Research Directions

Integrated circuit (IC) equipment (process detection and equipment control) and emerging device circuits (spintronics and carbon-based electronics), including three key research areas as follows:

• Intelligent Control for Atomic-Level IC Manufacturing
  Aiming to address the core challenges of "inaccurate measurement and unstable control" in atomic-level IC manufacturing, he has developed a tripartite intelligent control framework integrating multi-physics field collaborative analysis, intelligent sensor fusion, and real-time feedback control. This framework provides innovative theories for breaking through the physical limits of precision sensing and control in extreme manufacturing. Based on this, he has supported the development of atomic-level precision thin film deposition-etching-detection technologies and equipment.

• Spin Regulation Mechanisms in Advanced Devices
  To tackle the issues of room-temperature effectiveness and miniaturization in current spin regulation mechanisms for devices, he has explored the intersection of spin-orbit electronics and valley-spintronics. He discovered a new mechanism for regulating spin precession using the Zeeman spin-orbit field, which shortened the spin flip channel from the international micron-scale standard to sub-nanometer scale—a major breakthrough. This achievement was praised by Nobel laureate Professor Albert Fert as an "exciting new concept" and was reported by the American Institute of Physics (AIP).

• Heterogeneous Qubit Coupling Based on NEMS
  Catering to the demand for atomic-scale multi-state information coupling and efficient heterogeneous qubit conversion, he has explored the charge (spin)-phonon heterogeneous qubit coupling mechanism based on high-performance devices. He developed a comprehensive scheme covering "qubit definition, propagation, manipulation, and conversion" and successfully realized the world’s smallest and most precise torsion balance. These systematic breakthroughs have been cited and reviewed in the authoritative journal Reviews of Modern Physics by leading scholars and have sustained attention in the field.

Academic Achievements & Projects

Publications & Patents

• In the past 5 years, he has published over 10 papers in top journals, including Applied Physics Reviews (cover article), Science Advances, Nano Research, and SCIENCE CHINA-Information Sciences.

• Has filed 18 Chinese invention patents (15 authorized) and holds 12 authorized U.S. invention patents (as the first inventor).

Funded Projects

He has presided over 16 projects and research tasks, including:

• General Program and Youth Program of the National Natural Science Foundation of China

• Project of the National Science and Technology Major Program

• Sub-project of the Basic Enhancement Program Technology Field Fund

• Sub-project of the Youth Scientist Program of the Ministry of Science and Technology

• General Program of the Beijing Natural Science Foundation

• Project of the Beijing Science and Technology Plan

Honors & Awards

• Beijing Science and Technology New Star (2022)

• Xiaomi Young Scholar (national fund award, 2024)

• Talent of the "Postdoctoral Innovation Talent Support Program" by the Ministry of Human Resources and Social Security (2018)

• Nominee for the Young Scientist Award of Microsystems & Nanoengineering

Graduate Recruitment

Recruiting master’s and doctoral students majoring in related fields such as microelectronics, physics, instrumentation, and automation.

Our research group focuses on cultivating talents for:

• Original innovation in post-Moore era device circuits

• Addressing the shortage of talents for independent development of IC equipment

We offer abundant resources for academic research, industrial collaboration, and international exchange, providing broad prospects and strong growth potential for students. Welcome to join us!