserin-bandpumpedbyahigh-powerEr,Ybfiberlaserat1532nm,”Appl.Phys.Express,vol.4,no.5,2011.
36.F.Wang,D.Shen,H.Chen,D.Fan,andQ.Lu,“Modelingandoptimizationofstablegain-switchedTm-dopedfiberlasers,”Opt.Rev.,vol.18,no.4,pp.360–364,2011.
37.Y.Wang,D.Shen,H.Chen,J.Zhang,X.Qin,D.Tang,X.Yang,andT.Zhao,“HighlyefficientTm:YAGceramiclaserresonantlypumpedat1617nm.,”Opt.Lett.,vol.36,no.23,pp.4485–7,2011.
38.D.Shen,H.Chen,andF.Wang,“WavelengthcontrolandspectralnarrowingofhighpowerfiberlasersusingvolumeBragggratings,”9thInt.Conf.Opt.Commun.Networks(ICOCN2010)Nanjing,China,24-27,October,2010,pp.318–320,2010.
39.E.Wu,H.Chen,Z.Sun,andH.Zeng,“Anovelbroadbandsaturableabsorberinthenearinfraredspectralregionwithcobalt-dopedtelluriteglasses,”vol.341,no.1995,p.2600,2006.
40.H.Chen,E.Wu,andH.Zeng,“Comparisonbetweena-cutandoff-axiallycutNd:YVO4laserspassivelyQ-switchedwithaCr4+:YAGcrystal,”Opt.Commun.,vol.230,no.1–3,pp.175–180,2004.
41.E.Wu,H.Chen,Z.Sun,andH.Zeng,“Broadbandsaturableabsorberwithcobalt-dopedtelluriteglasses.,”Opt.Lett.,vol.28,no.18,pp.1692–1694,2003.