伟德国际BETVlCTOR

张建军

团队队伍

  • 张建军
    性别 : 所属部门 : 电子科学与工程系
    职称 : 教授 学历 : 博士后
    行政职务 : 副经理 所学专业 : 物理情报与系统创造
    办公电话 :
    邮箱 : jjzhang@nankai.edu.cn
    研究方向 : 薄膜光电子材料与器件;有机无机复合材料与器件;能源系统应用

个人简历

19927月于伟德国际BETVlCTOR电子科学系本科毕业,19977月于伟德国际BETVlCTOR光电子薄膜器件与技术研究所硕士毕业,2003年东京工业大学综合理工学研究科物理情报系统创造专业博士毕业。2003-2004东京工业大学大学院理工学研究科附属像情报工学研究施设博士后。2004年晋升为副教授,2005年晋升为教授。

★张建军教授、副经理,光电器件与能源系统课题组负责人。本课题组结合国际光电学科前沿发展态势及实验室的已有基础,致力于新型光电材料及器件和与新能源系统相关的研究与开发工作。目前主要从事:(1)新型光电材料与器件(2)新型薄膜显示技术(3)新能源智能电网相关的研究工作。主要研究方向为有机无机杂化钙钛矿材料及器件研究、新型聚合物有机太阳电池研究、量子点纳米颗粒光电性能及器件研究、硅基合金薄膜材料与器件研究、能源系统的设计研究。

★本课题组建立了一套完整硅基薄膜、纳米颗粒、量子点、有机聚合和有机无机杂化等半导体材料和太阳电池实验平台,具备PECVD、真空管式炉、溅射、电子束蒸发等真空系统多套,以及手套箱、旋涂、喷涂、印刷等非真空镀膜设备,同时具备完善的材料及器件测试表征平台。得到科技部863973计划、国家自然基金面上项目、国家自然基金青年项目、天津市科技攻关项目、天津市应用基础与前沿技术研究计划等项目支持。发表SCI论文100余篇,其中SCI一区、二区文章40篇以上,申请、获得国家发明专利40余项。

★合作单位及毕业生情况:与国内外高校、研究机构、高科技公司建立了广泛而密切的合作关系;课题组培养硕士生、博士生多次获得国家奖学金、‘南开十杰’称号,就业方向以高校、科研院所、高科技企业为主。



科研项目/成果/获奖/专利


国家自然科学基金委员会, 面上项目,61974074,宽光谱吸收量子点中间带太阳电池,2020-012023-1259万,在研,主持

国家自然科学基金委员会, 面上项目,61377031,有机太阳电池纳米随机织构复合电极的陷光机理、结构设计与实验研究,2014-012017-1282万元,已结题,主持

科技部973子课题,2011CBA00705,优质微晶SiGe材料和电池的研究,2011-012015-07193万元,已结题

科技部863计划,2009AA05Z422,新型CVD法制备窄带隙微晶硅锗薄膜及其高效太阳电池应用,2009-062011-0590万,已结题,主持

天津市应用基础与前沿技术研究计划,08JCZDJC22200,等离子辅助反应热CVD法制备微晶硅锗薄膜及其太阳电池,2008-042011-0320万,已结题,主持

横向课题:

三相电自动平衡电源系统----2015-10

MEMS流片技术服务----2015-04

PESiN生长技术服务----2013-04

薄膜太阳电池材料特性测试分析----2010-12



其它成果


合作单位:

浙江大学,中科院半导体所,宁波大学,长春理工大学,河北工业大学,天津工业大学,天津理工大学,等;美国CBRITE公司,京东方BOEHAITAI New Energy,等


毕业生去向:

【博士】:

中科院微系统所;中科院宁波材料所;伟德国际BETVlCTOR;宁波大学;浙江海洋大学;东北电力大学;沈阳建筑大学;湖南理工学院; 上海中微半导体;泰州隆基乐叶光伏有限公司;绵阳金能移动能源有限公司;山西晋城市纪委

【硕士】

国家知识产权局专利局天津中心;美国应用材料公司;AMD公司;天津津能股份有限公司;华为技术有限公司成都研究所;兆芯集成电路北京研发中心;中兴通讯股份有限公司北京研究所;

大唐移动通信设备有限公司;北京奔驰汽车有限公司;珠海格力电器股份有限公司;海康威视数字技术股份有限公司;长鑫存储技术有限公司;天津森普捷科技有限公司(自主创业)


论文/专著/教材

近几年代表性论文:

(一)钙钛矿太阳电池相关文章


1.Like  Huang, Chang Li, Xiaoxiang Sun, Rui Xu, Yangyang Du, Jian Ni, Hongkun  Cai, Juan Li, Ziyang Hu, Jianjun Zhang*, Efficient and hysteresis-less  pseudo-planar heterojunction perovskite solar cells fabricated by a  facile and solution-saving one-step dip-coating method, Organic  Electronics, 2017, 40: 13-23.【SCI二区】


2.Like Huang,  Xiaoxiang Sun, Chang Li, Jie Xu, Rui Xu, Yangyang Du, Jian Ni, Hongkun  Cai, Juan Li, Ziyang Hu, and Jianjun Zhang*, UV-Sintered Low-Temperature  Solution-Processed SnO2 as Robust Electron Transport Layer for  Efficient Planar Heterojunction Perovskite Solar Cells, ACS Appl. Mater.  Interfaces, 2017, 9 (26): 21909–21920. 【SCI一区】


3.Like  Huang, Jie Xu, Xiaoxiang Sun, Rui Xu, Yangyang Du, Jian Ni, Hongkun Cai,  Juan Li, Ziyang Hu, and Jianjun Zhang*, New Films on Old Substrates:  Toward Green and Sustainable Energy Production via Recycling of  Functional Components from Degraded Perovskite Solar Cells, ACS  Sustainable Chem. Eng., 2017, 5 (4): 3261–3269. 【SCI一区】


4.Like  Huang, Jie Xu, Xiaoxiang Sun, Chang Li, Rui Xu, Yangyang Du, Jian Ni,  Hongkun Cai, Juan Li, Ziyang Hu, Jianjun Zhang* ,Low-temperature  photochemical activation of sol-gel titanium dioxide films for efficient  planar heterojunction perovskite solar cells, Journal of Alloys and  Compounds 2018, 735: 224-233.【SCI二区】


5.Like Huang,Jie  Xu,Xiaoxiang Sun,Yangyang Du,Hongkun Cai,Jian  Ni,Juan Li,Ziyang  Hu*,Jianjun Zhang*, Toward Revealing the Critical Role of Perovskite  Coverage in Highly Efficient Electron-Transport Layer-Free Perovskite  Solar Cells: An Energy Band and Equivalent Circuit Model Perspective,ACS  Applied Materials & Interfaces, 2016, 8:981-9820 【SCI一区】


6.Huang,  Like,Sun, Xiaoxiang,Li, Chang,Xu, Rui,Xu, Jie,Du, Yangyang,Wu,  Yuxiang,Ni, Jian,Cai, Hongkun,Li, Juan,Hu, Ziyang,Zhang, Jianjun*,  Electron transport layer-free planar perovskite solar cells: Further  performance enhancement perspective from device simulation Solar Energy  Materials & Solar Cells,2016, 157: 1038-1047   【SCI一区】


7.Like  Huang,Ziyang Hu,Jie Xu,Xiaoxiang Sun,Yangyang Du,Jian Ni,Hongkun  Cai,Juan Li,Jianjun Zhang*, Efficient planar perovskite solar cells  without a high temperature processed titaniumdioxide electron transport  layer, Solar Energy Materials & Solar Cells, 2016, 149: 1-8 【SCI一区】


8.Like  Huang,Ziyang Hu,Jie Xu,Xiaoxiang Sun,Yangyang Du,Jian Ni,Hongkun  Cai,Juan Li,Jianjun Zhang*, Efficient electron-transport layer-free  planar perovskite solar cells via recycling theFTO/glass substrates from  degraded devices, Solar Energy Materials & Solar Cells, 2016, 152:  118-124. 【SCI一区】


9.Yangyang Du, Hongkun Cai*, Hongbin Wen,  Yuxiang Wu, Like Huang, Jian Ni, Juan Li, Jianjun Zhang*, Novel  Combination of Efficient Perovskite Solar Cells with Low Temperature  Processed Compact TiO2 Layer Via Anodic Oxidation, ACS Applied Materials  and Interfaces, 2016, 8 (20): 12836-12842. 【SCI一区】


10. Yangyang Du,  Hongkun Cai*, Xichang Bao, Zhixue Xing, Yunhao Wu, Jian Xu, Like Huang,  Jian Ni, Juan Li, Jianjun Zhang. Flexible perovskite solar cells onto  plastic substrate exceeding 13% efficiency owing to the optimization of  CH3NH3PbI3-xClx film via H2O additive. ACS sustainable Chem. Eng., 2018, 6: 1083-1090. 【SCI一区】


11.Yangyang  Du Hongkun Cai*, Zhixue Xing Yunhao Wu Jian Xu Zhenglong Li Like Huang  Jian Ni Juan Li Jianjun Zhang, Propelling efficiency and stability of  planar perovskite solar cells via Al2O3 interface modification to  compact TiO2 layer, Organic Electronics, 2017, 51: 249-256. 【SCI二区】


12.Yangyang  Du, Hongkun Cai *, Yunhao Wu , Zhixue Xing , Zhenglong Li , Jian Xu ,  Like Huang , Jian Ni , Juan Li and Jianjun Zhang, Enhanced planar  perovskite solar cells with efficiency exceeding 16% via reducing the  oxygen vacancy defect state in titanium oxide electrode, Phys. Chem.  Chem. Phys., 2017, 19: 13679-13686. 【SCI二区】


(二)聚合物有机太阳电池相关文章


13.  Xiaoxiang Sun, Chang Li, Jian Ni*, Like Huang, Rui Xu, Zhenglong Li,  Hongkun Cai, Juan Li, Yaofang Zhang, and Jianjun Zhang. A Facile  Two-Step Interface Engineering Strategy To Boost the Efficiency of  Inverted Ternary-Blend Polymer Solar Cells over 10%. ACS Sustainable  Chem. Eng. 2017, 5, 8997−9005. 【SCI一区】


14.Chang Li ,  Xiaoxiang Sun , Jian Ni *, Like Huang , Rui Xu , Zhenglong Li , Hongkun  Cai , Juan Li ,Yaofang Zhang , Jianjun Zhang. Methanol solvent  treatment: a simple strategy to significantly boost efficiency and  stability of air-processed ternary organic solar cells based on  PTB7-Th:PCDTBT:PC70BM. Organic Electronics 2017, 50: 63-69. 【SCI二区】


15.  Sun, Xiaoxiang,Ni, Jian*,Li, Chang,Huang, Like,Xu,  Rui,Li,Zhenglong,Cai, Hongkun,Li, Juan,Zhang, Jianjun**, Air-processed  high performance ternary blend solar cell based on PTB7-Th:  PCDTBT:PC70BM Organic Electronics, 2016.10.01, 37:222~227. 【SCI二区】


16.Xiaoming  Yu,Xuan Yu,Jianjun Zhang*,Dekun Zhang,Jian Ni,Hongkun Cai,Dexian  Zhang,Ying Zhao, Efficient inverted polymer solar cells based on surface  modified FTO transparent electrodes, Solar Energy Materials and Solar  Cells, 2015, 136: 142-147. 【SCI一区】


17.Yu, Xuan,Yu,  Xiaoming,Zhang, Jianjun*,Zhao, Gengshen,Ni, Jian,Cai, Hongkun,Zhao,  Ying, Efficiency boosting of inverted polymer solar cells with a  polyvinylpyrrolidone-modified Al-doped ZnO electron transport layer,  Solar Energy Materials and Solar Cells, 2014, 128:307-312. 【SCI一区】


18.Xuan  Yu,Xiaoming Yu,Jianjun Zhang*,Ziyang Hu,Gengshen Zhao,Ying Zhao,  Effective light trapping enhanced near-UV/blue light absorption in  inverted polymer solar cells via sol–gel textured Al-doped ZnO buffer  layer Solar Energy Materials and Solar Cells 2014, 121: 28-34. 【SCI一区】


19.Ziyang  Hu*, Jianjun Zhang** and Yuejin Zhu,Inverted polymer solar cells with a  boron-doped zinc oxide layer deposited by metal organic chemical vapor  deposition,Solar Energy Materials and Solar Cells,2013, 617:  610-616【SCI一区】


20.Ziyang Hu, Jianjun Zhang* and Yuejin  Zhu, High-performance and air-processed polymer solar cells by  room-temperature drying of the active layer, Appl. Phys. Lett.,2013,  102: 043307-1~043307-4【SCI二区】


21.Hu, ZY (Hu, Ziyang);  Zhang, JJ (Zhang, Jianjun)*; Zhao, Y (Zhao, Ying),Efficient polymer  solar cells based on light–trapping transparent electrodes,Appl. Phys.  Lett.,2012, 100(10): 103303-1~103303-4【SCI二区】


22.Hu, ZY  (Hu, Ziyang); Zhang, JJ (Zhang, Jianjun)*; Xiong, SZ (Xiong, Shaozhen);  Zhao, Y (Zhao, Ying),Performance of polymer solar cells fabricated by  dip coating process,Solar Energy Materials and Solar Cells,2012, 99:  221-225【SCI一区】


23.Ziyang Hu, Jianjun Zhang*, Zhihong Hao,  Ying Zhao,Influence of doped PEDOT:PSS on the performance of polymer  solar cells,Solar Energy Materials and Solar Cells,2011 95(10):  2763-2767【SCI一区】


24.Ziyang Hu, Jianjun Zhang*, Xinliang  Chen, Shirong Ren, Zhihong Hao, Xinhua Geng, Ying Zhao,Performance of  electron beam deposited tungsten doped indium oxide films as anodes in  organic solar cells,Solar Energy Materials and Solar Cells,2011 95(8) :  2173-2177【SCI一区】


25.Hu, ZY , Zhang JJ* , Liu Y , Hao ZH  ,Zhang  XD , Zhao Y,Influence of ZnO interlayer on the performance of  inverted organic photovoltaic device,Solar Energy Materials and Solar  Cells,2011 95(8):  2126-2130【SCI一区】


(三)硅锗薄膜太阳电池相关文章


26.Jian  Ni, Qun Liu, JianJun Zhang*, Jun Ma, Hao Wang, XiaoDan Zhang, Ying  Zhao. Microcrystalline silicon–germanium solar cells with spectral  sensitivities extending into 1300nm, Solar Energy Materials and Solar  Cells 126, 6-10, 2014【SCI一区】


27.Jian Ni, Jianjun Zhang*,  Yu Cao,Xianbao Wang, Xinliang Chen, Xinhua Geng, Ying Zhao. Low  temperature deposition of high open-circuit voltage (>1.0V) p-i-n  type amorphous silicon solar cells, Solar Energy Materials and Solar  Cells 95 (2011) 1922-1926.【SCI一区】


28.Chang Li, Jian Ni*,  Xiaoxiang Sun, Xinyu Wang, Zhenglong Li, Hongkun Cai, Juan Li, Jianjun  Zhang**. Nanocrystalline germanium nip solar cells with spectral  sensitivities extending into 1450 nm. Journal of Physics D: Applied  Physics, 50: 045108 (6pp) 2017. 【SCI二区】


29.Chang Li ,  Xiaoxiang Sun , Jian Ni *, Like Huang , Rui Xu , Zhenglong Li , Hongkun  Cai , Juan Li , Yaofang Zhang , Jianjun Zhang. Ternary organic solar  cells based on ZnO-Ge double electron transport layer with enhanced  power conversion efficiency. Solar Energy 2017, 155: 1052–1058. 【SCI二区】


30.Jun  Ma, Jian Ni*, Jianjun Zhang, Qun Liu, Guofu Hou, Xinliang Chen, Xiaodan  Zhang, Xinhua Geng, Ying Zhao. The influence of perpendicular transport  behavior on the properties of n-i-p type amorphous silicon solar cells,  Solar Energy Materials and Solar Cells, 120, 635-641, 2014【SCI一区】


31.Jun  Ma, Jian Ni*, Jianjun Zhang, Qun Liu, Guofu Hou, Xinliang Chen, Xiaodan  Zhang, Ying Zhao. In situ grown size-controlled silicon nanocrystals: A  p type nanocrystalline-Si:H/a-SiCx:H superlattice (p-nc-Si:H/a-SiCx:H)  approach, Solar Energy Materials and Solar Cells  123, 228-232,  2014【SCI一区】


32.Jun Ma, Jian Ni*, JianJun Zhang, Qun Liu,  XinLiang Chen, DeKun Zhang, XiaoDan Zhang , Ying Zhao. High open-circuit  voltage(1.04V) n–i–p type thin film silicon solar cell by two-phase  silicon carbide intrinsic material. Solar Energy Materials and Solar  Cells 130, 561-566, 2014【SCI一区】


33.Jun Ma, Jian Ni*,  Jianjun Zhang, Zhenhua Huang, Guofu Hou, Xinliang Chen, Xiaodan Zhang,  Xinhua Geng, Ying Zhao. Improvement of solar cells performance by boron  doped amorphous silicon carbide/nanocrystalline silicon hybrid window  layers, Solar Energy Materials and Solar Cells, 114, 9-14, 2013【SCI一区】


34.Zhang  J.J., and Ni J., Germanium. In: Saleem Hashmi (editor-in-chief),  Reference Module in Materials Science and Materials Engineering. Oxford:  Elsevier; 2016. pp. 1-11.【综述文章】


35.Cao, Yu,Liu,  Yiming,Zhou, Jing,Wang, Yijun,Ni, Jian,Zhang, Jianjun*, Non-uniform  distribution in μc-Si1-xGex:H and its influence on thin film and device  performance, Solar Energy Materials and Solar Cells, 2016.01.01,  151:1~6. 【SCI一区】


36.Yu Cao,Jing Zhou,Yijun Wang,Jian  Ni,Jianjun Zhang* ,Band gap grading in microcrystalline silicon  germanium thin film solar cells,Journal of Alloys and  Compounds,2015.2.2,632:456~459【SCI二区】


37.Peizhuan  Chen,Guofu Hou*, Jianjun Zhang*,Qihua Fan,Jian Ni,Qian Huang,Xiaodan  Zhang,Ying Zhao, Combining randomly textured surfaces and  one-dimensional photonic crystals as efficient light-trapping structures  in hydrogenated amorphous silicon solar cells, Solar Energy Materials  and Solar Cells, 2015, 143: 435-441. 【SCI一区】


38.Chen,  Peizhuan,Hou, Guofu*,Fan, QiHua,Huang, Qian,Zhao, Jing,Zhang,  Jianjun**,Ni, Jian,Zhang, Xiaodan,Zhao, Ying, An efficient light  trapping scheme based on textured conductive photonic crystal back  reflector for performance improvement of amorphous silicon solar cells  Applied Physics Letters, 2014, 105 (7): 0735061-0735065. 【SCI二区】


39.Yu  Cao, Jianjun Zhang*, Chao Li, Tianwei Li, Zhenhua Huang, Jian Ni,  Ziyang Hu, Xinhua Geng, Ying Zhao,Hydrogenated microcrystalline silicon  germanium as bottom sub-cell absorber for triple junction solar cell,  Solar Energy Materials and Solar Cells,2013 114: 161-164【SCI一区】

                   

讲授课程

光伏材料与器件概论(硕士), 新型光伏材料与器件(博士)电力电子技术(本科)

社会兼职

天津市真空学会副理事长、IEEE member、中国电子学会高级会员、中国真空学会高级会员、中国太阳能学会会员