2019论文

发布人：杨光智发布时间：2020-09-14 浏览次数:10

1. Bian, Z.; Xu, Y.; Yuan, T.; Peng, C.; Pang, Y.; Yang, J.; Zheng, S., Hierarchically Designed CNF/S-Cu/CNF Nonwoven Electrode as Free-Standing Cathode for Lithium-Sulfur Batteries. Batteries & Supercaps 2019,2 (6), 560-567.

2. Bian, Z.; Yuan, T.; Xu, Y.; Pang, Y.; Yao, H.; Li, J.; Yang, J.; Zheng, S., Boosting Li-S battery by rational design of freestanding cathode with enriched anchoring and catalytic N-sites carbonaceous host. Carbon 2019,150, 216-223.

3. Chen, A. Y.; Zhang, T. T.; Qiu, Y. J.; Wang, D.; Wang, P.; Li, H. J.; Li, Y.; Yang, J. H.; Wang, X. Y.; Xie, X. F., Construction of nanoporous gold/g-C3N4 heterostructure for electrochemical supercapacitor. Electrochimica Acta 2019,294, 260-267.

4. Chen, A. Y.; Zhu, L. L.; Sun, L. G.; Liu, J. B.; Wang, H. T.; Wang, X. Y.; Yang, J. H.; Lu, J., Scale law of complex deformation transitions of nanotwins in stainless steel. Nature Communications 2019,10.

5. Feng, N.; Meng, R.; Zu, L.; Feng, Y.; Peng, C.; Huang, J.; Liu, G.; Chen, B.; Yang, J., A polymer-direct-intercalation strategy for MoS2/carbon-derived heteroaerogels with ultrahigh pseudocapacitance. Nature Communications 2019,10.

6. Han, Z.; Ullah, S.; Zheng, G.; Yin, H.; Zhao, J.; Cheng, S.; Wang, X.; Yang, J., The thermal-to-electrical energy conversion in (Bi0.5Na0.5)(0.)94Ba0.06TiO3/graphene oxide heterogeneous structures. Ceramics International 2019,45 (18), 24493-24499.

7. Hao, T.; Liu, Y.; Liu, G.; Peng, C.; Chen, B.; Feng, Y.; Ru, J.; Yang, J., Insight into faradaic mechanism of polyaniline@NiSe2 core-shell nanotubes in high-performance supercapacitors. Energy Storage Materials 2019,23, 225-232.

8. Huang, M.; Tang, Z.; Yang, J., A new insight for the self-assembly of graphene oxide by hydrothermal method. Diamond and Related Materials 2019,94, 73-80.

9. Li, H.; Wu, X.; Cheng, K.; Miao, J.; Tang, Z.; Qiu, H.; Yang, J., Preparation of graphene oxide with large lateral size and graphene/polyimide hybrid film via in situ molecular welding strategy. Materials Letters 2019,237, 168-171.

10. Li, H.-J.; Zhang, D.; Wang, H.; Chen, Z.; Ou, N.; Wang, P.; Wang, D.; Wang, X.; Yang, J., Molecule-Driven Nanoenergy Generator. Small 2019,15 (3).

11. Li, J.; Hu, Y. R.; Qiu, H. X.; Yang, G. Z.; Zheng, S. Y.; Yang, J. H., Coaxial electrospun fibres with graphene oxide/PAN shells for self-healing waterborne polyurethane coatings. Progress in Organic Coatings 2019,131, 227-231.

12. Li, J.; Li, Z. W.; Feng, Q. K.; Qiu, H. X.; Yang, G. Z.; Zheng, S. Y.; Yang, J. H., Encapsulation of linseed oil in graphene oxide shells for preparation of self-healing composite coatings. Progress in Organic Coatings 2019,129, 285-291.

13. Li, K.; Guo, M.; Yan, Y.; Zhan, K.; Yang, J.; Zhao, B.; Li, J., Ultrasmall Co2P2O7 nanocrystals anchored on nitrogen-doped graphene as efficient electrocatalysts for the oxygen reduction reaction. New Journal of Chemistry 2019,43 (17), 6492-6499.

14. Li, Z. W.; Li, J.; Cui, J. C.; Qiu, H. X.; Yang, G. Z.; Zheng, S. Y.; Yang, J. H., Dispersion and parallel assembly of sulfonated graphene in waterborne epoxy anticorrosion coatings. Journal of Materials Chemistry A 2019,7 (30), 17937-17946.

15. Liu, D. S.; Li, H. J.; Lyu, B. W.; Cheng, S. D.; Zhu, Y. K.; Wang, P.; Wang, D.; Wang, X. Y.; Yang, J. H., Efficient performance enhancement of GaN-based vertical light-emitting diodes coated with N-doped graphene quantum dots. Optical Materials 2019,89, 468-472.

16. Lu, F.; Pang, Y.; Zhu, M.; Han, F.; Yang, J.; Fang, F.; Sun, D.; Zheng, S.; Wang, C., A High-Performance Li-B-H Electrolyte for All-Solid-State Li Batteries. Advanced Functional Materials 2019,29 (15).

17. Ma, Y.; Chen, A. Y.; Xie, X. F.; Wang, X. Y.; Wang, D.; Wang, P.; Li, H. J.; Yang, J. H.; Li, Y., Doping effect and fluorescence quenching mechanism of N-doped graphene quantum dots in the detection of dopamine. Talanta 2019,196, 563-571.

18. Pang, Y.; Wang, J.; Yang, J.; Fang, F.; Sun, D.; Zheng, S., Fully reversible lithium storage of tin oxide enabled by self-doping and partial amorphization. Nanoscale 2019,11 (27), 12915-12923.

19. Pang, Y.; Xu, Y.; Li, Y.; Xu, F.; Sun, L.; Yang, J.; Li, H.-W.; Zheng, S., Carbon/Sulfur Composites Stabilized with Nano-TiNi for High-Performance Li-S Battery Cathodes. Acs Applied Energy Materials 2019,2 (2), 1537-1543.

20. Peng, C.; Chen, H.; Zhong, G.; Tang, W.; Xiang, Y.; Liu, X.; Yang, J.; Lu, C.; Yang, Y., Capacity fading induced by phase conversion hysteresis within alloying phosphorus anode. Nano Energy 2019,58, 560-567.

21. Ruan, J.; Zhao, Y.; Luo, S.; Yuan, T.; Yang, J.; Sun, D.; Zheng, S., Fast and stable potassium-ion storage achieved by in situ molecular self-assembling N/O dual-doped carbon network. Energy Storage Materials 2019,23, 46-54.

22. Wan, K.; Wang, D.; Wang, F.; Li, H.; Xu, J.; Wang, X.; Yang, J., Hierarchical In2O3@SnO2 Core-Shell Nanofiber for High Efficiency Formaldehyde Detection. Acs Applied Materials & Interfaces 2019,11 (48), 45214-45225.

23. Wang, D.; Huang, S.; Li, H.; Chen, A.; Wang, P.; Yang, J.; Wang, X.; Yang, J., Ultrathin WO3 nanosheets modified by g-C3N4 for highly efficient acetone vapor detection. Sensors and Actuators B-Chemical 2019,282, 961-971.

24. Wang, D.; Tian, L.; Li, H.; Wan, K.; Yu, X.; Wang, P.; Chen, A.; Wang, X.; Yang, J., Mesoporous Ultrathin SnO2 Nanosheets in Situ Modified by Graphene Oxide for Extraordinary Formaldehyde Detection at Low Temperatures. Acs Applied Materials & Interfaces 2019,11 (13), 12808-12818.

25. Wang, D.; Wan, K.; Zhang, M.; Li, H.; Wang, P.; Wang, X.; Yang, J., Constructing hierarchical SnO2 nanofiber/nanosheets for efficient formaldehyde detection. Sensors and Actuators B-Chemical 2019,283, 714-723.

26. Wang, H. W.; Wang, D.; Tian, L.; Li, H. J.; Wang, P.; Ou, N. Q.; Wang, X. Y.; Yang, J. H., Graphene-Like Porous ZnO/Graphene Oxide Nanosheets for High-Performance Acetone Vapor Detection. Molecules 2019,24 (3).

27. Wang, Y.; Wang, P.; Zhu, Y.; Gao, J.; Gong, F.; Li, Q.; Xie, R.; Wu, F.; Wang, D.; Yang, J.; Fan, Z.; Wang, X.; Hu, W., High performance charge-transfer induced homojunction photodetector based on ultrathin ZnO nanosheet. Applied Physics Letters 2019,114 (1).

28. Wu, X.; Li, H.; Cheng, K.; Qiu, H.; Yang, J., Modified graphene/polyimide composite films with strongly enhanced thermal conductivity. Nanoscale 2019,11 (17), 8219-8225.

29. Wu, Y.; Zhan, K.; Yang, Z.; Sun, W.; Zhao, B.; Yan, Y.; Yang, J., Graphene oxide/Al composites with enhanced mechanical properties fabricated by simple electrostatic interaction and powder metallurgy. Journal of Alloys and Compounds 2019,775, 233-240.

30. Xu, Y.; Yan, Y.; He, T.; Zhan, K.; Yang, J. H.; Zhao, B.; Qi, K.; Xia, B. Y., Supercritical CO2-Assisted synthesis of NiFe2O4/vertically-aligned carbon nanotube arrays hybrid as a bifunctional electrocatalyst for efficient overall water splitting. Carbon 2019,145, 201-208.

31. Xu, Y.; Yuan, T.; Bian, Z.; Sun, H.; Pang, Y.; Peng, C.; Yang, J.; Zheng, S., Electrospun flexible Si/C@CNF nonwoven anode for high capacity and durable lithium-ion battery. Composites Communications 2019,11, 1-5.

32. Xu, Y.; Yuan, T.; Zhao, Y.; Yao, H.; Yang, J.; Zheng, S., Constructing Multichannel Carbon Fibers as Freestanding Anodes for Potassium-Ion Battery with High Capacity and Long Cycle Life. Advanced Materials Interfaces 2020,7 (3).

33. Yan, Y.; Xu, H.; Peng, C.; Zhang, P.; Yang, J.; Zheng, S., 3D phosphorus-carbon electrode with aligned nanochannels promise high-areal-capacity and cyclability in lithium-ion battery. Applied Surface Science 2019,489, 734-740.

34. Yang, G.; Song, S.; Li, J.; Tang, Z.; Ye, J.; Yang, J., Preparation and CO(2 )adsorption properties of porous carbon by hydrothermal carbonization of tree leaves. Journal of Materials Science & Technology 2019,35 (5), 875-884.

35. Yang, Z.; Peng, C.; Meng, R.; Zu, L.; Feng, Y.; Chen, B.; Mi, Y.; Zhang, C.; Yang, J., Hybrid Anatase/Rutile Nanodots-Embedded Covalent Organic Frameworks with Complementary Polysulfide Adsorption for High-Performance Lithium-Sulfur Batteries. Acs Central Science 2019,5 (11), 1876-1883.

36. Zhang, H.-J.; Geng, J.; Yao, S.; Wang, J.-c.; Ma, Z.-F.; Yang, J., Nature of Carbon Materials Used as Nondoped Electrodes for Oxygen Reduction Reaction and Supercapacitor Applications. Journal of the Electrochemical Society 2019,166 (2), F1-F8.

37. Zhang, P.; Peng, C.; Liu, X.; Dong, F.; Xu, H.; Yang, J.; Zheng, S., 3D Lithiophilic Hairy Si Nanowire Arrays @ Carbon Scaffold Favor a Flexible and Stable Lithium Composite Anode. Acs Applied Materials & Interfaces 2019,11 (47), 44325-44332.

38. Zhang, P.; Yuan, T.; Pang, Y.; Peng, C.; Yang, J.; Ma, Z.-F.; Zheng, S., Influence of Current Density on Graphite Anode Failure in Lithium-Ion Batteries. Journal of the Electrochemical Society 2019,166 (3), A5489-A5495.

39. Zhang, W.; Shi, T.; Zhang, Q.; Cao, Y.; Qian, H.; Wu, X.; Li, J.; Zhang, Q.; Yang, G.; Yang, J., Coke texture, reactivity and tumbler strength after reaction under simulated blast furnace conditions. Fuel 2019,251, 218-223.

40. Zhao, J.; Tang, Z.; Qiu, Y.; Gao, X.; Wan, J.; Bi, W.; Shen, S.; Yang, J., Porous crumpled graphene with improved specific surface area based on hydrophilic pre-reduction and its adsorption performance. Journal of Materials Science 2019,54 (11), 8108-8120.

41. Zhao, Y.; Ruan, J.; Luo, S.; Sun, H.; Pang, Y.; Yang, J.; Zheng, S., Rational Construction of a Binder-Free and Universal Electrode for Stable and Fast Alkali-ion Storage. Acs Applied Materials & Interfaces 2019,11 (43), 40006-40013.

42. Zhu, M.; Pang, Y.; Lu, F.; Shi, X.; Yang, J.; Zheng, S., In Situ Formed Li-B-H Complex with High Li-Ion Conductivity as a Potential Solid Electrolyte for Li Batteries. Acs Applied Materials & Interfaces 2019,11 (15), 14136-14141.

43. Zhu, X.; Shen, S.; Tang, Z.; Yang, J., Ti3+-doped TiO2@C nanorods with enhanced photocatalytic performance under visible light. Composite Interfaces 2020,27 (3), 263-275.