主持或参加科研项目（课题）情况:

★国家自然科学基金委员会,地区基金项目,基于室内光伏应用亚带隙光子诱导高能电子转移机制探索【合作单位】

★国家自然科学基金委员会,面上项目,宽光谱吸收量子点中间带太阳电池

★国家自然科学基金委员会,面上项目,基于化合物半导体/晶硅双面异质结的高效太阳电池

★天津市自然基金，离心电纺取向性SnO2/TiO2复合纳米纤维的可控制备及其气敏性与d0铁磁性的关联机制研究【合作单位】

★企业合作项目：基于有限元分析的PECVD电极板设计及薄膜均匀性优化，沈阳新蓝天真空技术有限公司

★天津市自然基金，一般项目，PECVD法制备纳米锗颗粒及在量子点太阳电池中的应用

★国家自然科学基金委员会,青年项目，基于低温电子传输材料的柔性有机/无机复合钙钛矿太阳电池研究

★国家自然科学基金委员会,青年项目，低温制备窄带隙纳米锗超晶格材料及其光伏应用

★中央高校基本科研业务费重大课题培育项目新型纳米薄膜材料及器件的基础研究

★国家自然科学基金委员会,面上项目，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

★教育部，博士点基金，低温制备窄带隙微晶锗薄膜及其在全光谱太阳电池上的应用研究

★天津市自然基金，青年项目100℃低温制备高效非晶硅/纳米晶硅异质薄膜太阳电池

★中央高校基本科研业务费资助项目，低温制备非晶硅/纳米晶硅异质薄膜材料及太阳电池

★科技部，973项目，优质微晶SiGe材料和电池的研究

★科技部，863项目，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

发表文章：

★JiaGuo, Yujie Yuan,* , Jian Ni,**, Jinlian Bi, Yuhan Deng, Rufeng Wang, ShuaiZhang, Hongkun Cai, Jianjun Zhang. High-yield CsPbBr3 quantum dots viamicrofluidic technology for photodetectors. 《MaterialsScience in Semiconductor Processing》2025, 1, 10, 109290

★RufengWang, Jian Ni*, Jiayi Guan, Shuai Zhang, Miao Yan, Sen Li, Yaofang Zhang, JuanLi, Hongkun Cai, and Jianjun Zhang. Tailoring Surface Chemistry of CsPbI3Perovskite Quantum Dots Using Multifunctional Ligand Enables Efficient andStable Solar Cells. ACS Sustainable Chem. Eng., (2024) 12, 39, 14514.

★ZhiweiYang, Jian Ni*, Jiayi Guan, Rufeng Wang, Jun Li, Shuai Zhang, Sen Li, TiantianLi, Juan Li, Hongkun Cai, Jianjun Zhang. Aromatic ammonium salts ligandengineering-assisted CsPbBr3 quantum dots enable electroluminescent solar cell.Organic Electronics 125 (2024) 106982

★RuiHan,* Linrui Duan, Yuxing Xu, Lingxin Kong, Guiju Liu, Jian Ni,* and JianjunZhang* . PCBM Constructing Heterojunction for Efficient CsPbI3 PerovskiteQuantum Dot Solar Cells. 《ACS Appl. Mater. Interfaces》2024,16, 69459−69466

★JunLi1, Jian Ni1,* , Jiayi Guan1, Rufeng Wang1, Jinlin Wang1, Zhiwei Yang1, ShuaiZhang1, Sen Li2,3, Yaofang Zhang4, Juan Li1, Hongkun Cai1, and JianjunZhang1,*. In situ passivation for high‑qualityPbS colloidal quantum dots synthesized using a PbBr2 precursor. 《JMater Sci: Mater Electron 》(2024) 35:827

★RufengWang, Jian Ni*, Jiayi Guan, Zhiwei Yang, Jun Li, Shuai Zhang, Sen Li, TiantianLi, Juan Li, Hongkun Cai, Jianjun Zhang**. Modified surface ligand managementof CsPbI3 perovskite quantum dots enables efficient and stableelectroluminescent solar cells. 《OrganicElectronics》2024,128:107046

★YaofangZhang,*Yingwen Pan, Jian Ni ,**, Zirui Yan, Nanping Deng, Wei Sun, Weimin Kang.In situ growth of CsPbBr3@PS flexible fiber papers by one step electrospinningwith high stability toward fluorescent sensor. 《Journalof Luminescence》 259 (2023) 119832

★JianNi, Jiayi Guan, Minghao Hu*, Rufeng Wang, Zhiwei Yang, Jun Li, Shuai Zhang, SenLi, Juan Li, Hongkun Cai, and Jianjun Zhang. Promoted Charge Extraction inAll-Inorganic CsPbBr3 Perovskite Solar Cells by a CsPbX3 (X = Br and I) QuantumDot Interface Layer. ACS Appl. Energy Mater. 2023 6 (21), 11090-11099. 

★QianZhao, Rui Han, Ashley R. Marshall, Shuo Wang, Brian M. Wieliczka, Jian Ni,Jianjun Zhang, Jianyu Yuan, Joseph M. Luther, Abhijit Hazarika, and Guo-Ran Li.Colloidal Quantum Dot Solar Cells: Progressive Deposition Techniques and FutureProspects on Large-Area Fabrication. Adv. Mater. 2022, 2107888.

★RuiHan, Qian Zhao, Abhijit Hazarika, Juan Li, Hongkun Cai, Jian Ni*, and JianjunZhang. Ionic Liquids Modulating CsPbI3 Colloidal Quantum Dots Enable ImprovedMobility for High-Performance Solar Cells. ACS Appl. Mater. Interfaces (2022)14: 4061−4070.

★RuiHan, Qian Zhao, Jian Su, Xiaojun Zhou, Xiaofang Ye, Xiaojuan Liang, Juan Li,Hongkun Cai, Jian Ni*, and Jianjun Zhang. Role of Methyl Acetate in HighlyReproducible Efficient CsPbI3 Perovskite Quantum Dot Solar Cells. J. Phys.Chem. C (2021) 125: 8469−8478.

★JinlinWang, Xiaojun Zhou, Jian Ni* , Jiayi Guan, Minghao Hu, Rufeng Wang, YaofangZhang, Juan Li, Hongkun Cai, and Jianjun Zhang. High-performance perovskitesolar cell based on mesoporous TiO2 electron transport layer enabled bycomposite treatment strategy. J Mater Sci: Mater Electron (2021) 32: 28417–28425.

★JunyangYin, Yujie Yuan, Jian Ni*, Jiayi Guan, Xiaojun Zhou, Yue Liu, Yi Ding, HongkunCai, and Jianjun Zhang. CH3NH3PbBr3−xIx Quantum Dots Enhance BulkCrystallization and Interface Charge Transfer for Efficient and StablePerovskite Solar Cells. ACS Appl. Mater. Interfaces (2020) 12, 48861−48873.

★JiayiGuan, Jian Ni*, Xiaojun Zhou, Yue Liu, Junyang Yin, Jinlin Wang, Dan Wang,Yaofang Zhang, Juan Li, Hongkun Cai, and Jianjun Zhang. High-PerformanceElectron Transport Layer via Ultrasonic Spray Deposition for CommercializedPerovskite Solar Cells. ACS Appl. Energy Mater. (2020) 3, 11570–11580.

★JianSu, Hongkun Cai, Jingtao Yang, Xiaofang Ye, Rui Han, Jian Ni*, Juan Li, JianjunZhang. Perovskite Ink with an Ultrawide Processing Window for Efficient andScalable Perovskite Solar Cells in Ambient Air. ACS Applied Materials &Interfaces (2020), 12, 3531−3538. 【封面文章】

★XiaojunZhou, Jian Ni* , Jiayi Guan, Yue Liu, Junyang Yin, Jinlin Wang, Yaofang Zhang,Juan Li, Hongkun Cai, and Jianjun Zhang. Enhanced photovoltaic performance ofperovskite solar cells based on sufficient pore-filling in the mesoporous TiO2electron transport layer. J Mater Sci: Mater Electron (2020) 31: 22844-22855.

★DanWang, Jian Ni*, Jiayi Guan, Xiaojun Zhou, Shuaiyuan Zhang, Yaofang Zhang, QianHuang, Hongkun Cai, Juan Li, Jianjun Zhang. Thin Film of TiO2–ZnOBinary Mixed Nanoparticles as Electron Transport Layers in Low-TemperatureProcessed Perovskite Solar Cells. NANO: Brief Reports and Reviews (2020) 15,2020036.

★HongkunCai, Jingtao Yang, Xiaofang Ye, Jian Su, Jian Ni*, Juan Li, Jianjun Zhang.Controllable crystallization by way of solvent engineering for perovskite solarcells. Surface Innovations (2020) 9: 57-64.

★JianSu, Hongkun Cai, Xiaofang Ye, Xiaojun Zhou, Jingtao Yang, Dan Wang, Jian Ni*,Juan Li, Jianjun Zhang. Efficient Perovskite Solar Cells Prepared by Hot AirBlowing to Ultrasonic Spraying in Ambient Air. ACS Applied Materials &Interfaces (2019) 11, 10689−10696.

★ZhenglongLi, Jian Ni*, Shuaiyuan Zhang, Chang Li, Yangyang Du, Yaofang Zhang, HongkunCai, Juan Li, Jianjun Zhang. Effect of incorporation of highly-ordered a-Ge:Hnanoparticles on the performance of perovskite solar cells. Micro & NanoLetters (2018) 13, 1111-1116.

★RuiXu, Xiaoxiang Sun, Chang Li, Like Huang, Zhenglong Li, Hongkun Cai, Juan Li,Yaofang Zhang, Jian Ni*, Jianjun Zhang. Correlating annealing temperature ofZnO nanoparticle electron transport layer with performance of inverted polymersolar cells. Polym. Bull. (2018) 75, 4397-4408.

★XiaoxiangSun, Chang Li, Like Huang, Rui Xu, Jian Ni*, Hongkun Cai, Juan Li, JianjunZhang*. Effects of high-boiling-point additive 2-Bromonaphthalene on polymersolar cells fabricated in ambient air. Polym. Bull. (2017) 74: 4515-4524.

★ChangLi, Xiaoxiang Sun, Jian Ni*, Like Huang, Rui Xu, Zhenglong Li, Hongkun Cai,Juan Li, Yaofang Zhang, Jianjun Zhang. Ternary organic solar cells based onZnO-Ge double electron transport layer with enhanced power conversionefficiency. Solar Energy (2017) 155, 1052-1058.

★XiaoxiangSun, Chang Li, Jian Ni*, Like Huang, Rui Xu, Zhenglong Li, Hongkun Cai, JuanLi, Yaofang Zhang, and Jianjun Zhang. A Facile Two-Step Interface EngineeringStrategy To Boost the Efficiency of Inverted Ternary-Blend Polymer Solar Cellsover 10%. ACS Sustainable Chemistry & Engineering (2017) 5, 8997−9005.

★ChangLi, Xiaoxiang Sun, Jian Ni*, Like Huang, Rui Xu, Zhenglong Li, Hongkun Cai,Juan Li, Yaofang Zhang, Jianjun Zhang. Methanol solvent treatment: A simplestrategy to significantly boost efficiency and stability of air-processedternary organic solar cells based on PTB7-Th:PCDTBT:PC70BM. Organic Electronics(2017) 50, 63-69.

★XinyuWang, Jian Ni*, Chang Li, Xiaoxiang Sun, Zhenglong Li, Hongkun Cai, Juan Li,Jianjun Zhang*. The microstructure evolution of hydrogenated microcrystallinegermanium promoted by power gradient method. Journal of Crystal Growth 455(2016) 136-142.

★ZhangJ.J., and Ni J., Germanium. In: Saleem Hashmi (editor-in-chief), ReferenceModule in Materials Science and Materials Engineering. Oxford: Elsevier (2016).pp. 1-11. （全球学术经典选编数据库）

★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 onPTB7-Th: PCDTBT:PC70BM. Organic Electronics (2016) 37：222~227.

★ Chang Li, Jian Ni*, Xiaoxiang Sun, Xinyu Wang, Zhenglong Li, HongkunCai, Juan Li, Jianjun Zhang**. Nanocrystalline germanium nip solar cells withspectral sensitivities extending into 1450 nm. Journal of Physics D: AppliedPhysics (2017) 50: 045108.

★Jun Ma, Jian Ni*, Jianjun Zhang, Qun Liu, Guofu Hou, Xinliang Chen, XiaodanZhang, Ying Zhao. In situ grown size-controlled silicon nanocrystals: A p typenanocrystalline-Si:H/a-SiCx:H superlattice (p-nc-Si:H/a-SiCx:H) approach, SolarEnergy Materials and Solar Cells (2014) 123, 228-232.

★JunMa, Jian Ni*, JianJun Zhang, et al. Quantum-confined photoluminescence fromsize-controlled boron doped nanocrystalline-Si:H/a-SiCx:H superlattice, ThinSolid Films, 573:  191-195  (2014) 

★JianNi, Qun Liu, JianJun Zhang*, Jun Ma, Hao Wang, XiaoDan Zhang, Ying Zhao.Microcrystalline silicon–germanium solar cells with spectralsensitivities extending into 1300nm, Solar Energy Materials and Solar Cells126, 6-10 (2014)

★JunMa, Jian Ni*, Jianjun Zhang, Qun Liu, Guofu Hou, Xinliang Chen, Xiaodan Zhang,Xinhua Geng, Ying Zhao. The influence of perpendicular transport behavior onthe properties of n-i-p type amorphous silicon solar cells, Solar EnergyMaterials and Solar Cells, 120, 635-641 (2014)

★JunMa, Jian Ni*, JianJun Zhang, Qun Liu, XinLiang Chen, DeKun Zhang, XiaoDan Zhang, Ying Zhao. High open-circuit voltage(1.04V) n–i–ptype thin film silicon solar cell by two-phase silicon carbide intrinsicmaterial. Solar Energy Materials and Solar Cells 130, 561-566 ( 2014)

★JunMa, Jian Ni*, Jianjun Zhang, Zhenhua Huang, Guofu Hou, Xinliang Chen, XiaodanZhang, Xinhua Geng, Ying Zhao. Improvement of solar cells performance by borondoped amorphous silicon carbide/nanocrystalline silicon hybrid window layers,Solar Energy Materials and Solar Cells, 114, 9-14, (2013)

★Jian Ni, Jianjun Zhang*, Yu Cao, Xianbao Wang, Xinliang Chen, Xinhua Geng, YingZhao. Low temperature deposition of high open-circuit voltage (>1.0V) p-i-ntype amorphous silicon solar cells, Solar Energy Materials and Solar Cells 95(2011) 1922-1926.

申请及获得发明专利：

★倪牮，颜淼，王汝峰，张帅，李皓轩，蔡宏琨，张建军。一种全无机钙钛矿量子点柔性叉指背接触太阳电池的制备方法（申请），申请号：202410195304.1

★倪牮　王汝峰　关佳易　杨志炜　王俊杰　刘玮　李娟　蔡宏琨　张建军。一种全无机钙钛矿量子点光转换器件的制备方法（申请），申请号：202310366328.4，申请日：2023.04 .07

★倪牮　杨志炜 聂恒平 王汝峰　关佳易　张帅　刘玮　李娟　蔡宏琨　张建军。一种图案化量子点薄膜发光器件的制备方法（申请），申请号：202310366318.0，申请日：2023.04 .07

★倪牮，关佳易，王锦林，胡明浩，李俊，刘玮，张建军，蔡宏琨，李娟。一种宽光谱吸收介孔量子点并联叠层太阳电池的制备方法（申请），申请号：202111175687.9

★倪牮，王丹，关佳易，等。二氧化钛-氧化锌混合纳米颗粒电子传输层钙钛矿太阳电池制备。2019.09.26，CN2019092301382230

 ★倪牮，李正龙，张建军，等。钙钛矿-纳米锗颗粒有机-无机复合太阳能电池的制备（授权），2017.10.10，CN201710475223.7

 ★倪牮，孙小香，张建军，等。一种基于初晶态多孔纳米锗薄膜的双通道并联型有机-无机复合太阳电池（授权）2016.03.23，CN201610167336.6

 ★倪牮，李昶，张建军，等。一种具有纳米颗粒密堆积结构的有机太阳电池（授权）2015.12.17，CN201510945020.0

 ★倪牮，李昶，张建军，等。一种表面钝化的纳米锗颗粒的制备方法(授权)2015.06.18，CN201510341884

 ★倪牮，马峻，张建军，等。具有折射率渐变特征的硅碳窗口层薄膜和制备方法及应用(授权)2014.09.23，CN104362183A

 ★倪牮，马峻，张建军，等。一种p型非晶硅碳-纳米颗粒硅多量子阱窗口层材料，申请，2012.11.05，CN102903767A

 ★倪牮，张建军，马峻，等。一种窄带隙微晶锗-非晶锗异质吸收层材料及其应用(授权)2012.11.05，CN102916061B

 ★侯国付，倪牮，马峻，等。一种具有梯度型带隙特征的纳米硅窗口层及其制备方法(授权)2012.02.01，CN102569481B

 ★张建军，倪 牮，曹宇，等。一种全谱域叠层硅基薄膜太阳电池(授权)2011.05.04，CN101777591B

 ★张建军，倪 牮，薛俊明，等。一种以聚对苯二甲酸乙二酯塑料为衬底非晶硅薄膜太阳电池的制备方法(授权)2010.12.29，CN101510577B

 ★耿新华，张建军，倪 牮，等。一种聚酰亚胺塑料衬底柔性硅基薄膜太阳电池集成组件的制造方法，申请，2009.03.27，CN101510575

审稿人：《ACS Appl. Mater. Interfaces》《ACS Sustainable Chem. Eng》《Journal of Alloys and Compounds》《Thin Solid Films》《Superlattices and Microstructures》《Materials Chemistry and Physics》《Journal of Electrical Engineering & Technology》《RSC Advances》《Materials Science in Semiconductor Processing》《Optical Materials Express》

社会兼职：2023~2025年第16/17批江苏科技镇长团（南通）