科研工作围绕高性能石墨炔类碳基材料的分子设计、精准合成与性能调控展开,研究领域涵盖材料化学、能源电化学等方向。主要研究内容包括:
1. 石墨炔功能碳材料的合成方法学创新与可控制备;
2. 电化学储能电极材料的结构设计与性能优化;
3. 聚合物固态电解质薄膜的功能化改性与界面工程研究。
(1) 姜超.Ether-oxygen chains modified graphdiyne for producing high-performance polymer solid-state electrolytes.CHEMICAL ENGINEERING JOURNAL.2026,528 :172145
(2) Enhanced Regional Electric Potential Difference of Graphdiyne Through Asymmetric Substitution Strategy Boosts Li+ Migration in Composite Polymer Solid-State Electrolyte.NANO-MICRO LETTERS.2025 (17)
(3) 王开航.Graphdiyne oxide in polymer electrolytes: Synergistic non-covalent interactions boosting Li-ion transport and LiF-rich solid electrolyte interface.Nano Today.2025 (64)
(4) 王开航.Fluoride Graphdiyne Enhances Polymer Electrolytes Through Regional Electric Potential Synergies for High-Performance Solid-State Lithium-Metal Batteries.small.2025 (21)
(5) 刘静怡.Island-Like Heterogeneous Interface Generating Tandem Toroidal Built-In Electric Field for Efficient Potassium Ions Diffusion.small.2024
(6) 张晓楠.The Accurate Synthesis of a Multiscale Metallic Interface on Graphdiyne.Small Methods.2024
(7) 张晓楠.Multiscale modification of graphdiyne-based electrodes and diffusion kinetics analysis of lithium ions.ELECTROCHIMICA ACTA.2024,479
(8) 王开航.Enhance the photocatalytic activity of fluoride graphdiyne/TiO2through introducing organic components.2D Materials.2023,10 (4)
(9) 张陆伟.One-dimensional benzo[1,2-b:4,5-b′]dithiophene-based graphdiyne for electrochemical adsorption of chloramphenicol.NEW JOURNAL OF CHEMISTRY.2023,47 (11):5150
(10) 张陆伟.Microcrystalline Nanofiber Electrode with Adaptive Intrinsic Structure and Microscopic Interface.small.2023
(11) 刘静怡.Adaptive Interfacial Contact between Copper Nanoparticles and Triazine Functionalized Graphdiyne Substrate for Improved Lithium/Sodium Storage.Advanced Functional Materials.2023
(12) 张陆伟.Diffusion Kinetics Study of Lithium Ion in the Graphdiyne Based Electrode.高等学校化学研究(英文版).2021,37 (6):1289
(13) 王开航.Enhance the photocatalytic activity of fluoride graphdiyne/TiO<sub>2</sub> through introducing organic components.2D Materials.2023,10 (4)
(14) 刘静怡.Preparation of triphenyl-amine graphdiyne with concomitant assembled morphology and its application for lithium-ion storage.2D Materials.2021 (8)
(15) 白灵.Acetylenic bond-driven efficient hydrogen production of a graphdiyne based catalyst.MATERIALS CHEMISTRY FRONTIERS.2021,5 (5):2247
(16) Chipeng Xie.Tuning the Properties of Graphdiyne by Introducing Electron‐Withdrawing/Donating Groups.ANGEWANDTE CHEMIE-INTERNATIONAL EDITION.2020
(17) Ning Wang.Graphdiyne-Based Materials: Preparation and Application for Electrochemical Energy Storage.ADVANCED MATERIALS.2019
(18) 王宁.Novel donor-acceptor polymers containing o-fluoro-p-alkoxyphenyl-substituted benzo[1,2-b:4,5-b']dithiophene units for polymer solar cells with power conversion efficiency exceeding 9%, Journal of Materials Chemistry A, 2016, 4(26), 10212-10222..Journal of Material Chemistry A.2016
(19) Fuhua Zhao.In situ growth of graphdiyne on arbitrary substrates with a controlled-release method. Chemical Communications, 2018, 54 (47), 6004-6007..chemical communications.2018,54 (47):6004
(20) 王宁.Synthesis of chlorine-substituted graphdiyne and applications for lithium-ion storage. Angewandte Chemie-International Edition, 2017, 56(36), 10740-10745..ANGEWANDTE CHEMIE-INTERNATIONAL EDITION.2017
(21) Jianjiang He.Hydrogen substituted graphdiyne as carbon-rich flexible electrode for lithium and sodium ion batteries. Nature Communications, 2017, 8(1), 1172..Nature Communications.2017
(22) 王宁.Preparation and structure study of phosphorus-doped porous graphdiyne and its efficient lithium storage.2D Materials.2019
(23) Jiani Xie.Graphdiyne Nanoparticles with High Free Radical Scavenging Activity for Radiation Protection. ACS applied materials & interfaces, 2019, 11(3), 2579-2590.ACS Applied Materials & Interfaces.2019,11 (3):2579
(24) 王宁.Synthesis, Electronic Structure of Boron-Graphdiyne with sp Carbon Skeleton and Its Application in Sodium Storage. Angewandte Chemie-International Edition, 2018, 57(15), 3968-3973..Angew Chem Ind Ed.2018
(25) 王宁.Easily-accessible fullerenol as a cathode buffer layer for inverted organic photovoltaic devices.RSC advances.2014
1. 石墨炔新概念氢能源转化体系, 2024-11-17-2027-12-31
2. 可逆性化学键链接的动态二维有机硅材料合成策略探索, 2022-04-25-2025-12-31
3. 石墨炔基高有序自组装体系的均相制备与性能调控, 2022-09-07-2026-12-31
