Recently, the review results for the 2025 National Natural Science Foundation of China (NSFC) centralized application period were officially announced. School of Advanced Materials (SAM) at Peking University secured 10 projects with a total funding of 3.98 million yuan. These include 5 General Program projects and 5 Youth Science Fund projects (Category C). The approved projects span multiple cutting-edge fields, including new energy materials, smart materials, optoelectronic information materials, advanced functional materials, and energy chemical materials, reflecting the institute's deep expertise and strong competitiveness in academic research.
Number |
Project Topic |
Researcher |
Funding Source |
1 |
Research on Perovskite Scintillator-Sensitized Superconducting Nanowire Single-Photon X-Ray Detectors and Their Key Materials |
Ligang Wang |
General Program project |
2 |
Research on Carbon-Based Perovskite Photovoltaic-Electrolyzer Integrated Electro-Thermal Coupled Hydrogen Production |
Shihe Yang |
General Program project |
3 |
Study on Structural Phase Transitions and Electrically Induced Strain in Ferroelectric Thin Films |
Hao Pan |
General Program project |
4 |
Controlled Preparation and Optoelectronic Performance Tuning of Square Two-Dimensional Conjugated Polymer Crystalline Porous Materials |
Mingchao Wang |
General Program project |
5 |
Research on Multifield-Coupled Sensing AC Electroluminescent Materials and Devices |
Hong Meng |
General Program project |
6 |
Exploration of Chemical Imaging of Surface Impurities in Layered Sodium Battery Cathode Materials |
Xianqi Xu |
Youth Science Fund projects (Category C) |
7 |
Machine Learning-Enabled Controlled Synthesis of Low-Dimensional Semiconductors and Their Heterojunctions |
Ziwei Huang |
Youth Science Fund projects (Category C) |
8 |
Continuous Regulation and Device Applications of Bilayer MoS₂ Slip Ferroelectric Properties Based on Interface-Induced Unilateral Doping |
Qing Zhang |
Youth Science Fund projects (Category C) |
9 |
AI-Driven Design and Preparation of High-Strength, High-Toughness Carbon Nanotube/Heterocyclic Aramid Fibers |
Jiajun Luo |
Youth Science Fund projects (Category C) |
10 |
Construction and Flow Control Mechanism Study of Ultra-Low Permeability Oil Reservoir Hydrocarbon Polymer-scCO₂ Thickening Systems |
Ying Sun |
Youth Science Fund projects (Category C) |
The NSFC is a primary channel for supporting basic research and fostering scientific and technological innovation, serving as a key indicator of an institution's academic strength and innovative potential. In recent years, the SAM has aligned closely with national strategic needs and the forefront of materials science, systematically planning basic research. Through measures such as strengthening organized research, optimizing mechanisms for attracting and nurturing young talent, and improving project application services, the institute has cultivated a research ecosystem that encourages exploration and supports innovation.
This round of project approvals demonstrates both quantity and quality, fully showcasing the School's deep accumulation and continuous breakthroughs in cutting-edge fields, injecting new momentum into high-quality research development. Looking ahead, the SAM will further deepen organized research, promote the integration of basic research with interdisciplinary fields, and support faculty in tackling major scientific challenges and key core technologies through sustained efforts. The goal is to produce more landmark achievements with international impact, contributing greater strength to Peking University’s “Double First-Class” initiative and the nation’s pursuit of high-level scientific and technological self-reliance.
