Zhaolai Chen
Professor
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Personal Information:
  • Name (English):
    Zhaolai Chen
  • Name (Pinyin):
    chenzhaolai
  • Date of Employment:
    2019-01-14
  • School/Department:
    Shandong University
  • Administrative Position:
    Professor
  • Education Level:
    With Certificate of Graduation for Doctorate Study
  • Business Address:
    山东大学中心校区公教楼503
  • Gender:
    Male
  • Contact Information:
    zhaolaichen@sdu.edu.cn
  • Degree:
    Doctor
  • Status:
    Employed
  • Alma Mater:
    Jilin University
  • Supervisor of Doctorate Candidates
  • Supervisor of Master's Candidates
Discipline:
Materials Physics and Chemistry;
Inorganic Chemistry;
Honors and Titles:

2021-11-21    山东省科协青年托举工程;
2019    山东大学齐鲁青年学者;
2017    吉林省优秀博士毕业论文;
Introduction

Dr. Zhaolai Chen is currently a professor at the State Key Lab of Crystal Materials at Shandong University. He received his Ph.D. degree at Jilin University. He then conducted postdoctoral research at University of Nesbraka-Lincoln and King Abdullah University of Science and Technology. His current research interests focus on design and synthesis of optoelectronic crystal materials for solar cells, photodetectors, and field-effect transistors 

Educational Experience
  • 2013-9 — 2016-6
    吉林大学
    高分子化学与物理
    Doctoral Degree in Science
  • 2007-9 — 2011-6
    吉林大学
    化学
    Bachelor's Degree in Science
Achievements in Research
Papers

1. 陈召来. Editorial: Hybrid Perovskite Crystals Design, Growth, and Their Photoelectric Properties .Frontiers in Chemistry.2022 (10)

2. 陈召来. Bulk Defect Suppression of Micrometer-Thick Perovskite Single Crystals Enables Stable Photovoltaics .ACS Materials Letters.2022,4 (7):1332

3. 冯安波. Shape Control of Metal Halide Perovskite Single Crystals: From Bulk to Nanoscale .Chemistry of Materials.2020 (18):7602

4. 陈召来. Thin MAPb0.5Sn0.5I3 Perovskite Single Crystals for Sensitive Infrared Light Detection .Frontiers in Chemistry.2022 (9):821699

5. 陈召来. Inch-Sized Thin Metal Halide Perovskite Single-Crystal Wafers for Sensitive X-Ray Detection .Frontiers in Chemistry.2022 (9):823868

6. 陈召来. Engineering the Hole Extraction Interface Enables Single-Crystal MAPbI(3) Perovskite Solar Cells with Efficiency Exceeding 22% and Superior Indoor Response .Advanced Energy Materials.2021 (12)

7. 陈召来. Self-Powered FA(0.55)MA(0.45)PbI(3) Single-Crystal Perovskite X-Ray Detectors with High Sensitivity .Advanced Functional Materials.2021 (31)

8. Thin MAPb0.5Sn0.5I3 Perovskite Single Crystals for Sensitive Infrared Light Detection .Frontiers in Chemistry.2021

9. Inch-Sized Thin Metal Halide Perovskite Single-Crystal Wafers for Sensitive X-ray Detection .Frontiers in Chemistry.2021

10. Engineering the Hole Extraction Interface Enables Single-Crystal MAPbI3 Perovskite Solar Cells with Efficiency Exceeding 22% and Superior Indoor Response .Advanced Energy Materials.2021 :2103241

11. Self-Powered FA0.55MA0.45PbI3 Single-Crystal Perovskite X-Ray Detectors with High Sensitivity .Advanced Functional Materials.2021

12. Shape Control of Metal Halide Perovskite Single Crystals: From Bulk to Nanoscale .Chemistry of Materials.2020

13. Single Crystal Perovskite Solar Cells: Development and Perspectives .Advanced Functional Materials.2020

14. Designing Large-Area Single-Crystal Perovskite Solar Cells .ACS Energy Letters.2020,5 :1797-1803

15. (1-C5H14N2Br)2MnBr4: A Lead-Free Zero-Dimensional Organic-Metal Halide With Intense Green Photoluminescence .Frontiers in Chemistry.2020,8 :352

16. Exploring Organic Metal Halide with Reversible Temperature‐responsive Dual‐emissive Photoluminescence .ChemSusChem.2019

17. Solution-Processed Visible-Blind Ultraviolet Photodetectors with Nanosecond Response Time and High Detectivity .Advanced Optical Materials.2019 :1900506

18. Single-Crystal MAPbI3 Perovskite Solar Cells Exceeding 21% Power Conversion Efficiency .ACS Energy Lett..2019,4 :1258-1259

19. Thin single crystal perovskite solar cells to harvest below-bandgap light absorption .Nature Communications.2017,8 :1890

20. Low‐Noise and Large‐Linear‐Dynamic‐Range Photodetectors Based on Hybrid‐Perovskite Thin‐Single‐Crystals .Advanced Materials.2017,29 :1703209

21. Recent development and understanding of polymer–nanocrystal hybrid solar cells .Materials Chemistry Frontiers.2017,1 :1502-1513

22. Unravelling the working junction of aqueous-processed polymer–nanocrystal solar cells towards improved performance .Physical Chemistry Chemical Physics.2016,18 :15791-15797

23. Efficient inorganic solar cells from aqueous nanocrystals: the impact of composition on carrier dynamics .RSC Advances.2015,5 :74263-74269

24. Efficient aqueous-processed hybrid solar cells from a polymer with a wide bandgap .Journal of Materials Chemistry A.2015,3 :10969-10975

25. Dip‐Coated Gold Nanoparticle Electrodes for Aqueous‐Solution‐Processed Large‐Area Solar Cells .Advanced Energy Materials.2014,4 :1400135

26. In Situ Construction of Nanoscale CdTe‐CdS Bulk Heterojunctions for Inorganic Nanocrystal Solar Cells .Advanced Energy Materials.2014,4 :1400235

27. From planar-heterojunction to n–i structure: an efficient strategy to improve short-circuit current and power conversion efficiency of aqueous-solution-processed hybrid solar cells .Energy & Environmental Science.2013,6 :1597-1603

28. Aqueous-solution-processed hybrid solar cells with good thermal and morphological stability .Solar Energy Materials and Solar Cells.2012,109 :254-261

29. Inverted Hybrid Solar Cells from Aqueous Materials with a PCE of 3.61% .Advanced Energy Materials.2012,3 :433-437

30. Construction of nanoparticle superstructures on the basis of host–guest interaction to achieve performance integration and modulation .Physical Chemistry Chemical Physics.2012,14 :6119-6125

Research Group
Title
Optoelectronic crystals and devices
Description of Research Group:
Our team works on synthesis of optoelectronic single crystals, such as organic inorganic halide perovskite single crystals and organic emmisive single crystals, and their application in optoelctron...
Members
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