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许子颉
发表日期: 2021-08-31 文章来源:
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  许子颉 

   

    

  中国科学院北京纳米能源与系统研究所,博士后(王中林课题组) 

  E-mail: xuzijie@binn.cas.cn 

    

  工作经历  

  2021/7-至今,中国科学院北京纳米能源与系统研究所,博士后。 

    

  教育背景  

  2015/09-2021/06,厦门大学,物理科学与技术学院,博士,柔性电子方向。  

  2011/09-2015/06,华侨大学,材料科学与工程学院,本科。  

    

  研究领域  

  1. 摩擦纳米发电机 

  2. 柔性透明导电膜与柔性可穿戴传感系统 

  3. 柔性太阳能电池 

  4. 柔性电致变色系统 

    

  代表论著 

  1. Xu Z, Li W, Huang J, et al. Flexible, controllable and angle-independent photoelectrochromic display enabled by smart sunlight management[J]. Nano Energy, 2019, 63: 103830. 

  2. Xu Z, Qiu W, Fan X, et al. Stretchable, stable and degradable silk fibroin enabled by mesoscopic doping for finger motion triggered color/transmittance adjustment[J]. ACS Nano, 2021, 15(7)1242912437.  

  3. Xu Z, Li W, Huang J, et al. Controllable and large-scale fabrication of flexible ITO-free electrochromic devices by crackle pattern technology[J]. Journal of Materials Chemistry A, 2018, 6(40): 19584-19589. 

  4. Xu Z, Li T, Zhang F, et al. Highly flexible, transparent and conducting CuS-nanosheet networks for flexible quantum-dot solar cells[J]. Nanoscale, 2017, 9(11): 3826-3833. 

  5. Xu Z, Li T, Liu Q, et al. Controllable and large-scale fabrication of rectangular CuS network films for indium tin oxide-and Pt-free flexible dye-sensitized solar cells[J]. Solar Energy Materials and Solar Cells, 2018, 179: 297-304. 

  6. Huang J, Xu Z, Qiu W, et al. Stretchable and Heat‐Resistant Protein‐Based Electronic Skin for Human Thermoregulation[J]. Advanced Functional Materials, 2020: 1910547.(共同一作) 

  7. Xu Z, Li T, Liu Q, et al. Data analysis between controllable variables and the performance of CuS crackle based electrode[J]. Data in brief, 2018, 17: 1331-1335. 

  8. Guo X, Xu Z*, Huang J, et al. Photoelectrochromic smart windows powered by flexible dye-sensitized solar cell using CuS mesh as counter electrode[J]. Materials Letters, 2019, 244: 92-95.(通讯作者) 

  9. 许子颉, 张发荫, 洪晓丹, . 基于网状铂电极的新型柔性染料敏化太阳能电池[J]. 电化学, 2016, 22(4): 397-403. 

  10. Gong H, Xu Z, Yang Y, et al. Transparent, stretchable and degradable protein electronic skin for biomechanical energy scavenging and wireless sensing[J]. Biosensors and Bioelectronics, 2020. (共同一作) 

  11. Shi C, Hu F, Wu R, Xu Z, et al. New Silk Road: From Mesoscopic Reconstruction/Functionalization to Flexible Meso‐Electronics/Photonics Based on Cocoon Silk Materials[J]. Advanced Materials, 2021: 2005910. 

  12. Hou C, Xu Z, Qiu W, et al. A Biodegradable and Stretchable Protein‐Based Sensor as Artificial Electronic Skin for Human Motion Detection[J]. Small, 2019: 1805084.内封面) 

  13. Guo W, Xu Z, Zhang F, et al. Recent Development of Transparent Conducting Oxide‐Free Flexible Thin‐Film Solar Cells[J]. Advanced Functional Materials, 2016, 26(48).(内封面) 

  14. Zhang F, Li W, Xu Z, et al. Highly flexible and scalable photo-rechargeable power unit based on symmetrical nanotube arrays[J]. Nano energy, 2018, 46: 168-175. 

  15. Hu F, Liu W, Li W, Xu Z, et al. Silk Fluorescence Collimator for Ultrasensitive Humidity Sensing and Light‐Harvesting in Semitransparent Dye‐Sensitized Solar Cells[J]. Small, 2019: 1804171.(内封面) 

  16. Li T, Li S, Li X, Xu Z, et al. A leaf vein-like hierarchical silver grids transparent electrode towards high-performance flexible electrochromic smart windows[J]. Science Bulletin, 2019. 

  17. Hong X, Xu Z, Zhang F, et al. Sputtered seed-assisted growth of CuS nanosheet arrays as effective counter electrodes for quantum dot-sensitized solar cells[J]. Materials Letters, 2017, 203: 73-76. 

  18. Zhao L, Zhao J, Zhang F, Xu Z, et al. Highly Stretchable, Adhesive, and Self‐Healing Silk Fibroin‐Dopted Hydrogels for Wearable Sensors[J]. Advanced Healthcare Materials, 2021: 2002083. 

  19. Zhang F, Li W, Xu Z, et al. Transparent conducting oxide-and Pt-free flexible photo-rechargeable electric energy storage systems[J]. RSC Advances, 2017, 7(83): 52988-52994. 

  20. 洪晓丹, 许子颉, 张发荫, . 三种 CuS 对电极的制备及其对量子点敏化太阳能电池光电性能的影响[J]. 电化学, 2016, 22(4): 404-411. 

  21. Xie S, Li T, Xu Z, et al. A high-response transparent heater based on a CuS nanosheet film with superior mechanical flexibility and chemical stability.[J]. Nanoscale, 2018, 10(14):6531. 

  22. Liu Q, Xu Z, Qiu W, et al. Ultraflexible, stretchable and fast-switching electrochromic devices with enhanced cycling stability[J]. RSC Advances, 2018, 8(33): 18690-18697.(共同一作) 

  23. Guo W, Xu Z, Li T. Multifunctional Photocatalytic Materials for Energy[M]. Woodhead Publishing, 2018. 

    

  专利  

  1.     CN201710927614.8 郭文熹;许子颉;刘向阳 一种导电膜及其制备方法 

  2.     CN201911076938.0 杨柏儒;钟敏;刘向阳;何智;许子颉;黄嘉妮;郭文熹 基于蚕丝的可拉伸可透气的电子纸器件及制备方法 

  3.     CN201811346575.3 郭文熹;李伟锋;许子颉;刘向阳 一种新型导电/加热陶瓷及制备方法 

  4.     CN202010031483.7 郭文熹;李戌一;许子颉 一种可监控植物生长状态的微型传感器及其制备方法 

  5.     CN201910606115.8 郭文熹;许子颉;许清池;王金贵;苏秋聪 一种具有加热控温功能的蛋白质薄膜的制备方法 

  6.     CN202010027399.8 郭文熹;龚豪;许子颉;刘向阳 一种基于再生丝素蛋白的无源透明压力传感器的制备方法 

    

  个人荣誉  

  1. 第七十届诺贝尔获奖者大会 中国特优博士生代表(全国30名) 

  2. 2019年博士研究生国家奖学金 

  3. 2019年唐立新奖学金,唐立新CSS创享俱乐部会员 

  4. 教育部全国大学生互联网+国赛专家库成员 

  5. 中国“互联网+”大学生创新创业大赛全国金奖 

  6. 中国“挑战杯”大学生创新创业大赛全国金奖 

  7. 创青春中国青年创新创业大赛 全国总冠军 

  8. 中美华人纳米论坛海报奖 

  9. 厦门大学优秀共产党员 

  10. 厦门大学优秀三好学生 

  11. 厦门大学谢玉铭奖学金 

  12. 厦门大学茅台奖学金 

  13. 厦门大学蔡文种奖学金 

  14. 厦门大学文庆奖学金 

 
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