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成果及论文


主要获得项目:

国家自然科学基金项目 

(1)   国家自然科学基金委,面上项目,51471153,纳米空间限域还原场中铂基纳米晶高枝化结构形成机理及电催化特性研究,2015-012018-1285万,已结题

(2)   国家自然科学基金委,面上项目,51372227,规整分级微纳结构粒子及超双疏表面特效场研究,2014-012017-1280万,已结题

(3)   国家自然科学基金委,青年项目,21103152,基于内外面差异化构建的纳米管选择性原位填充技术及纳米空间限域反应场研究,2012-012014-1225万,已结题

(4)   国家自然科学基金委,面上项目,1001608-A,浮游植物仿生无机纳米反应器研究-自然力驱动自反应催化体系构建及原始细胞形成机理探索,2011-012013-1233万,已结题

(5)   国家自然科学基金委,青年项目,0801641-A,基于中空型核/壳结构纳米粒子的界面光催化协同反应场研究,2009-012011-1219万,已结题


浙江省自然科学基金项目

1)浙江省科技厅,重点项目,LZ22C100002,仿植物蒸腾效应的医用敷料系统构建及其持续定向导液特性研究,2022-012024-1230万,在研

2)浙江省自科技厅,青年项目,LQ22B010006,金属-有机框架基微纳马达Z轴运动调控及其应用研究,2022-012024-129万,在研

(3)   浙江省自科技厅,面上项目,LY20E020002,基于空气包均匀分布的超双疏表面构建规律特性研究,2020-012022-129万,在研

(4)   浙江省自科技厅,青年项目,LQ20B030001,三维开放式钴基纳米材料的可控制备及其水分解电催化性能研究,2020-012022-129万,在研

(5)   浙江省科技厅,计划公益性项目-重点,2015C33008,固定化生物技术在河道水体修复治理中的研究与应用,2016-012017-0650万,已结题

(6)   浙江省自科技厅,面上项目,LY14E020011,多层复合核壳中空粒子水热成壳机理探讨及协同催化反应场特性研究,2014-012016-129万,已结题

(7)   浙江省自科技厅,杰出青年项目,1001654-D,纳米仿生原始细胞构建-自然力驱动自反应催化体系研究及有机生命形成过程探索,2011-012013-1230万,已结题

(8)   浙江省科技厅,计划公益性项目,1201339-E,催化剂/载体非直接接触型内空间光催化材料制备及其在垃圾渗滤液处理中的应用,2012-072013-0615万,已结题

(9)   浙江省科技厅,创新团队项目,111129A4E12326/001TiO2光催化表面处理技术(浙江省产业用纺织材料技术科技创新团队子项目,2012-072013-127万,已结题

(10)   浙江省科技厅,面上项目,0801680-D,纳米核/壳结构中空粒子的界面光催化协同反应场净化污染水体的研究,2009-012011-128万,已结题

(11)   浙江省自科技厅,青年项目,Y406285,新型核-壳中空型界面光催化剂的性能研究,2007-012009-126万,已结题

 

获得科技奖励:

1)浙江省科技进步一等奖,浙江省人民政府,2011

      陈文兴; 吕汪洋; 姚玉元; 王晟; 王騊; 李楠

2)中国纺织工业协会科学技术进步一等奖,中国纺织工业协会,2011

      陈文兴; 吕汪洋; 姚玉元; 王晟; 胡智文; 王騊; 李楠

3)浙江省“十一五”自然科学基金优秀成果奖,优秀项目奖,浙江省科技厅, 2012

     王晟

4)浙江省“十一五”自然科学基金优秀成果奖,优秀论文奖,浙江省科技厅,2012

     王騊

5)浙江省环境保护科学技术三等奖,浙江省环保厅,2014

     王晟;王騊;欧阳申珅;童宁军;刘在昆;沈月明;杨鲁晋

6)第四届中国创新创业大赛,节能环保领域优胜奖,中国创新创业大赛组委会,2015

     王晟

7)第四届“两山杯”创新创业大赛领军人才一等奖,安吉县政府,2019

     王晟


2022年度:

1.      Lvlv Ji, Huifang Zheng, Yujie Wei, Shuaiqi Gong, Tao Wang, Sheng Wang* and Zuofeng Chen*, Temperature-controlled fabrication of Co-Fe-based nanoframes for efficient oxygen evolution. SCIENCE CHINA Materials, 2022 https://doi.org/10.1007/s40843-021-1743-7. (一区,TOP

2.      Zhiqi Wang , Tao Wang*, Zhicheng Zhang , Lvlv Ji, Lianjun Pan , Sheng Wang*, ZIF-67 grown on a fibrous substrate via a sacrificial template method for efficient PM2.5 capture and enhanced antibacterial performance. Separation and Purification Technology 2022, 80, 119814.(一区,TOP)

3.      Huiyu He, Lvlv Ji*, Yujie Wei, Chang Lv, Tao Wang, Sheng Wang*, Zuofeng Chen*, Superaerophobic copper-based nanowires array for efficient nitrogen reduction. Journal of Colloid and Interface Science 2022, 608, 1489–1496.(一区,TOP)

 

2021年度:

1.      Lvlv Ji, Yujie Wei, Pingru Wu, Mingze Xu, Tao Wang, Sheng Wang,* Qifeng Liang,* Thomas J. Meyer, and Zuofeng Chen*Heterointerface Engineering of Ni2P−Co2P Nanoframes for Efficient Water Splitting. Chem. Mater. 2021, 33, 9165−9173.(一区,TOP)

2.      Tao Wang, Xueying Jia, Chang Lv, Lvlv Ji, Yujie Wei, Zhicheng Zhang, Yinhu Gao, and Sheng Wang*, Multifunctional Textiles Based on Three-Dimensional Hierarchically Structured TiO2 Nanowires. ACS Appl. Mater. Interfaces 2021, 13, 27557−27566.(一区,TOP)

3.      Jiasen Zhang, Qiang Wei,* Nannan Fei, Mengyu Zhao, Lin Xie, Liang Cao, XiaoLi Zhang, Guohua Xie,* Tao Wang,* and Ziyi Ge*, Simple-Structured Blue Thermally Activated Delayed Fluorescence Emitter for Solution-Processed Organic Light-Emitting Diodes with External Quantum Efficiency of over 20%.  ACS Appl. Mater. Interfaces 2021, 13, 12305−12312.(一区,TOP)


2020年度:

(1)   T. Wang, C. Lv, L. Ji, X. He, S. Wang*, Designing Re-Entrant Geometry: Construction of a Superamphiphobic Surface with Large-Sized Particles, ACS Appl. Mater. Interfaces 202012, 49155-49164.(一区,TOP)

(2)   J. Zhang, Y. Bai, Q. Wei, L. Cao, T. Wang*, Z. Ge*, Efficient bipolar AIE emitters for high-performance nondoped OLEDs. J. Mater. Chem. C20208, 11771-1177.(一区,TOP)

(3)   Lvlv Ji*, H. Zheng, Y. Wei, Y. Fang, J. Du, T. Wang, S. Wang*, Formation of cobalt phosphide nanodisks as a bifunctional electrocatalyst for enhanced water splitting, Sustainable Energy & Fuels20204, 1616-1620. (二区)

(4)   Lvlv Ji*, H. Zheng, Y. Wei, Y. Fang, J. Du, T. Wang, S. Wang*, Ultrafine Mo2C Nanoparticles Decorated N-doped Carbon Nanofibers for Efficient Hydrogen Production, Sustainable Energy Fuels20204, 4800-4806. (二区)

(5)   S. Wang, B. Fan, C. Lv , X. Jia , T. Wang*, Influence of adhesives on the construction of a robust superamphiphobic surface, Journal of Alloys and Compounds2020831, 154741. (一区,TOP)

(6)   T. Wang, M. Zheng, L. Wang, L. Ji, S. Wang*, Crucial role of an aerophobic substrate in bubble-propelled nanomotor aggregation, Nanotechnology202031, 355504. (二区)

2019年度:

(1)   T. Wang, J. Zhang, Q. Hou, S. Wang*, Utilization of nutrient rich duckweed to create N, P Co-doped porous carbons for high performance supercapacitors, Journal of Alloys and Compounds2019771, 1009-1017. (一区,TOP)

(2)   Y. Ge, T. Wang*, M. Zheng, Z. Jiang, S. Wang*, Controlled one-sided growth of Janus TiO2/MnO2 nanomotors, Nanotechnology, 2019, 30, 315702.(二区)

2018年度:

(1)  L. Zhong,  T. Wang*, L. Liu, W. Du, S. Wang*, Ultra-fine SiO2 nanofilament-based PMIA: A double network membrane for efficient filtration of PM particles, Separation and Purification Technology2018202, 357-364. (一区,TOP)

(2) T. Wang, J. Zhang, Q. Hou, S. Wang*, Utilization of nutrient rich duckweed to create N, P Co-doped porous carbons for high performance supercapacitors, Journal of Alloys and Compounds2018771, 1009-1017. (一区,TOP)

(3) S. Ouyang, T. Wang, L. Zhong, M. Peng, J. Yao, S. Wang, Fabrication of hierarchical feather-mimetic polymer nanofibres, Applied Surface Science2018427, 471-479. (二区,TOP)

(4) T. Wang, Z. Dai, J. Kang, F. Fu, T. Zhang, S. Wang, A TiO2 nanocomposite hydrogel for Hydroponic plants in efficient water improvement, Materials Chemistry and Physics2018215, 242-250. (三区)

(5) S. Ouyang, T. Wang, L. Zhong, S. Wang, S. Wang, Utilization of surface differences to improve dyeing properties of poly(m-phenylene isophthalamide) membranes, Frontiers of Materials Science201812, 129-138. (三区)

2017年度:

(1) S. Wang*, Z. Jiang, S. Ouyang, Z. Dai, T. Wang*, Internally/Externally Bubble-Propelled Photocatalytic Tubular Nanomotors for Efficient Water Cleaning, ACS Appl. Mater. Interfaces20179, 23974-23982.(一区,TOP)

(2) W. Xu, T. Wang*, S. Wu, S. Wang*, N-doped carbon-coated MoS2 nanosheets on hollow carbon microspheres for high-performance lithium-ion batteries, Journal of Alloys and Compounds2017698, 68-76.(一区,TOP)

(3) S. Ouyang, T. Wang*, Y. Yu, B. Yang, J. Yao, S. Wang*, From Trans to Cis Conformation: Further Understanding the Surface Properties of Poly(mphenylene isophthalamide), ACS Omega20172, 290-298. 

(4) S. Wang*, S. Wu, J. Zhang, T. Wang*, One-step fabrication of recyclable and robust fluorine/polymer-free superhydrophobic fabrics, RSC Adv.20177, 24374-24381. 

(5) T. Wang, A. Yan, L. Zhong, S. Wang*, Fabrication of Robust Superhydrophobic Te@C-TiO2 Nanocomposites Coating for Application in Oil/Water Separation, Nano201712, 1750122. 

(6)  M. Peng, T. Wang*, Z. Jiang, S. Wang*, Surfactant-Free Synthesis of PdPt/rGO for the Alkaline Ethanol Oxidation Reaction, Nano201712, 1750105. 

2016年度:

(1)  T. Wang, W. Cui, M. Peng, S. Ouyang, S. Wang*, Template-free synthesis of multiple-shell MgO/Pt hollow spheres as enhanced electrocatalysts, J. Mater. Chem. A20164, 8584-8589. (一区,TOP)

(2)  T. Wang, J. Cui, S.Ouyang, W. Cui, S. Wang*, A new approach to understand the Cassie state of liquids on superamphiphobic materials, Nanoscale20168, 3031-3039. (一区,TOP)

(3)  S. Ouyang, T. Wang*, X. Jia, Y. Chen, J. Yao, S. Wang*, Self-indicating and recyclable superhydrophobic membranes for effective oil/water separation in harsh conditions, Materials and Design201696, 357-363. (二区,TOP)

(4)  W. Cui, T. Wang, A. Yan, S. Wang*, Superamphiphobic surfaces constructed by cross-linked hollow SiO2 spheres, Applied Surface Science2016400, 162-171.(二区,TOP)

(5)  W. Xu, T. Wang, Y. Yu, S. Wang*, Synthesis of core-shell TiO2@MoS2 composites for lithium-ion battery anodes, Journal of Alloys and Compounds2016689, 460-467. (一区,TOP)

(6)  M. Peng, W. Xu, W. Cui, T. Wang*, S. Wang*, One-pot fabrication of single-crystalline octahedral Pd-Pt nanocrystals with enhanced electrocatalytic activity for methanol oxidation, J Solid State Electrochem201721, 391-401. (二区)

2015年度:

(1)  T. Wang, R. Yang, S. Ouyang, H. Shi, S. Wang*, Light-induced synthesis of clean-surface PdPt@Pt core–shell nanoparticles with excellent electrocatalytic activity, RSC Adv.20155, 48992-48996.

(2)  H. Shi, S. Ouyang, M. Peng, T. Wang*, S. Wang*, Photocatalytic Template Synthesis of Pt Nanocages with Enhanced Electrocatalytic Performance, ECS Electrochemistry Letters20154, H38-H42.

(3) One-Pot Synthesis of Platinum Nanodendrites with Enhanced Catalytic Performance for Methanol Oxidation Reaction, S. Ouyang, L. Wang, J. Cui, H. Shi, T. Wang*, S. Wang*Nano, 2015, 10, 1550106.