郑小睿博士

教师团队郑小睿博士

郑小睿博士

Xiaorui Zheng, Ph.D.

先进制造与纳米芯片实验室

联系

邮箱: zhengxiaorui@westlake.edu.cn

网站: https://www.x-mol.com/groups/zheng_xiaorui

郑小睿博士

Xiaorui Zheng, Ph.D.

先进制造与纳米芯片实验室

联系

邮箱: zhengxiaorui@westlake.edu.cn

网站: https://www.x-mol.com/groups/zheng_xiaorui

“敢问路在何方？路在脚下。——阎肃”

个人简介

郑小睿，1986年生，西湖大学工学院特聘研究员，独立PI，博士生导师，先进制造与纳米芯片实验室（Alien Lab）负责人。2009年毕业于武汉大学，物理学基地班及电子科学与技术双专业，获学士学位，同年保送进入中国科学院物理研究所，获凝聚态物理专业硕士学位。2012年获澳大利亚全额奖学金资助，进入斯威本科技大学微光子学研究中心攻读博士学位，师从贾宝华教授和顾敏院士，于2016年获博士学位，研究方向为激光制造低维纳米光电器件，博士期间获“国家优秀自费留学生奖学金”。2016年获澳大利亚基金资助，进入美国加州大学圣地亚哥分校从事博士后研究，研究方向为低维纳米光电器件。2017年获IBM苏黎世研究中心及瑞士SwissLitho公司研发资助，先后在美国纽约先进科学研究中心及纽约大学从事博士后研究，研究方向为扫描探针制造低维纳米光电器件。2020年9月全职加入西湖大学，成立先进制造与纳米芯片实验室（Alien Lab）。

学术成果

先进制造与纳米芯片实验室，Alien Lab (Advanced Lithography for opto-Electronic Nanochips Lab)，专注于先进纳米制造技术的基础研发及应用研究，以新型纳米材料为基础，探索其光电子学基础特性及纳米功能器件，在智能纳米芯片制造、超快光通讯、红外波段探测、高分辨率医学成像、生物分子快速检测等领域开展应用研究，以新材料、人工智能、数字经济、生命健康等国家重大发展战略为导向，不断积累基础研究及产业化应用的经验，培养未来科技人才，为国家科学和技术发展贡献力量。实验室与国内外多个大学、研究机构及企业建立了长期的良好合作关系。实验室主要研究方向包括：1）扫描探针纳米制造技术、超快激光三维打印技术及其集成系统开发；2）新型材料原子缺陷操控、相变及原位表征；3）低维光电子芯片的设计、制造与应用。

先进制造与纳米芯片实验室（Alien Lab）在纳米制造技术、低维材料调控及光电功能器件的基础与应用研究方向拥有十多年的积累，并在Nature Electronics, Nature Photonics, Nature Communications, Advanced Materials, Nano Letters等期刊发表论文。主要学术成果包括：

1. 与IBM苏黎世研究中心（该中心科学家因发明扫描隧道显微镜而获1986年诺贝尔物理学奖）及瑞士SwissLitho公司（现德国Heidelberg Instruments）合作，研发出世界首台商业化扫描探针纳米制造系统，即NanoFrazor系统。瑞士Swisslitho公司因NanoFrazor系统的成功研发获得“瑞士卓越产品奖”；

2. 首次利用扫描探针纳米制造技术，实现具备世界最优整流比的单原子层半导体二极管及世界最优开关比的单原子层场效应晶体管，为低维半导体芯片系统提供基础元件，对其设计、制造及应用起到推动作用。针对该研究成果，美国国家纳米技术计划（NNI）官方报道评价称：“研究人员制造了原子级超薄处理器，这一发现可能对纳米芯片生产产生深远影响。”，同时美国国家科学基金会（NSF）官方报道称：“原子级超薄处理器的制造取得了突破，对纳米芯片生产及全球更小、更快的二维材料器件研发具有深远影响。”；

3. 首次利用超快激光三维打印技术，实现石墨烯超薄光学微透镜及悬空式中红外光学偏振片，在高分辨率生物显微成像、内窥镜、红外探测及空间科学等方面具有重要的应用前景。进一步实现了高灵敏度氧化石墨烯非线性光学响应的激光调制，获得远高于（1000倍）当前商业材料（如硅，硫系玻璃等）的非线性光学性能，为实现高效率、可调谐的非线性光通讯功能器件奠定了基础，在高灵敏度超快光通讯领域具有重要的应用价值。该研究成果被美国空军研究实验室（AFRL）评价为：“一项新的研究报道了一种高质量氧化石墨烯薄膜，它在超快通讯方面展现出潜力。”。

代表论文

1. Haoting Ying^#, Manzhang Xu^#, Xiaotong Xu, Liaoyong Wen, Zheng Liu*, Xuewen Wang*, Xiaorui Zheng*, Wei Huang*, "Complete logic operations in an ambipolar tellurium homojunction via non-invasive scanning probe lithography", Device 1, 100069 (2023)

2. Kaiyue He#, Jijie Zhu#, Zishun Li, Zhe Chen, Hehe Zhang, Chao Liu, Xu Zhang, Shuo Wang, Peiyi Zhao, Yu Zhou, Shizheng Zhang, Yao Yin*, Xiaorui Zheng*, Wei Huang, Lin Wang*, "High-sensitive two-dimensional PbI2 photodetector with ultrashort channel", Frontiers of Physics 18, 63305 (2023)

3. Yating Wu#, Hongpeng Shang#, Xiaorui Zheng*, Tao Chu*, "Post-processing Trimming of Silicon Photonic Devices Using Femtosecond Laser", Nanomaterials 13, 1031 (2023)

4. Mengqi Wu#, Zhefeng Lou#, Chen-Min Dai#, Tao Wang, Jiaqi Wang, Ziye Zhu, Zhuokai Xu, Tulai Sun, Wenbin Li*, Xiaorui Zheng*, Xiao Lin*, "Achieving Ferroelectricity in a Centrosymmetric High-Performance Semiconductor by Strain Engineering", Advanced Materials (2023)

5. Manzhang Xu#, Jinpeng Xu#, Lei Luo, Mengqi Wu, Bijun Tang, Lei Li, Qianbo Lu, Weiwei Li, Haoting Ying, Lu Zheng, Hao Wu, Qiang Li, Hanjun Jiang, Jun Di, Wu Zhao, Zhiyong Zhang, Yongmin He, Xiaorui Zheng, Xuetao Gan, Zheng Liu*, Xuewen Wang*, Wei Huang*, "Hydrogen-assisted growth of one-dimensional tellurium nanoribbons with unprecedented high mobility", Materials Today (2023)

6. Zichen Wang#, Jiacheng Sun#, Jiye Li, Lang Wang, Zishun Li, Xiaorui Zheng*, Liaoyong Wen*, "Customizing 2.5D Out-of-Plane Architectures for Robust Plasmonic Bound-States-in-the-Comtinuum Metasurfaces", Advanced Science 202206236 (2023)

7. Yunyi Yang, Yinan Zhang, Jie Zhang, Xiaorui Zheng, Zhixing Gan, Han Lin, Minghui Hong, and Baohua Jia*, "Graphene Metamaterial 3D Conformal Coating for Enhanced Light Harvesting", ACS Nano 17, 2611 (2023)

8. Tao Wang#, Zhuokai Xu#, Ziye Zhu#, Mengqi Wu, Zhefeng Lou, Jialu Wang, Wanghua Hu, Xiaohui Yang, Tulai Sun, Xiaorui Zheng, Wenbin Li*, Xiao Lin*, "Highly insulating phase of Bi2O2Se thin films with high electronic performance", Nano Research 16, 3224 (2023)

9. Jun Ren, Han Lin, Xiaorui Zheng, Weiwei Lei, Dan Liu, Tianling Ren, Pu Wang, Baohua Jia*, “Giant and light modifiable third-order optical nonlinearity in a free-standing h-BN film”, Opto-Electronic Science 1, 210013 (2022)

10. S. Xie, K. Lai, C. Gu*, T. Jiang, L. Zhou, X. Zheng, X. Shen*, J. Han, J. Zhou*, “Fine fabrication of TiO2/MoOx nano-heterojunctions and investigating on the improved charge transfer for SERS application”, Materials Today Nano 18, 100179 (2022)

11. Edoardo Albisetti, Annalisa Calò, Alessandra Zanut, Xiaorui Zheng, Giuseppe Maria de Peppo, Elisa Riedo*, “Thermal scanning probe lithography” Nature Reviews Methods Primers 2, 32 (2022)

12. Momo Zhao, Saisai Wang, Dingwei Li, Rui Wang, Fanfan Li, Mengqi Wu, Kun Liang, Huihui Ren, Xiaorui Zheng, Chengchen Guo, Xiaohua Ma, Bowen Zhu*, Hong Wang*, Yue Hao, “Silk Protein Based Volatile Threshold Switching Memristors for Neuromorphic Computing” Advanced Electronic Materials 8, 2101139 (2022)

13. Xiangyu Liu, Alessandra Zanut, Martina Sladkova-Faure, Liyuan Xie, Marcus Weck, Xiaorui Zheng, Elisa Riedo and Giuseppe Maria de Peppo, "Cost and Time Effective Lithography of Reusable Millimeter Size Bone Tissue Replicas With Sub-15 nm Feature Size on A Biocompatible Polymer", Advanced Functional Materials 2008662 (2021)

14. Xiangyu Liu, Zhujun Huang, Xiaorui Zheng, Davood Shahrjerdi, Elisa Riedo, "Nanofabrication of graphene field-effect transistors by thermal scanning probe lithography", APL Materials 9, 011107 (2021).

15. X. Zheng^#, A. Calo^#, T. Cao^#, X. Liu, Z. Huang, P. M. Das, M. Drndic, E. Albisetti, F. Lavini, T. Li, V. Narang, W. P. King, J. W. Harrold, M. Vittadello, C. Aruta, D. Shahrjerdi^*, E. Riedo^*, “Spatial defects nanoengineering for bipolar conductivity in MoS₂”, Nature Communications 11, 3463 (2020)

16. X. Zheng, B. Xu, S. Li, H. Lin, L. Qiu, D. Li, B. Jia^*, “Free-standing graphene oxide polarizers”, Nanoscale 12, 11480 (2020)

17. X. Zheng^#, A. Calo^#, E. Albisetti^*, X. Liu, A. M. Alharbi, G. Arefe, X. Liu, M. Spieser, W. J. Yoo, T. Taniguchi, K. Watanabe, C. Aruta, A. Ciarrocchi, A. Kis, B. S. Lee, M. Lipson, J. Hone, D. Shahrjerdi, E. Riedo^*, “Patterning metal contacts on monolayer MoS₂ with vanishing Schottky barrier via thermal nanolithography”, Nature Electronics 2, 17 (2019)

18. H. Lin, B. Sturmberg, K. Lin, Y. Yang, X. Zheng, T. Chong, M. de Sterke and B. Jia^*, “Ultrathin graphene metamaterial for extremely broadband near-total absorption of unpolarized light”, Nature Photonics 13, 270 (2019)

19. Y. Yang, H. Lin, B. Zhang, Y. Zhang, X. Zheng, A. Yu, M. Hong, B. Jia^*. “Graphene-based multilayered metamaterials with phototunable architecture for on-chip photonic devices”, ACS Photonics 6, 1033 (2019)

20. G. Cao, H. Lin^*, S. Fraser, X. Zheng, B. Rosal, Z. Gan, S. Wei, X. Gan, B. Jia^*, “Resilient graphene ultrathin flat lens in aerospace, chemical, and biological harsh environment” ACS Applied Materials & Interfaces 11, 20298 (2019)

21. X. Zhang, N. Biekert, S. Choi, C. Naylor, C. De-Eknamkul, W. Huang, X. Zhang, X. Zheng, D. Wang, A. Johnson, E. Cubukcu^*, “Dynamic Photochemical and Optoelectronic Control of Photonic Fano Resonances via Monolayer MoS2 Trions”, Nano Letters 18, 957 (2018)

22. E. Albisetti^*, D. Petti^*, G. Sala, R. Silvani, S. Tacchi, S. Finizio, S. Wintz, A. Calò, X. Zheng, J. Raabe, E. Riedo, R. Bertacco, “Nanoscale spin-wave circuits based on engineered reconfigurable spin-textures”, Communications Physics 1, 56 (2018)

23. T. Yang, H. Lin, X. Zheng, K. P. Loh, B. Jia^*, “Tailoring pores in graphene-based materials: from generation to applications”, Journal of Materials Chemistry A 5, 16537 (2017)

24. X. Xu^#*, X. Zheng^#, F. He^#, Z. Wang, H. Subbaraman, Y. Wang, B. Jia, R. T. Chen^*, “Observation of Third-order Nonlinearities in Graphene Oxide Film at Telecommunication Wavelengths”, Scientific Report 7, 9646 (2017)

25. X. Zheng, H. Lin, T. Yang, B. Jia^*, “Laser trimming of graphene oxide for functional photonic applications”, Journal of Physics D: Applied Physics 50, 074003 (2016)

26. J. Ren^#, X. Zheng^#, Z. Tian, D. Li, P. Wang, B. Jia^*, “Giant third-order nonlinearity from low-loss electrochemical graphene oxide film with a high power stability”, Applied Physics Letters 109, 221105 (2016).

27. X. Zheng, H. Lin, B. Jia, “Graphene oxide films, an emerging platform for ultrathin, light-weight, flexible photonic devices”, Australian Optical Society (AOS) News 30, 29 (2016).

28. X. Zheng^#, B. Jia^#*, H. Lin, L. Qiu, D. Li, M. Gu^*, “Highly efficient and ultra-broadband graphene oxide ultrathin lenses with three-dimensional subwavelength focusing”, Nature Communications 6, 8433 (2015).

29. S. Fraser^#, X. Zheng^#, L. Qiu, D. Li, B. Jia^*, “Enhanced optical nonlinearities of hybrid graphene oxide films embedded with gold nanoparticles”, Applied Physics Letters 107, 031112 (2015).

30. L. Chen, X. Zheng, Z. Du, B. Jia, M. Gu, and M. Hong^*, “Frozen Matrix Hybrid Optical Nonlinear System Enhanced by Light Focusing Effect”, Nanoscale 7, 14982 (2015)

31. X. Zheng, B. Jia^*, X. Chen, M. Gu^*, “In Situ Third-Order Non-linear Responses During Laser Reduction of Graphene Oxide Thin Film Towards On-Chip Non-linear Photonic Devices”, Advanced Materials, 26, 2699 (2014).

32. X. Zheng^*, F. Cheng, J. Wu, J. B, Z. Yi, “Extraordinary terahertz transmission through subwavelength spindle-like apertures in NbN film” Chinese Physics B 23, 1 (2013)

联系方式

电子邮箱：zhengxiaorui@westlake.edu.cn

课题组长期招收博士研究生，并将全力支持每一位博士研究生的成长，提供世界领先的学习环境、科研平台及后勤保障，积极资助博士研究生与国内外名校、国家实验室及科技企业的广泛交流。

课题组以“导师负责制”为要求，“手把手”帮助博士研究生在初期快速进入研究课题，“拉着手”协助博士研究生在中期开展高质量科研工作，“放开手”支持博士研究生在后期自主选择研究课题。基础研究与实际应用并重，为博士研究生提供学术界及工业界的良好职业发展前景。

课题组有充裕的博士生培养名额，欢迎有博士入学申请意向的硕士或本科生提前联系或到实验室担任科研助理。

（详见西湖大学与浙江大学、复旦大学的联合博士生招生简章）