北京航空航天大学,材料科学与工程成人a片,2005-2008,博士
近三年发表文章
1.Zhang, C., et al., Arrayed-Smart Bracelet with Dielectrically Enhanced Hydrophobicity for Swimming Instructions. Acs Applied Materials & Interfaces, 2025. 17(17): p. 25613-25622.
2.Wang, Y.F., et al., E-perlite@Graphene-Based Thermal Isolation Triboelectric Nanogenerator for Abnormal Engine Vibration Monitoring. Small, 2025.
3.Tao, Y., et al., Lotus leaf-inspired triboelectric sensor for detecting seismic transverse wave. Nano Energy, 2025. 135.
4.Sun Enqi, C.X., Wang Ning, Hydrogel-Based Triboelectric Nanogenerators: Current Progress and Future Perspectives. Advanced Functional Materials, 2025.
5.Shoaib, M., et al., Review of single-atom electrocatalysts for hydrogen and oxygen evolution reactions from water-splitting. Fuel, 2025. 390.
6.Rehman, H.U., et al., Density functional theory investigation on triboelectric nanogenerator: A comprehensive review. Sensors and Actuators A: Physical, 2025. 393: p. 116866.
7.Li, A.P., et al., Triboelectric Nanogenerator Drives Electrochemical Water Splitting for Hydrogen Production: Fundamentals, Progress, and Challenges. Small, 2025. 21(1).
8.Cheng, S.N., et al., Triboelectric nanogenerators based on antimicrobial, stretchable, and degradable copper-modified zinc imidazolate framework-8/chitosan composite films for sensitive medical care. Carbohydrate Polymers, 2025. 361.
9.An, Y.T., et al., From anti-counterfeit polymer materials to dual-mode visualization sensor based on triboelectric nanogenerator. Nano Energy, 2025. 141.
10.Zhu, Q.L., et al., Triboelectrically active and wettability-swichable magnetic textile for self-powered intelligent marine conservation. Chemical Engineering Journal, 2024. 498.
11.Xiang, H.J., et al., Carbon fibre reinforced triboelectric nanogenerator for self-powered sporting events monitoring. Nano Energy, 2024. 123.
12.Wu, T., et al., NdFeB-based magnetic triboelectric nanogenerator for enhanced bioenergy harvesting and tactile perception. Nano Energy, 2024. 128.
13.Wang, Y.F., X. Cao, and N. Wang, B 4 C/PVDF-based triboelectric nanogenerator: Achieving high wear-resistance and thermal conductivity. Tribology International, 2024. 197.
14.Tao, Y., et al., Spring Design of Triboelectric Nanogenerator with MXene-Modified Interface for Fluid Energy Harvesting and Water Level Monitoring. Acs Applied Materials & Interfaces, 2024. 16(3): p. 3406-3415.
15.Rehman, H.U., et al., A DFT investigation on halide double perovskites X2ScTlI6 (X= Rb, Cs) for thermoelectric and optoelectronic applications. Materials Today Communications, 2024. 40.
16.Mi, Y.J., et al., Mussel-inspired ionic hydrogel for tactile perception: Toward versatility, robustness and sustainability. Chemical Engineering Journal, 2024. 491.
17.Mi, Y.J., et al., Robust conductive hydrogel advances self-powered intelligent sports monitoring and fair judging. Chemical Engineering Journal, 2024. 500.
18.Liu, W.B., et al., High-Rate Nonaqueous Mg-CO2 Batteries Enabled by Mo2C-Nanodot-Embedded Carbon Nanofibers. Small, 2024. 20(7).
19.Ge, Y., et al., Triboelectrically active hydrogel drives self-charging zinc-ion battery and human motion sensing. Nano Energy, 2024. 126.
20.Zhu, X.Y., et al., Charge-Accumulation-Enhanced Triboelectric Nanogenerator with Multilayer Stacked Electrodes for Self-Powered Monitoring System. Acs Applied Electronic Materials, 2023. 5(11): p. 5898-5906.
21.Zheng, X.C., et al., Two-Dimensional Carbon Graphdiyne: Advances in Fundamental and Application Research. Acs Nano, 2023. 17(15): p. 14309-14346.
22.Xuan, Z.W., et al., Thermal-Driven Soft-Contact Triboelectric Nanogenerator for Energy Harvesting and Industrial Cooling Water Monitoring. Small, 2023. 19(8).
23.Lyu, C., et al., Dual Atoms (Fe, F) Co-Doping Inducing Electronic Structure Modulation of NiO Hollow Flower-Spheres for Enhanced Oxygen Evolution/Sulfion Oxidation Reaction Performance. Small, 2023. 19(38).
24.Lyu, C., et al., Manipulating the interaction of Pt NPs with N-hollow carbon spheres by F-doping for boosting oxygen reduction/methanol oxidation reactions. Journal of Materials Chemistry A, 2023. 11(8): p. 4319-4333.
25.Lyu, C., et al., Interfacial electronic structure modulation of Ni2P/Ni5P4 heterostructure nanosheets for enhanced pH-universal hydrogen evolution reaction performance. Chemical Engineering Journal, 2023. 464.
26.Lu, Y., et al., Constructing highly flexible dielectric sponge for enhancing triboelectric performance. Chemical Engineering Journal, 2023. 468.
27.Zhu, Z.Y., et al., Continuously harvesting energy from water and wind by pulsed triboelectric nanogenerator for self-powered seawater electrolysis. Nano Energy, 2022. 93.
28.Zhang, Z.H., et al., Paper triboelectric nanogenerator designed for continuous reuse and quick construction. Nano Research, 2022. 15(2): p. 1109-1114.
29.Zhang, R.J., et al., Nutshell Powder-Based Green Triboelectric Nanogenerator for Wind Energy Harvesting. Advanced Materials Interfaces, 2022. 9(21).
30.Zeng, Y.M., et al., Flexible triboelectric nanogenerator for human motion tracking and gesture recognition. Nano Energy, 2022. 91.
31.Yan, L.X., et al., Weaved piezoresistive triboelectric nanogenerator for human motion monitoring and gesture recognition. Nano Energy, 2022. 96.
32.Xiang, H.J., et al., From Triboelectric Nanogenerator to Multifunctional Triboelectric Sensors: A Chemical Perspective toward the Interface Optimization and Device Integration. Small, 2022. 18(43).
33.Xiang, H.J., et al., Flexible and highly sensitive triboelectric nanogenerator with magnetic nanocomposites for cultural heritage conservation and human motion monitoring. Nano Energy, 2022. 101.
34.Lyu, C.J., et al., Interfacial electronic structure modulation of CoP nanowires with FeP nanosheets for enhanced hydrogen evolution under alkaline water/seawater electrolytes. Applied Catalysis B-Environment and Energy, 2022. 317.
35.Lu, Q.X., et al., Intelligent facemask based on triboelectric nanogenerator for respiratory monitoring. Nano Energy, 2022. 91.
36.Chen, H., et al., Natural polymers based triboelectric nanogenerator for harvesting biomechanical energy and monitoring human motion. Nano Research, 2022. 15(3): p. 2505-2511.
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