Xinchuan Du (杜新川)
PhD Candidate, School of Integrated Circuit Science and Engineering & State Key Laboratory of Electronic Thin Films and Integrated Devices, University of Electronic Science and Technology of China
Email: duxinchuan_uestc@163.com (prior) xinchuandu97@gmail.com
Google Scholar | ResearchGate | GitHub | Chinese Resume(Comprehensive version)
Research Interest | Education and Intern | Publications | Projects | Honors and Awards | Outreach and Recognitions
Research Interest
I work centers on Multi-dimensional Optoelectronic Sensing technologies and advanced optoelectronic devices, targeting the application needs for spectrum, polarization, and depth field detection. I conduct research in functionalized optoelectronic device design, hardware implementation for signal acquisition, and development of signal processing algorithms. My current focus includes the following topics:
▶ Visible-to-mid-infrared hyperspectral detectors array and machine learning-based reconstruction algorithms
▶ Multimodal neuromorphic optoelectronic interfaces based on multidimensional optoelectronic sensing
▶ High-temperature superconducting single-photon cameras and their focal plane readout circuits
Education and Intern
Direct-Entry Ph.D. Candidate, State Key Laboratory of Electronic Thin Films and Integrated Devices, University of Electronic Science and Technology of China (UESTC), Supervised by Prof. Yanrong Li and Jie Xiong
■ Awarded Excellent Graduate of Sichuan Province
■ Recognized for Outstanding Graduation Thesis
■ Recipient of Full Academic Scholarship
Exchange Student, Information Functional Materials and Devices Group, Shanghai Institute of Ceramics
Bachelor’s Degree in Microelectronics and Solid-State Electronics (now Integrated Circuit Science and Engineering), UESTC. Recognized as an Outstanding Student of UESTC
■ GPA: 3.91/4.0 (Top 1% of school)
■ Awarded Excellent Graduate of Sichuan Province
■ National Scholarship Recipient for three consecutive years
Publications
Journals:
Total Citations: 2,511; h-index: 18
[12] X. Du, Y. Wang, Y. Cui, et al. A Microspectrometer with Dual-signal Spectral Reconstruction. Nature Electron (2024). DOI: 10.1038/s41928-024-01242-9 (Representative work, Q1, IF=33.7) [LINK] | [PDF] | [Code] | [Report] | [Video]
[11] X. Du, J. Huang, J. Zhang, et al. Modulating Electronic Structures of Inorganic Nanomaterials for Efficient Electrocatalytic Water Splitting. Angewandte Chemie International Edition, 2019, 58(14): 4484-4502. (Citations: 419, Q1, IF=12.3) [LINK] | [PDF]
[10] W. Chen, Y. Hu, W. Lv, T. Lei, J. Huang, X. Du, et al. Lithiophilic montmorillonite serves as lithium ion reservoir to facilitate uniform lithium deposition. Nature Communications, 2019, 10(1):4973. (Citations: 160, Q1, IF=14.7) [LINK] | [PDF]
[9] A. Hu, W. Chen, X. Du, et al. An artificial hybrid interphase for an ultrahigh-rate and practical lithium metal anode. Energy & Environmental Science, 2021, 14(7): 4115-4124. (co-first author, Citations: 494, Q1, IF=32.4) [LINK] | [PDF]
[8] Y. Li, X. Du, J. Huang, et al. Recent progress on surface reconstruction of earth‐abundant electrocatalysts for water oxidation. Small, 2019, 15(35): 1901980. (co-first author, Citations: 215, Q1, IF=13.0) [LINK] | [PDF]
[7] X. Chen, T. Jiang, H. Wang, Y. Wang, M. Zhang, Xinchuan Du, et al. 2D Steep‐Slope Tunnel Field‐Effect Transistors Tuned by van der Waals Ferroelectrics. Advanced Electronic Materials, 2024, 2400463. [LINK] | [PDF]
[6] G. Rao, H. Fang, T. Zhou, C. Zhao, N. Shang, X. Du, et al. Robust piezoelectricity with spontaneous polarization in monolayer tellurene and multilayer tellurium film at room temperature for reliable memory. Advanced Materials, 2022, 34(35):2204697. [LINK] | [PDF]
[5] X. Chen, Y. Guo, X. Du, et al. Atomic structure modification for electrochemical nitrogen reduction to ammonia. Advanced Energy Materials, 2020, 10(3): 1903172. (co-first author) [LINK] | [PDF]
[4] H. Sun, M. Wang, X. Du, et al. Modulating the d-band center of boron doped single-atom sites to boost the oxygen reduction reaction. Journal of Materials Chemistry A, 2019, 7(36): 20952-20957. (co-first author) [LINK] | [PDF]
[3] K. Tang, C. Yan, X. Du, et al. Asymmetric Contacts on Narrow-Bandgap Black Phosphorus for Self-Driven Broadband Photodetectors. Advanced Optical Materials. 2024, 12, 2301350. [LINK] | [PDF]
[2] H. Wang, Y. Wang, Z. Zhao, X. Du, et al. Synergistic Enhancement Mechanism of High Electron Density and Localized Surface Plasmons for Strong Light-Matter Interactions. Advanced Electronic Materials. 2023, 9, 2300454. [LINK] | [PDF]
[1] M. Xu, X. Chen, Y. Guo, Y. Wang, D. Qiu, X. Du, et al. Reconfigurable Neuromorphic Computing: Materials, Devices, and Integration. Advanced Materials. 2023, 35, 2301063. [LINK] | [PDF]
Patents:
Patents Granted: 12; Technology Transfer: 1
[12] J. Xiong, H. Sun, X. Du, et al. A Perovskite Solar Cell and Its Preparation Method . Chinese invention patents, Publication No.: CN109768165A. [PDF]
[11] J. Xiong, H. Wang, X. Du, et al. A Preparation Method for a SERS Substrate Based on 2D Noble Metal Nanostructures. Chinese invention patents, Publication No.: CN112921276B. [PDF]
[10] J. Xiong, X. Du, Y. Guo, et al. An AC Electroplating Method for Nickel-Based Metal-Organic Framework Thin Films . Chinese invention patents, Publication No.: CN112048746B. [PDF]
[9] J. Xiong, Y. Guo, X. Du, et al. A rGO@Pd7Se2 Composite Nanomaterial and Its Preparation Method and Application. Chinese invention patents, Publication No.: CN112626546A. [PDF]
[8] J. Xiong, Y. Guo, X. Du, et al. A Coral-Like Pd4Se Compound and Its Preparation Method. Chinese invention patents, Publication No.: CN112573491A. [PDF]
[7] J. Xiong, J. Huang, X. Du, et al. A Porous Ni-N-O Nanoparticle Material and Its Preparation Method and Application. Chinese invention patents, Publication No.: CN109055974A. [PDF]
[6] C. Wu, X. Du, K. Wu, et al. A Carbide Catalytic Material with Noble Metal-Enriched Grain Boundaries and Its Preparation Method and Application. Chinese invention patents, Publication No.: CN118109848A. [PDF]
[5] J. Xiong, J. Huang, X. Du, et al. A Rhenium-Based Sulfide-Oxide Composite Nanomaterial and Its Preparation Method and Application. Chinese invention patents, Publication No.: CN112760678A. [PDF]
[4] J. Xiong, Z. Li, X. Du, et al. A Preparation Method for CsPb2Br5 Inorganic Perovskite Nanosheets. Chinese invention patents, Publication No.: CN107986323A. [PDF]
[3] X. Du, H. Cao. A Composite Catalyst and Its Preparation Method. Chinese invention patents, Publication No.: CN113897625B. [PDF]
[2] J. Xiong, H. Sun, X. Du, et al. A Method for Preparing Perovskite Thin Films Based on Anti-Solvent Dynamic Spin-Coating. Chinese invention patents, Publication No.: CN108682745B. [PDF]
[1] J. Xiong, H. Sun, X. Du, et al. A Perovskite Solar Cell Based on a Mesoporous Conductive Layer Substrate and Its Preparation Method. Chinese invention patents, Publication No.: CN108493345B. [PDF]
Conferences:
[3] X. Du, Y. Wang, Y. Cui, et al. A visual-near-infrared microspectrometer with dual-signal spectral reconstruction [C]. Earth & Space:from Infrared to Terahertz International Conference 2024, Hangzhou, China, 2024: ESIT2024-0813-1. (Best poster award) [Poser]
[2] X. Du, Y. Wang, Y. Cui, et al. Artificial Intelligence-Driven Optoelectronic Data Mining for Advanced High-Integration Multidimensional Sensing [C]. AI for Materials: 2024 Peking University “M-Talents” International Doctoral Students Academic Forum, Beijing, China, 2024. (Best oral award) [Abstract] | [Slides] | [Poser]
[1] X. Du, X. Wang, J. Xiong, et al. A visual-near-infrared microspectrometer with dual-signal spectral reconstruction [C]. Micro - and Nano-Optics Innovation Forum of Chinese Society of Microtechnology and Nanotechnology, 2024, Shanghai, China, 2024. (Invited report) [Abstract] | [Slides]
Projects
Research Projects:
[8] Participant, National Key R&D Program, Ministry of Science and Technology (2020.01–2023.12; Funding: 2 million RMB)
[7] Participant, Major Project of the 1xx Engineering Program, Military Science and Technology Committee (2023.05–2024.12; Funding: 45 million RMB)
[6] Participant, National Basic Research Program (973 Program), China (2023.05–2024.12; Funding: 2 million RMB)
[5] Principal Investigator, 2024 Open Project, National Key Laboratory of Infrared Detection (2024.08–Present; Funding: 200,000 RMB)
[4] Principal Investigator, Science and Technology Innovation Seedling Project, Sichuan Province (2019.10–2020.10; Funding: 100,000 RMB)
[3] Principal Investigator, Undergraduate Innovation and Entrepreneurship Program (2018.02–2018.09)
[2] Principal Investigator, Fundamental Research Project, Central Universities (2018.09–2019.04)
[1] Participant, 60th Anniversary Exhibition Project, University of Electronic Science and Technology of China (2016.05–2016.09)
Startup Projects:
● YanTuHui Scientific Services: Aiming to build a dynamic scientific skill-sharing community, YanTuHui offers expertise in scientific data visualization, conceptual diagram design, finite element analysis, advanced testing, and material characterization. Dedicated to empowering scientific research through innovation in visualization and knowledge dissemination to accelerate breakthroughs in frontier science. (WeChat platform: 17,000+ followers, 702 original posts; Bilibili platform: 15,000+ followers, 72 videos, over 600,000 total views, 250,000 saves; annual revenue exceeding 1 million RMB) [LINK]
Open-Source Projects
● Dual-spectral-reconstruction: Developed a high-resolution microspectrometer using a dual-signal algorithm for nm-scale spectral reconstruction. This project introduced a deep neural network for precise spectral data processing, along with automated instrument control scripts, achieving enhanced accuracy and efficiency for microscale spectroscopic analysis. [LINK] | [PDF] | [GitHub] | [Report] | [Video]
● Auto-Lab: A Python library designed for the automation of laboratory instrument communication and control, continuously maintained and updated. This library encompasses a wide range of commonly used photonic signal source, processing, and detection devices. It significantly contributes to the development and establishment of automated, high-throughput, and unattended laboratory environments. [GitHub]
● Auto-ElectroChemStation: A dedicated automation control and data analysis library for electrochemical workstations, now available in a released version. This project has undergone rigorous testing by numerous research groups, enhancing the efficiency of electrochemical measurements. [GitHub] | [Video1] | [Video2]
Honors and Awards
● National Scholarship Award (National Level)
● Second Prize, National Undergraduate Electronic Design Contest (Renesas Cup) (National Level)
● First Prize, Sichuan Provincial Undergraduate Electronic Design Contest (Texas Instruments Cup) (Provincial Level)
● National Scholarship Award (National Level)
● National Scholarship Award (National Level)
● Excellent Camper, Sunshine International Exchange Camp (Provincial Level)
● First Prize, Sichuan Provincial Undergraduate Electronic Design Contest (Renesas Cup) (Provincial Level)
● LiRen Scholarship, 7323 Fund (University Level)
● Merit Award, Electronics Design Competition (Texas Instruments Cup) (University Level)
● Outstanding Youth League Cadre, University of Electronic Science and Technology of China (University Level)
● Excellent Volunteer, 11th Social Culture Festival (University Level)
● Outstanding Volunteer, 60th Anniversary Celebration of University of Electronic Science and Technology of China (University Level)
● Volunteer, “Return to Chengdu” University Diary Program (University Level)
● Excellent Volunteer, “Youth Innovation” Contest (University Level)
● Outstanding Dormitory Award, “EVE Energy” (University Level)
● Merit Award, “Mengsheng Cup” Electronic Design Competition (University Level)
● Merit Award, “Tiger Cup” Electronic Design Competition (University Level)
● MicroDream Positive Energy Award, Highest Honor of the School of Microelectronics (School Level)
● Outstanding Student Scholarship, School of Microelectronics (School Level)
● First Prize, Electronics Design Contest, School of Microelectronics and Solid-State Electronics (School Level)
Outreach and Recognitions
Activities and Volunteering:
● Reviewer of Journal of Nature Communications, Nanoscale, Applied Catalysis B, etc,
● Program Committee Member of Nature Conference 2020, APOS 2024, CEECT 2023, ICAIT 2023, MNOIF2022, CPS 2021, etc.
Outreach:
● Annual UESTC Awards: Recognized as an Outstanding Student of UESTC [Link]
● School of Electronic Science and Engineering Annual Report: Featured for Achievements and Contributions [Link]
● National Scholarship Special Report by the School of Electronic Science and Engineering [Link1] | [Link2]
● Holistic Education Initiative: Featured in Special Report by UESTC’s School of Electronics [Link]
● Guest Speaker: Delivered a Speech Representing Awarded Students at the UESTC Student Awards Ceremony [Link]
● “Star of Microelectronics and Solid-State Electronics” Report: Recognized by the School of Microelectronics and Solid-State Electronics [Link]
● Admissions Representative for UESTC: Participated in UESTC Outreach and Recruitment Initiatives [Link]
● Invited Lecturer: Delivered Talk for the “Dongliang Engineering Liren Program” at UESTC [Link]