Prof. Dr. Jie Yang | Neuromorphic Transistors | Women Researcher Award

Dr. Jie Yang is a Distinguished Research Fellow and Ph.D. Supervisor at Tongji University. 🌟 She earned her Ph.D. in Microelectronics from the University of Science and Technology of China and conducted postdoctoral research at the National University of Singapore. Her research focuses on flexible, self-powered wearable devices and intelligent sensors. 🧠🔋 Dr. Yang has authored over 22 high-impact publications and contributed to a renowned book chapter. 📘 She is a recipient of the Shanghai Overseas High-Level Talent Program. 🏅

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🎓 Early Academic Pursuits

Dr. Jie Yang’s academic journey reflects a solid foundation in materials science and nanoelectronics. She began her undergraduate studies in Inorganic Non-Metallic Materials Science and Engineering at Harbin University of Science and Technology (2008–2012). Driven by a passion for advanced materials, she pursued a Master’s in Condensed Matter Physics at Shanghai University and concurrently participated in a Joint Master’s Program at the Suzhou Institute of Nano-Tech and Nano-Bionics (CAS). Her academic excellence culminated in a Ph.D. in Microelectronics and Solid-State Electronics from the University of Science and Technology of China, under the guidance of Prof. Kai Zhang.

💼 Professional Endeavors

Following her doctorate, Dr. Yang advanced her research career as a Postdoctoral Research Fellow at the College of Engineering, National University of Singapore (2019–2022). She worked with globally recognized scholars including Prof. Po-Yen Chen, Prof. Kah-Wee Ang, and Prof. John Wang. In July 2022, she joined Tongji University’s School of Materials Science and Engineering as part of Prof. Jia Huang’s research team, where she currently serves as a Distinguished Research Fellow and Ph.D. Supervisor.

🔬 Contributions and Research Focus On  Neuromorphic Transistors

Dr. Yang is a pioneering researcher in next-generation self-powered wearable electronics, focusing on intelligent sensing, optoelectronic synaptic devices, photodetectors, and flexible sensors. Her innovative work integrates nanoelectronics, energy storage, and biomimetic design to revolutionize the interface between technology and human life. Her significant contributions extend to environmentally-friendly materials, such as metal-organic frameworks for batteries, showcasing a strong alignment with sustainability.

🌍 Impact and Influence

Recognized for her groundbreaking efforts, Dr. Yang was selected in 2021 for the Shanghai Overseas High-Level Talent Program, a prestigious accolade honoring internationally recognized researchers. Her research has been featured in top-tier journals such as Nature Communications, ACS Nano, and Advanced Energy Materials, affirming her influence in the fields of materials science and nano-device engineering.

🧠 Research Skills

Dr. Yang is proficient in nanomaterial synthesis, device fabrication, thin-film electronics, flexible circuits, and synaptic device engineering. Her skillset also includes electrochemical analysis, photonic characterization, and multiscale materials simulation, making her a versatile force in cutting-edge research domains. 🧫🔍

🏅 Awards and Honors

In 2021, Dr. Yang was selected as a recipient of the Shanghai Overseas High-Level Talent Program, a prestigious honor that acknowledges top-tier global researchers. Her exceptional academic and research credentials continue to earn accolades in the field of materials science. 🥇🇨🇳

🏛️ Legacy and Future Contributions

Dr. Jie Yang stands at the forefront of intelligent sensing and self-powered electronics, with her work contributing to the future of health-monitoring wearables, human-machine interfaces, and neuromorphic computing. As a rising leader in materials science, her future contributions are expected to shape sustainable and smart technologies that respond to the evolving demands of modern society. 🚀🧠🌿

Publications Top Notes

• 📘 Advanced Functional Materials
  Regulating dendrite‐free zinc deposition by 3D zincophilic nitrogen‐doped vertical graphene
  📊 Citations: 269 | 📅 Year: 2021

• ⚡ Advanced Energy Materials
  All‐solid‐state fiber supercapacitors with ultrahigh volumetric energy density
  📊 Citations: 242 | 📅 Year: 2019

• 🔬 ACS Nano
  Zn₃(OH)₂V₂O₇·2H₂O nanosheets stitched by CNTs for wearable Zn-ion batteries
  📊 Citations: 224 | 📅 Year: 2019

• ⚡ Advanced Energy Materials
  Aqueous rechargeable multivalent metal‐ion batteries: advances and challenges
  📊 Citations: 215 | 📅 Year: 2021

• 🧪 Chemical Engineering Journal
  Polyaniline-intercalated vanadium oxide for aqueous zinc-ion batteries
  📊 Citations: 199 | 📅 Year: 2020

• 🔋 Advanced Science
  Co₃O₄ Nano‐Micro Arrays as Cathode in Flexible Zn–Air Battery
  📊 Citations: 180 | 📅 Year: 2019

• ⚛️ Advanced Functional Materials
  CNT@3D Graphene Aerogel for high‐performance supercapacitors
  📊 Citations: 165 | 📅 Year: 2017

• 🔋 Nano Energy
  Ternary-doped holey graphene hydrogel electrodes
  📊 Citations: 154 | 📅 Year: 2018

• ⚡ Advanced Science
  CuCo₂S₄@N‐doped carbon nanofibers for Zn–Air batteries
  📊 Citations: 151 | 📅 Year: 2019

• 📏 Energy Storage Materials
  Stretchable coaxial-fiber strain sensor with supercapacitor
  📊 Citations: 128 | 📅 Year: 2020

• ⚡ Nano Energy
  MnOx-coated nanoporous collectors for supercapacitors
  📊 Citations: 119 | 📅 Year: 2016

• 🧪 Advanced Functional Materials
  Ti₃C₂Tₓ MXene Electrodes for high-capacitance microsupercapacitors
  📊 Citations: 117 | 📅 Year: 2020

• 🌐 Nature Communications
  Topographic design in MXene sensors with in-sensor ML
  📊 Citations: 113 | 📅 Year: 2022

• ⚡ Advanced Energy Materials
  Graphene-Li₂S Cathodes with stable modulated cycles
  📊 Citations: 112 | 📅 Year: 2015

• 🧲 Advanced Energy Materials
  MXene aerogels for EMI shielding, desalination & microsupercapacitors
  📊 Citations: 111 | 📅 Year: 2021

• ⚡ Advanced Energy Materials
  Ultrafast solid-state asymmetric fiber supercapacitors
  📊 Citations: 103 | 📅 Year: 2018

• 🧪 Journal of Materials Chemistry A
  2D ammonium vanadate nanosheets for Zn-ion batteries
  📊 Citations: 98 | 📅 Year: 2020