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2025

[1] Efficient and stable near-infrared InAs quantum dot light-emitting diodes. Binghan Li, Yu Wang, Jiancheng Zhang, Yaobo Li, Bo Li, Qingli Lin, Ruijia Sun, Fengjia Fan, Zaiping Zeng*, Huaibin Shen*, Botao Ji*, Nature Communications, 2025, 16, 2450.

[2] Realizing low voltage-driven bright and stable quantum dot light-emitting diodes through energy landscape flattening. Yiting Liu, Yingying Sun, Xiaohan Yan, Bo Li, Lei Wang*, Jianshun Li, Jiahui Sun, Yaqi Guo, Weipeng Liu, Binbin Hu, Qingli Lin, Fengjia Fan*, Huaibin Shen*, Light: Science & Application, 2025, 14(50).

[3] Improving Internal Exciton Confinement for Efficient CdZnSeS-Based Blue Quantum Dot Light-Emitting Diodes. Xiaoting Yang, Wenjing Zhang, Yicheng Zeng, Yihuang Chong, Fangze Liu, Zhenghui Wu*, Huaibin Shen*, Hongbo Li*, Angewandte Chemie, 2025, e202420421.

[4] Bright and efficient green ZnSeTe-based quantum-dot light-emitting diodes with EQE exceeding 20%. Xiangzhen Deng, Qiaoling Zhao, Han Zhang, Fengjuan Zhang*, Huaibin Shen*, Science Bulletin, 2025.

[5] Simultaneous achievement of high efficiency and brightness at low bias in red InP/ZnSe/ZnSeS/ZnS quantum dot light-emitting diodes. Ruixue Hou, Ranran Hu, Xiangtong Zhang*, Hang Xiao, Fan Shi, Binbin Hu*, Huaibin Shen, Journal of Power Sources, 2025, 632, 236355.

[6] High Efficiency All-Solution-Processed Inverted Quantum-Dot Light-Emitting Diodes. Yongqiang Peng, Mian Wei*, Yiting Liu, Lei Wang, Binbin Hu*, Huaibin Shen, ACS Photonics, 2025.



2024

[1] Efficient Green InP-Based QD-LED by Controlling Electron Injection and Leakage. Yangyang Bian, Xiaohan Yan, Fei Chen*, Qian Li, Bo Li, Wenjun Hou, Zizhe Lu, Shuaibing Wang, Han Zhang, Wenjing Zhang, Dandan Zhang, Aiwei Tang*, Fengjia Fan*, Huaibin Shen*. Nature, 2024, 635, 854-859.

[2] High Efficiency Ultra-Narrow Emission Quantum Dot Light-Emitting Diodes Enabled by Microcavity. Fengjuan Zhang, Gege Li, Penghao Zhou, Zhuoyue Chen, Jungui Zhou*, Ningxiao Fang, Lingheng Kong, Qingli Lin, Stephan V. Roth, Huaibin Shen*. Small, 2024, 20.52, 2405704.

[3] High-Performance Photodiodes Based on In-Situ Etched PbSe Colloidal Quantum Dots with Responses Extended to 2500 nm. Ruiguang Chang, Qiulei Xu, Qiuyang Yin, Xinxin Yang, Zhenghui Wu*, Huaibin Shen*. Nano Letters, 2024, 24(49), 15845-15851.

[4] Stable and Efficient Red InP-Based QLEDs through Surface Passivation Strategies of Quantum Dots. Shuaibing Wang, Wanying Yang, Yu Li, Jie Chen, Yangyang Bian, Jilin Deng, Binbin Hu, Fei Chen*, Huaibin Shen*, Feng Teng, Chunhe Yang, Aiwei Tang*. Nano Letters, 2024, 24(49), 15781-15787

[5] Origin of the Efficiency Roll-off in Quantum Dot Light-Emitting Diodes: An Electrically Excited Transient Absorption Spectroscopy Study. Bo Li, Zhijie Yan, Jiaojiao Song, Yan Gao, Lei Wang, Xiaohan Yan, Huaibin Shen*, Fengjia Fan*. Nano Letters, 2024, 24(34), 10650-10655.

[6] High-Performance Up-Conversion Photodetectors with Zero-Barrier Interconnection via Self-Assembled Surface Dipoles. Xinxin Yang, Yaobo Li, Jiaojiao Liu, Fei Li, Ruiguang Chang, Qiuyang Yin, Qiulei Xu*, Zhenghui Wu*, Huaibin Shen*. Nano Letters, 2024, 24(30), 9385-9390.

[7] Strong high-energy exciton electroluminescence from the light holes of polytypic quantum dots. Xingzhi Wang, Yan Gao, Xiaonan Liu, Huaiyu Xu, Ruixiang Liu, Jiaojiao Song, Bo Li*, Huaibin Shen*, Fengjia Fan*. Nature Communications, 2024, 15(1), 6334.

[8] Understanding the Growth Mechanism of HgTe Colloidal Quantum Dots through Bilateral Injection. Hao Yang, Qiong Zhang, Ruiguang Chang, Zhenghui Wu*, Huaibin Shen*. Inorganic Chemistry, 2024, 63(14), 6231-6238.

[9] Rational Design of Tetrahedral Derivatives as Efficient Light-Emitting Materials Based on “Super Atom” Perspective. Yaobo Li, Jingjing Min, Yifan Jiang, Tieshuan Dong, Dangdang Xu, Zhenzhen Feng, Yuli Yan, Christos S. Garoufalis, Sotirios Baskoutas, Huaibin Shen*, Zaiping Zeng*. Nano Letters, 2024, 24, 10, 3237-3242.

[10] Dipole-dipole-interaction-assisted self-assembly of quantum dots for highly efficient light-emitting diodes. Huaiyu Xu, Jiaojiao Song, Penghao Zhou, Yang Song, Jian Xu, Huaibin Shen*, Shucheng Fang, Yan Gao, Zhenjiang Zuo, João M. Pina, Oleksandr Voznyy, Chunming Yang, Yongfeng Hu, Jun Li, Jiangfeng Du*, Edward H. Sargent*, Fengjia Fan*. Nature Photonics, 2024, 18, 186-191.

[11] Stable and efficient pure blue quantum-dot LEDs enabled by inserting an anti-oxidation layer. Wenjing Zhang, Bo Li, Chun Chang, Fei Chen*, Qin Zhang, Qingli Lin, Lei Wang, Jinhang Yan, Fangfang Wang, Yihua Chong, Zuliang Du, Fengjia Fan*, Huaibin Shen*. Nature Communications, 2024, 15, 783.

[12] Advances in Understanding Quantum Dot Light-Emitting Diodes. Bo Li, Fei Chen, Huaiyu Xu, Yang Song, Xiaohan Yan, Qiulei Xu, Longjia Wu, Yiran Yan, Wenjun Hou, Weiran Cao, Huaibin Shen*, Fengjia Fan*. Nature Reviews Electrical Engineering, 2024, 1, 412-425.

[13] Recent Advances in Mid-Infrared Photodetection Based on Colloidal Qquantum Dots: Challenges and Possible Solutions. Ruiguang Chang, Hao Yang, Zhenghui Wu*, Huaibin Shen*. Coordination Chemistry Reviews, 2024, 500, 215539.

[14] High Efficiency Ultra-Narrow Emission Quantum Dot Light-Emitting Diodes Enabled by Microcavity. Fengjuan Zhang, Gege Li, Penghao Zhou, Zhuoyue Chen, Jungui Zhou*, Ningxiao Fang, Lingheng Kong, Qingli Lin, Stephan V. Roth, Huaibin Shen*. Small, 2024, 2405704.

[15] Nanoshell-Driven Carrier Engineering of Large Quantum Dots Enables Ultra-Stable and Efficient LEDs. Dandan Zhang, Jianshun Li, Lei Wang*, Yaqi Guo, Weipeng Liu, Qingli Lin, LinSong Li, Huaibin Shen*, Nano Research, 2024, 17, 10453-10459.

[16] Understanding the Growth Mechanism of HgTe Colloidal Quantum Dots through Bilateral Injection. Hao Yang, Qiong Zhang, Ruiguang Chang, Zhenghui Wu*, Huaibin Shen*, Inorganic Chemistry, 2024, 63, 6231-6238.

[17] Sb3+ and Sm3+ Co-Doped Lead-Free Cs2NaInCl6 Double Perovskite Nanocrystals for Single-Component Cold White Emitter. Biao Zhou, Xiangtong Zhang*, Ranran Hu, Ruixue Hou, William W. Yu*, Journal of Rare Earth, 2024,42,1645-1651.

[18] High-Brightness Green InP-Based QLEDs Enabled by In-Situ Passivating Core Surface with Zinc Myristate. Yuanbin Cheng, Qian Li, Mengyuan Chen, Fei Chen*, Zhenghui Wu*, Huaibin Shen, Materials Futures, 2024, 3, 025201.

[19] Highly tensile and sensitive strain sensors with micro–nano topology optimization. Weixia Lan, Qiqi Ding, Tao Zhou, Zilong Guo, Wenbin Sun, Zhenghui Wu*, Yingjie Liao* ,Bin Wei, Yuanyuan Liu*, Materials Advances, 2024, 05(19), 7700-7707.



2023

[1] Minimizing heat generation in quantum dot light-emitting diodes by increasing quasi-Fermi-level splitting. Yan Gao, Bo Li, Xiaonan Liu, Huaibin Shen*, Yang Song, Jiaojiao Song, Zhijie Yan, Xiaohan Yan, Yihua Chong, Ruyun Yao, Shujie Wang, Lin Song Li, Fengjia Fan*, Zuliang Du*, Nature Nanotechnology, 2023, 18, 1168-1174.

[2] Ultrastable and High-Efficiency Deep Red QLEDs through Giant Continuously Graded Colloidal Quantum Dots with Shell Engineering. Xiaonan Liu, Lei Wang, Yan Gao, Yicheng Zeng, Fangze Liu, Huaibin Shen*, Liberato Manna*, Hongbo Li*, Nano Letters, 2023, 23(14), 6689-6697.

[3] Highly Monodisperse PbS Quantum Dots with Facet Engineering for High-Radiance Light-Emitting Diodes in the NIR-II Window. Manman Gong, Fei Li, Lei Wang*, Qiulei Xu*, Zhenghui Wu, Huaibin Shen*, LinSong Li, Zuliang Du, ACS Photonics, 2023, 10(7), 2241-2248.

[4] High-Radiance Shortwave Infrared Light-Emitting Diodes Based on Highly Stable PbS Colloidal Quantum Dots. Fei Li, JiaoJiao Liu, Qiulei Xu, Ruiguang Chang, Lei Wang, Zhenghui Wu*, Huaibin Shen*, Zuliang Du, The Journal of Physical Chemistry Letters, 2023, 14(18), 4252-4258.

[5] Self-Assembled and Wavelength-Tunable Quantum Dot Whispering-Gallery-Mode Lasers for Backlight Displays. Weiguo Chen, Lei Wang, Ruixiang Liu, Huaibin Shen*, Jiangfeng Du*, Fengjia Fan*, Nano Letters, 2023, 23(2), 437-443

[6] Unraveling the Efficiency Losses and Improving Methods in Quantum Dot-Based Infrared Up-Conversion Photodetectors. Jiao Liu, Xinxin Yang, Qiulei Xu, Ruiguang Chang, Zhenghui Wu*, Huaibin Shen*, Opto-Electronic Science, 2023, 3, 230029.

[7] Elaborating the interplay between the detecting unit and emitting unit in infrared quantum dot up-conversion photodetectors. Qiulei Xu, Xinxin Yang, Jiao Jiao Liu, Fei Li, Ruiguang Chang, Lei Wang, A Qiang Wang*, Zhenghui Wu*, Huaibin Shen, Zuliang Du. Nanoscale, 2023,15, 8197-8203.

[8] Heavy-metal-free blue-emitting ZnSe(Te) quantum dots: synthesis and light-emitting applications. Xiangzhen Deng, Fengjuan Zhang*, Ying Zhang, Huaibin Shen*, Journal of Materials Chemistry C, 2023, 11, 14495-14514.

[9] Improving the performance of quantum dot light-emitting diodes by tailoring QD emitters. Zhaohan Li*, Jiaojiao Song, Anming Li, Huaibin Shen*, Zuliang Du, Nanoscale, 2023, 15, 3585-3593.

[10] Carboxylic-Free Synthesis of InP Quantum Dots for Highly Efficient and Bright Electroluminescent Device. Rui Long, Xueping Chen, Xuhui Zhang, Fei Chen*, Zhenghui Wu*, Huaibin Shen, Zuliang Du, Advanced Optical Materials, 2023, 11(6), 2202594.



2022

[1] Electronic Structural Insight into High-Performance Quantum Dot Light-Emitting Diodes.Yang Cheng, Zhixiang Gui, Ruixi Qiao, Shucheng Fang, Guohang Ba, Tianyu Liang, Haoyue Wan, Zhihong Zhang, Can Liu, Chaojie Ma, Hao Hong*, Fengjia Fan,* Kaihui Liu*, Huaibin Shen*, Advanced Functional Materials, 2022, 32(48), 2207974.

[2] ZnF2-Assisted Synthesis of Highly Luminescent InP/ZnSe/ZnS Quantum Dots for Efficient and Stable Electroluminescence. Haiyang Li, Wenjing Zhang, Yangyang Bian, Tae Kyu Ahn*, Huaibin Shen*, Botao Ji*, Nano Letters, 2022, 22(10), 4067-4073.

[3] Size Engineering of Trap Effects in Oxidized and Hydroxylated ZnSe Quantum Dots. Jingjing Min, Ying Zhang, Yamei Zhou, Dangdang Xu, Christos S. Garoufalis, Zaiping Zeng*, Huaibin Shen*, Sotirios Baskoutas, Yu Jia, Zuliang Du, Nano Letters, 2022, 22, 3604−3611.

[4] Aminophosphate precursors for the synthesis of near-unity emitting InP quantum dots and their application in liver cancer diagnosis. Yanbin Zhang, Yanbing Lv, Lin-Song Li, Xue-Jie Zhao, Mei-Xia Zhao*, Huaibin Shen*, Exploration, 2022, 2(4), 20220082.

[5] Alleviating Electron Over-Injection for Efficient Cadmium-Free Quantum Dot Light-Emitting Diodes toward Deep-Blue Emission. Min Gao, Yufei Tu, Dadi Tian, Huawei Yang, Xiaoyu Fang, Fengjuan Zhang*, Huaibin Shen*, Zuliang Du, ACS Photonics, 2022, 9, 1400-1408.

[6] Generation of Q-switched and mode-locked pulses based on PbS/CdS saturable absorbers in an Er-doped fiber laser. Song Yang, Fei Li, Man-Man Gong, Ling Zhang, Zhi-Wei Zhu, Huai-Bin Shen*, Shih-Chi Chen*, Journal of Materials Chemistry C, 2022, 10, 5956-5961.

[7] High-Performance Blue Quantum-Dot Light-Emitting Diodes by Alleviating Electron Trapping. Fangfang Wang, Qingzhao Hua, Qingli Lin*, Fengjuan Zhang, Fei Chen, Huimin Zhang, Xiaoxiang Zhu, Xulan Xue, Xiongping Xu, Huaibin Shen, Hanzhuang Zhang*, Wenyu Ji*, Advanced Optical Materials, 2022, 2200319.

[8] Green InP-based quantum dots and electroluminescent light-emitting diodes. Yangyang Bian, Fei Chen*, Huaibin Shen* and Zuliang Du, Journal of Physics: Condensed Matter, 2022, 34, 414005 (12pp).

[9] Highly efficient near-infrared light-emitting diodes based on Zn:CuInSe2/ZnS//ZnS quantum dots with double shell engineering. Xuhui Zhang, Tianyue Wang, Qingli Lin*, Fei Chen*, Lei Wang*, Zuliang Du, Optics Express, 2022, 30(16): 29449-29460.

[10] Direct Optical Patterning of Nanocrystal-Based Thin-Film Transistors and Light-Emitting Diodes through Native Ligand Cleavage. Yan Wang, Xinyao Shan, Yingjie Tang, Tianyu Liu, Binghan Li, Peng Jin, Kun Liang, Dingwei Li, Yang Michael Yang, Huaibin Shen*, Bowen Zhu*, Botao Ji*, ACS Applied Nano Materials, 2022, 5, 6, 8457–8466.

[11] Reversible Transformation between Cs3Cu2I5 and CsCu2I3 Perovskite Derivatives and Its Anticounterfeiting Application. Xiangtong Zhang*, Biao Zhou, Xueping Chen, William W. Yu*, Inorganic Chemistry, 2022, 61(1), 399-405



2021

[1] Bulk-like ZnSe Quantum Dots Enabling Efficient Ultranarrow Blue Light-Emitting Diodes. Min Gao, Huawei Yang, Huaibin Shen*, Zaiping Zeng, Fengjia Fan, Beibei Tang, Jingjing Min, Ying Zhang, Qingzhao Hua, Lin Song Li, Botao Ji*, Zuliang Du*, Nano Letters, 2021, 21(17), 7252-7260.

[2] Continuously Graded Quantum Dots: Synthesis, Applications in Quantum Dot Light-Emitting Diodes, and Perspectives. Yang Cheng, Haoyue Wan, Tianyu Liang, Can Liu, Muhong Wu, Hao Hong*, Kaihui Liu*, Huaibin Shen*, The Journal of Physical Chemistry Letters, 2021, 12(25), 5967-5978.

[3] Sensitive Immunoassay Based on Biocompatible and Robust Silica-Coated Cd-Free InP-Based Quantum Dots. Yanxia Xu, Yanbing Lv, Ruili Wu, Jinjie Li, Huaibin Shen*, Huawei Yang, Han Zhang, Lin Song Li*, Inorganic Chemistry, 2021, 60(9), 6503-6513.

[4] Tuning energy transfer efficiency in quantum dots mixture by controling donor/acceptor ratio. Chang Liu, Jing Liang, Fangfang Wang, Chaojie Ma, Kehai Liu, Can Liu, Hao Hong*, Huaibin Shen*, Kaihui Liu*, Enge Wang, Chinese Physics B, 2021, 30, 127802.

[5] Enhanced Hot Carrier Up-Conversion in Graphene By Quantum Dot Coating. He Ma, Nianze Shang, Jing Liang, Chang Liu, Fangfang Wang, Mengze Zhao, Zhibin Zhang, Zhihong Zhang, Chaojie Ma, Can Liu, Muhong Wu, Huaibin Shen*, Hao Hong*, Kaihui Liu*, Advanced Optical Materials, 2021, 2101563.

[6] Quantum dot light-emitting diodes with high efficiency at high brightness via shell engineering. Guohang Ba, Qiulei Xu,* Xinyu Li, Qingli Lin,* Huaibin Shen, and Zuliang Du, Optics Express, 2021, 29(8), 12169-12178.



Before 2021

[1] Blue quantum dot-based electroluminescent light-emitting diodes. Fei Chen, Qingli Lin, Huaibin Shen*, Aiwei Tang*, Materials Chemistry Frontiers, 2020, 4, 1340-1365.

[2] High-Brightness Blue InP Quantum Dot-Based Electroluminescent Devices: The Role of Shell Thickness. Han Zhang, Xiaoyu Ma, Qingli Lin, Zaiping Zeng*, Hongzhe Wang, Lin Song Li, Huaibin Shen*, Yu Jia, Zuliang Du*, The Journal of Physical Chemistry Letters, 2020, 11(3), 960-967.

[3] Preparation of Highly Stable and Photoluminescent Cadmium-Free InP/GaP/ZnS Core/Shell Quantum Dots and Application to Quantitative Immunoassay. Yanxia Xu, Yanbing Lv, Ruili Wu, Huaibin Shen,* Huawei Yang, Han Zhang, Jinjie Li, Lin Song Li*, Particle & Particle System Characterization, 2020,37(3), 1900441.

[4] Visible quantum dot light-emitting diodes with simultaneous high brightness and efficiency. Huaibin Shen, Qiang Gao, Yanbin Zhang, Yue Lin, Qingli Lin, Zhaohan Li, Ling Chen, Zaiping Zeng, Xiao-guang Li, Yu Jia, Shujie Wang, Zuliang Du*, Lin-song Li*, Zhenyu Zhang*, Nature Photonics, 2019, 13, 192-197.

[5] Over 30% external quantum efficiency light-emitting diodes by engineering quantum dot-assisted energy level match for hole transport layer. Jiaojiao Song, Ouyang Wang, Huaibin Shen*, Qingli Lin, Zhaohan Li, Lei Wang, Xin-tong Zhang, Lin-song Li*, Advanced Functional Materials, 2019, 1808377.

[6] High-efficiency CdSe/CdS nanorod-based red light-emitting diodes. Yanbin Zhang, Fengjuan Zhang, Hongzhe Wang*, Lei Wang, Fangfang Wang, Qingli Lin, Huaibin Shen*, Linsong Li, Optics Expess, 2019, 27, 7935-7944.

[7] High-Efficiency Green InP Quantum Dot-Based Electroluminescent Device Comprising Thick-Shell Quantum Dots. Han Zhang, Ning Hu, Zaiping Zeng, Qingli Lin, Fengjuan Zhang, Aiwei Tang*, Yu Jia, Linsong Li, Huaibin Shen*, Feng Teng, Zu-liang Du, Advanced Optical Materials, 2019, 1801602.

[8] Nonblinking quantum-dot-based blue light-emitting diodes with high efficiency and a balanced charge-injection process. Qingli Lin, Lei Wang, Zhaohan Li, Huaibin Shen*, Lijun Guo, Hongzhe Wang, and Linsong Li*, ACS Photonics, 2018, 5, 939-946.

[9] Synthesis and Evaluation of Ideal Core/Shell Quantum Dots with Precisely Controlled Shell Growth: Nonblinking, Single Photoluminescence Decay Channel, and Suppressed FRET. Zhaohan Li, Fei Chen, Lei Wang, Huaibin Shen*, Lijun Guo, Yanmin Kuang, Hongzhe Wang, Ning Li, Linsong Li*, Chemistry of Materials, 2018, 30 (11), 3668-3676.

[10] High-efficiency, deep blue ZnCdS/CdxZn1-xS/ZnS quantum-dot-light-emitting devices with an EQE exceeding 18%. Ouyang Wang, Lei Wang, Zhaohan Li, Qiulei Xu*, Qingli Lin, Hongzhe Wang, Zuliang Du, Huaibin Shen*, Linsong Li. Nanoscale, 2018, 10, 5660.

[11] Quantitative and rapid detection of C-reactive protein using quantum dot-based lateral flow test strip. Ruili Wu, Shuai Zhou, Ting Chen, Jinjie Li, Huaibin Shen*, Yujuan Chai, Linsong Li*, Analytica Chimica Acta, 2018, 1008, 1-7.

[12] Synthesis of highly stable CuInZnS/ZnS//ZnS quntum dots with thick shell and its application to quantitative immunoassay. Ruili Wu, Tianyue Wang, Min Wu, Yanbing Lv, Xueping Liu, Jinjie Li, Huaibin Shen*, Linsong Li, Chemical Engineering Journal, 2018, 348, 447-454.

[13] Simultaneous improvement of efficiency and lifetime of quantum dot light-emitting diodes with a bilayer hole injection layer consisting of PEDOT: PSS and solution-processed WO3”, Ling Chen, Shujie Wang, Dongdong Li, Yan Fang, Huaibin Shen*, Linsong Li, Zuliang Du*, ACS Applied Materials & Interfaces, 2018, 10, 24232-24241.

[14] Silica-encapsulated quantum dots for highly efficient and stable fluorescence immunoassay of C-reactive protein. Yanbing Lv, Jinjie Li, Ruili Wu*, Guochun Wang, Min Wu, Huaibin Shen, Linsong Li*, Biochemical Engineering Journal, 2018, 137, 344-351.

[15] Over 800% efficiency enhancement of all-inorganic quantum-dot light emitting diodes with an ultrathin alumina passivating layer. Wenyu Ji*, Huaibin Shen*, Han Zhang, Zhihui Kang and Hanzhuang Zhang*, Nanoscale, 2018, 10, 11103-1109.

[16] Efficient and long-life green light-emitting diodes comprising tridentate thiol capped quantum dots. Zhaohan Li, Yongxiang Hu, Huaibin Shen*, Qingli Lin, Lei Wang, Hongzhe Wang, Weili Zhao*, Linsong Li*, Laser & Photonics Review, 2017, 11, 1600227.

[17] All-quantum-dot emission tuning and multicolored optical films using layer-by-layer assembly method. Xueping Liu, Xuejing Zhang, Ruili Wu, Huaibin Shen*, Changhua Zhou, Xintong Zhang*, Lijun Guo, Linsong Li*, Chemical Engineering Journal, 2017, 32419-25.

[18] Efficient and long-lifetime full-color light-emitting diodes using high luminescence quantum yield thick-shell quantum dots. Huaibin Shen, Qingli Lin, Weiran Cao, Chenchen Yang, Nathan T. Shewmon, Hongzhe Wang, Jinzhong Niu, Linsong Li*, Jiangeng Xue*, Nanoscale, 2017, 9, 13583-13591.

[19] Solid Ligand-Assisted Storage of Air-Stable Formamidinium Lead Halide Quantum Dots via Restraining the Highly Dynamic Surface toward Brightly Luminescent Light-Emitting Diodes. Qinghua Li*, Haiyang Li, Huaibin Shen*, Fangfang Wang, Feng Zhao, Feng Li, Xugu Zhang, Danyang Li, Xiao Jin, and Weifu Sun, ACS Photonics, 2017, 4, 2504-2512.

[20] Efficient and long-life green light-emitting diodes comprising tridentate thiol capped quantum dots. Zhaohan Li, Yongxiang Hu, Huaibin Shen*, Qingli Lin, Lei Wang, Hongzhe Wang, Weili Zhao*, Linsong Li*, Laser & Photonics Reviews, 2017, 11(1), 1600227.

[21] Hydroxyl-Terminated CuInS2 Based Quantum Dots: Toward Efficient and Bright Light Emitting Diodes. Zelong Bai, Wenyu Ji, Dengbao Han, Liangliang Chen, Bingkun Chen, Huaibin Shen*, Bingsuo Zou, Haizheng Zhong*, Chemistry of Materials, 2016, 28, 1085-1091.

[22] Influence of Ambient Gas on the Performance of Quantum-Dot Light-Emitting Diodes. Qingli Lin, Fei Chen, Hongzhe Wang, Huaibin Shen* Aqiang Wang, Lei Wang, Fengjuan Zhang, Fang Guo, and Linsong Li*, ACS Applied Materials & Interfaces, 2016, 8, 11557-11563.

[23] High-efficiency deep-red quantum-dot light emitting diodes with type-II CdSe/CdTe core/shell quantum dots as emissive layers. Qingli Lin, Bin Song, Hongzhe Wang*, Fengjuan Zhang, Fei Chen, Lei Wang, Linsong Li, Fang Guo*, Huaibin Shen*, Journal of Materials Chemistry C, 2016, 4, 7223-7229.

[24] Super color purity green quantum dot light-emitting diodes fabricated by using CdSe/CdS nanoplatelets. Fengjuan Zhang, Shujie Wang, Lei Wang, Qingli Lin, Huaibin Shen*, Weiran Cao, Chenchen Yang, Hongzhe Wang, Long Yu, Zuliang Du, Jiangeng Xue*, Linsong Li*, Nanoscale, 2016, 8, 12182-12188.

[25] High-performance azure blue quantum dot light-emitting diodes via doping PVK in emitting layer. Lei Wang, Tao Chen, Qingli Lin, Huaibin Shen*, Aqiang Wang, Hongzhe Wang, Chunyang Li*, Linsong Li. Organic Electronics, 2016, 37, 280-286.

[26] Enhanced Performance of Quantum Dot-Based Light-Emitting Diodes with Gold Nanoparticle-Doped Hole Injection Layer. Fei Chen, Qingli Lin, Hongzhe Wang*, Lei Wang, Fengjuan Zhang, Zuliang Du, Huaibin Shen*, Linsong Li*, Nanoscale Research Letters, 2016, 11, 376.

[27] Bright, efficient, and color-stable violet ZnSe-based quantum dot light-emitting diodes. Aqiang Wang, Huaibin Shen*, Shuaipu Zang, Qingli Lin, Hongzhe Wang, Lei Qian, Jinzhong Niu, Linsong Li, Nanoscale, 2015, 7, 2951. 

[28] High Efficiency, Low Turn-on Voltage Blue-violet Quantum-Dot-based Light-emitting Diodes. Huaibin Shen, Weiran Cao, Nathan T. Shewmon, Chenchen Yang, Linsong Li*, Jiangeng Xue*, Nano Letters, 2015, 15, 1211. 

[29] High-Efficient Deep-Blue Light-Emitting Diodes by Using High Quality ZnxCd1-xS/ZnS Core/Shell Quantum Dots. Huaibin Shen, Xianwei Bai, Aqiang Wang, Hongzhe Wang, Lei Qian, Yixing Yang, Alexandre Titov, Jake Hyvonen, Ying Zheng*, Linsong Li*, Advanced Functional Materials, 2014, 24, 2367.

[30] Efficient and bright colloidal quantum dot light-emitting diodes via controlling the shell thickness of quantum dots. Huaibin Shen, Qing-li Lin, Hongzhe Wang, Lei Qian, Yixing Yang, Alexandre Titov, Jake Hyvonen, Ying Zheng*, Linsong Li*, ACS Applied Materials & Interfaces, 2013, 5, 12011.

[31] High-Efficient Near-Infrared Light-Emitting Diodes by Using Type II CdTe/CdSe Core/Shell Quantum Dots as a Phosphor. Huaibin Shen, Ying Zheng*, Hongzhe Wang, Weiwei Xu, Lei Qian, Yixing Yang, Alexandre Titov, Jake Hyvonen, Linsong Li*, Nanotechnology, 2013, 24, 475603.

[32] Highly efficient blue-green quantum dot light-emitting diodes using stable low-cadmium quaternary-alloy ZnCdSSe/ZnS core/shell nanocrystals. Huaibin Shen, Sheng Wang, Hongzhe Wang, Jinzhong Niu, Lei Qian, Yixing Yang, Alexandre Titov, Jake Hyvonen, Ying Zheng, Linsong Li*, ACS Applied Materials & Interfaces, 2013, 5, 4260.

[33] Facile preparation of metal telluride nanocrystals using din-octylphosphine oxide (DOPO) as an air-stable and less toxic alternative to the common tri-alkylphosphines. Huaibin Shen, Xindong Jiang, Sujuan Wang, Yantao Fu, Changhua Zhou, Linsong Li*, Journal of Materials Chemistry C, 2012, 22, 25050.

[34] Size- and shape-dependent growth of fluorescent ZnS nanorods and nanowiresusing Ag nanocrystals as seeds. Huaibin Shen, Hangying Shang, Jinzhong Niu, Weiwei Xu, Hongzhe Wang, Linsong Li*, Nanoscale, 2012, 4, 6509.

[35] “Facile Synthesis of High-quality CuInZnxS2+xCore/Shell Nanocrystals and Their Application for Detection of C-Reactive Protein. Huai-bin Shen, Hang Yuan, Feng Wu, Xianwei Bai, Changhua Zhou, Hongzhe Wang, Tikang Lu Zhifeng Qin, Lan Ma*, Lin-song Li*, Journal of Materials Chemistry C, 2012, 22, 18623.

[36] Phosphine-Free Synthesis of Zn1-xCdxSe/ZnSe/ZnSexS1-x/ZnS Core/Multishell Structures with Bright and Stable Blue-Green Photoluminescence. Huaibin Shen, Changhua Zhou, Shasha Xu, Cailan Yu, Hongzhe Wang, Xia Chen*, Linsong Li*, Journal of Materials Chemistry C, 2011, 21, 6046.

[37] Phosphine-free synthesis of high-quality reverse type-I ZnSe/CdSe core with CdS/CdxZn1−xS/ZnS multishell nanocrystals and their application for detection of human hepatitis B surface antigen. Huaibin Shen, HangYuan, Jinzhong Niu, Shasha Xu, Changhua Zhou, Lan Ma*, Linsong Li*, Nanotechnology, 2011,22, 375602.

[38] Large scale synthesis of stable tricolor Zn1-xCdxSe core/multishell nanocrystals via a facile phosphine-free colloidal method. Huaibin Shen, Hongzhe Wang, Changhua Zhou, Jinzhong Niu, Hang Yuan, Lan Ma*, Lin Song Li*, Dalton Transactions, 2011, 40, 9180.

[39] Size- and Shape-Controlled Synthesis of CdTe and PbTe Nanocrystals Using Tellurium Dioxide as the Tellurium Precursor. Huaibin Shen, Hongzhe Wang, Xia Chen*, Jinzhong Niu, Weiwei Xu, Xiaomin Li, Xindong Jiang*, Zuliang Du, Lin-song Li*, Chemistry of Materials, 2010, 22, 4756.

[40] Phosphine-free synthesis of high quality ZnSe, ZnSe/ZnS, and Cu-, Mn-doped ZnSe nanocrystals. Huaibin Shen, Hongzhe Wang, Xiaomin Li, Hua Wang, Xia Chen*, Linsong Li*, Dalton Transactions, 2009, 10534.

[41] High quality synthesis of monodisperse zin-blende CdSe and CdSe/ZnS nanocrystals with a phosphine-free method. Huaibin Shen, Hongzhe Wang, Zhaojun Tang, Jinzhong Niu, Shiyun Lou, Zuliang Du, Linsong Li*, Cryst Eng Comm, 2009, 11, 1733.


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