科研团队
美高梅在线官方 -> 科学研究 -> 科研团队 -> 科研团队 -> 正文

超细纤维功能材料—杜明亮团队

时间:2018-12-07点击数:


团队名称

超细纤维功能材料

团队负责人

杜明亮

团队成员

杜明亮,朱罕,陆双龙,段芳

团队介绍

课题组致力于设计和调控一维纳米材料的形貌、结构、光电性能,将其应用于电化学产氢、二氧化碳转化为有机烃、环境保护等领域。主要研究方向有:

(1)制氢和氢燃料电池催化材料与器件

氢能被视为最具发展潜力的清洁能源,利用一维纳米材料作为反应器和基体,设计、组装和调控光电催化制氢和氢燃料电池催化材料,涵盖催化材料的设计与组装、光电催化行为与机制、电极与器件的组装等。

2)二氧化碳电化学还原反应催化材料

利用电催化反应将二氧化碳转化为有机烃类是解决当前环境问题和能源危机的最佳解决方案之一。设计和制备二氧化碳电化学转变为有机烃纳米催化材料和器件,研究催化材料的设计和制备、机制等。

3)超细低维微纳材料

可控合成超细超薄金属纳米材料以及共价有机骨架材料等,研究它们在有机小分子催化转化,燃料电池电极催化反应(甲醇氧化,氧还原)等方面的应用。

4)环境监测与传感材料

基于纳米纤维或生物质材料构筑电化学传感与检测材料,然后用于环境监测、食品检测、重金属检测和电化学传感等。

科研成果

1.Meng Wan, Jiang Li, Tao Li, Han Zhu, Weiwei Wu, Mingliang Du*, Nitrogen anion-decorated cobalt tungsten disulfides solid solutions on the carbon nanofibers for water splitting,Nanotechnology, 2018, 29 (38), 385602.

2.Meng Wan, Han Zhu, SongGe Zhang, HaoNan Jin, YanKun Wen, LiNa Wang, Ming Zhang, Mingliang Du*, Building block nanoparticles engineering induces multi-element perovskite hollow nanofibers structure evolution to trigger enhanced oxygen evolution,Electrochimica Acta, 2018, 279, 301-310.

3.Han Zhu, Guohua Gao, Mingliang Du,* Jinhui Zhou, Kai Wang, Wenbo Wu,* Xu Chen, Yong Li, Piming Ma, Weifu Dong, Fang Duan, Mingqing Chen, Guangming Wu, Jiandong Wu, Haitao Yang, and Shaojun Guo*, Atomic-Scale Core/Shell Structure Engineering Induces Precise Tensile Strain to Boost Hydrogen Evolution Catalysis,Adv. Mater., 2018, 1707301.

4.Jiang Li, Meng Wan, Tao Li, Han Zhu, Zhenghuan Zhao, Zheng Wang, Weiwei Wu*, Mingliang Du*, NiCoSe2-x/N-doped C mushroom-like core/shell nanorods on N-doped carbon fiber for efficiently electrocatalyzed overall water splitting,Electrochimica Acta, 2018, 272, 161-168.

5.Li Gu, Han Zhu*, DanNi Yu, SongGe Zhang, Jiawei Chen, Juan Wang, Meng Wan, Ming Zhang, MingLiang Du*, A facile strategy to synthesis cobalt-based self-supported material for electrocatalytic water splitting,Part. Part. Syst. Char., 2017, 34 (10), 1700189.

6.Juan Wang, Han Zhu*, Danni Yu, JiaWei Chen, JiaDong Chen, Ming Zhang, LiNaWang, MingLiangDu*, Engineering the composition and structure of twin-like Au-Cu alloy nanoparticles in carbon nanofibers: Self-supported electrode materials for electrocatalytic water splitting,ACS Appl. Mater. Interfaces, 2017, 9(23), 19756-19765.

7.Han Zhu, Danni Yu, Songge Zhang, Jiawei Chen, Wenbo Wu, Meng Wan, Lina Wang, Ming Zhang, Mingliang Du*, Morphology and Structure Engineering in Nanofiber Reactor: Tubular Hierarchical Integrated Networks Composed of Dual Phase Octahedral CoMn2O4/carbon Nanofibers for Water Oxidation,Small, 2017, 13(26), 1700468.

8.Juan Wang, JiaWei Chen, JiaDong Chen, Han Zhu, Ming Zhang, Ming Liang Du*, Designed Synthesis of Size-Controlled Pt-Cu Alloy Nanoparticles Encapsulated in Carbon Nanofibers and Their High Efficient Electrocatalytic Activity Toward Hydrogen Evolution Reaction,Adv. Mater. Interfaces, 2017, 4 (12), 1700005.

9.Han Zhu, Li Gu, Danni Yu, Yingjun Sun, Meng Wan, Ming Zhang, Lei Wang, Lina Wang, Weiwei Wu, Juming Yao, Mingliang Du* and Shaojun Guo*, The marriage and integration of nanostructures with different dimensions for synergistic electrocatalysis,Energy Environ. Sci., 2017, 10, 321-330.

10.Hui Yang, Ting Zhang, Han Zhu, Ming Zhang, WeiWei Wu, MingLiang Du*, Synthesis of a MoS2(1?x)Se2xternary alloy on carbon nanofibers as the high efficient water splitting electrocatalyst,Int. J. Hydrogen Energ, 2017, 41 (47), 21870-21882.

11.Juan Wang, Han Zhu*, JiaDong Chen, Bin Zhang, Ming Zhang, LiNa Wang, MingLiang Du*, Small and well-dispersed Cu nanoparticles on carbon nanofibers: Self-supported electrode materials for efficient hydrogen evolution reaction,Int. J. Hydrogen Energ, 2016, 41, 18044-18049.

12.JiaDong Chen, DanNi Yu, WeiSha Liao, MengDan Zheng, LongFei Xiao, Han Zhu, Ming Zhang, MingLiang Du*, JuMing Yao, WO3-Xnanoplates grown on carbon nanofibers for an efficient electrocatalytic hydrogen evolution reaction,ACS Appl. Mater. Interfaces, 2016, 8, 18132-18139.

13.Bin Zhang, JiaDong Chen, Han Zhu, TingTing Yang, MeiLing Zou, Ming Zhang, MingLiang Du*, Facile and green fabrication of size-controlled AuNPs/CNFs hybrids for the highly sensitive simultaneous detection of heavy metal ions,Electrochim. Acta, 2016, 196, 422-430.

14.TingTing Yang, Ying Jiang, Meng Wan, Liang Dong, Han Zhu, Ming Zhang and MingLiang Du*, Highly efficient and durable PtCo alloy nanoparticles encapsulated in carbon nanofibers for electrochemical hydrogen generation,Chem. Commun., 2016, 52, 990-993.

15.MeiLing Zou, JiaDong Chen, LongFei Xiao, Han Zhu, TingTing Yang, Ming Zhang, MingLiang Du*, WSe2and W(SexS1-x)2nanoflakes grown on carbon nanofibers for the electrocatalytic hydrogen evolution reaction,J. Mater. Chem. A, 2015, 3, 18090-18097.

16.Meiling Zou, Ying Jiang, Meng Wan, Ming Zhang, Han Zhu, Tingting Yang, Mingliang Du*, Controlled morphology evolution of electrospun carbon nanofiber templated tungsten disulfide nanostructures,Electrochim. Acta, 2015, 176, 255-264.

17.Han Zhu?, JunFeng Zhang,?, RuoPing Yanzhang, MingLiang Du*, QingFa Wang*, Guohua Gao*, Jiandong Wu, Guangming Wu, Ming Zhang, Bo Liu, JuMing Yao, XiangWen Zhang, When cubic cobalt sulfide meets layered molybdenum disulfide: a core-shell system towards synergetic electrocatalytic water splitting,Adv. Mater., 2015, 27, 4752-4759.

18.MeiLing Zou, JunFeng Zhang, Han Zhu, MingLiang Du*, QingFa Wang*, Ming Zhang, XiangWen Zhang, 3D dendritic WSe2catalyst grown on carbon nanofiber mats for efficient hydrogen evolution,J. Mater. Chem. A,2015, 3, 12149-12153.

19.Tingting Yang, Mingliang Du*, Han Zhu, Ming Zhang, Meiling Zou, Immobilization of Pt nanoparticles in carbon nanofibers: bifunctional catalyst for hydrogen evolution and electrochemical sensor,Electrochim. Acta, 2015, 167, 48-54.

20.Pan Wang, Mingliang Du*, Han Zhu, Shiyong Bao, Tingting Yang, Meiling Zou, Structure regulation of silica nanotubes and their adsorption behaviors for heavy metal ions: pH effect, kinetics, isotherms and mechanism,J. Hazar. Mater., 2015, 286, 533-544.

21.Han Zhu, Fenglei Lyu, MingLiang Du*, Ming Zhang, Qingfa Wang, Juming Yao, Baochun Guo, The design of two-dimensional, ultra thin MoS2nanoplates fabricated within one-dimensional carbon nanofibers with thermo-sensitive morphology: High-performance electrocatalysts for the hydrogen evolution reaction,ACS Appl. Mater. Interfaces, 2014, 6 (24), 22126-22137.

22.Han Zhu, MingLiang Du*, Ming Zhang, MeiLing Zou, TingTing Yang, ShunLi Wang, JuMing Yao, BaoChun Guo, S-rich single-layered MoS2nanoplates embedded in N doped carbon nanofibers: efficient co-electrocatalysts for hydrogen evolution reaction,Chem. Commun., 2014, 50 (97), 15435-15438.

23.Shiyong Bao, Mingliang Du*, Ming Zhang, Han Zhu, Pan Wang, Tingting Yang, Meiling Zou, Fabrication of gold nanoparticles modified carbon nanofibers/polyaniline electrode for H2O2determination,J. Electrochem. Soc., 2014, 161 (12): H816-H821.

24.Shiyong Bao, MingLiang Du*, Ming Zhang, Han Zhu, Pan Wang, Tingting Yang, Meiling Zou, Facile fabrication of polyaniline nanotubes/gold hybrid nanostructures as substrate materials for biosensors,Chem. Eng. J., 2014, 258, 281-289.

25.Han Zhu, MingLiang Du*, Ming Zhang, MeiLing Zou, TingTing Yang, LiNa Wang, JuMing Yao, BaoChun Guo, Probing the unexpected behavior of AuNPs immigrating through the nanofibers: A new strategy for the fabrication of carbon nanofibers-noble metal nanocrystals hybrid nanostructures,J. Mater. Chem. A,2014, 2 (30), 11728-11741.

26.Han Zhu, MingLiang Du*, Ming Zhang, MeiLing Zou, TingTing Yang, YaQin Fu, JuMing Yao, The design and construction of 3D rose petal-shape MoS2hierarchical nanostructures with structure-sensitive properties,J. Mater. Chem. A,2014, 2 (21), 7680-7685.

27.Pan Wang, MingLiang Du*, Ming Zhang, Han Zhu, ShiYong Bao, MeiLing Zou, TingTing Yang, Facile fabrication of AuNPs/PANI/HNTs nanostructures for high-performance electrochemical biosensors,Chem. Eng. J., 2014, 248, 307-314.

28.Pan Wang, MingLiang Du*, Ming Zhang, Han Zhu, ShiYong Bao, The preparation of tubular heterostructures based on titanium dioxide and silica nanotubes and their photocatalytic activity,Dalton Trans., 2014, 43, 1846-1853.

29.Han Zhu, MingLiang Du*, Ming Zhang, Pan Wang, ShiYong Bao, YaQin Fu, JuMing Yao, Self-assembly of various Au nanocrystals on functionalized water-stable PVA/PEI nanofibers: A highly efficient surface-enhanced Raman scattering substrates with high density of “hot” spots,Biosens. Bioelectron., 2014, 54C, 91-101.

30.Han Zhu, MingLiang Du*, Ming Zhang, Pan Wang, ShiYong Bao, LiNa Wang, YaQin Fu, JuMing Yao, Facile fabrication of AgNPs/(PVA/PEI) nanofibers: high electrochemical efficiency and durability for biosensors,Biosens. Bioelectron., 2013, 49 (15), 210-215.

31.Han Zhu, MingLiang Du*, Ming Zhang, Pan Wang, ShiYong Bao, YaQin Fu, JuMing Yao, Facile and green fabrication of small, mono-disperse and size-controlled noble metal nanoparticles embedded in water-stable polyvinyl alcohol nanofibers: High sensitive, flexible and reliable materials for biosensors,Sensor Actuat. B-Chem., 2013, 185, 608-619.

32.Han Zhu, MingLiang Du*, DongLiang Yu, Yin Wang, LiNa Wang, MeiLing Zou, Ming Zhang, YaQin Fu, A new strategy for the surface-free-energy-distribution induced selective growth and controlled formation of Cu2O-Au hierarchical heterostructures with a series of morphological evolutions,J. Mater. Chem. A,2013, 1 (3), 919-929.

33.Han Zhu, MingLiang Du*, MeiLing Zou, CongSheng Xu, Ni Li, YaQin Fu, Facile and green synthesis of well-dispersed Au nanoparticles in PAN nanofibers by tea polyphenols,J. Mater. Chem.,2012, 22 (18), 9301-9307.

34.Han Zhu, MingLiang Du*, MeiLing Zou, CongSheng Xu, YaQin Fu, Green synthesis of Au nanoparticles immobilized on halloysite nanotubes for surface-enhanced Raman scattering substrates,Dalton Trans.,2012, 41, 10465-10471.

35.Han Zhu, MingLiang Du*, DongLiang Yu, Yin Wang, MeiLing Zou , CongSheng Xu, YaQin Fu, Selective growth of Au nanograins on specific positions (tips, edges and facets) of Cu2O octahedrons to form Cu2O-Au hierarchical heterostructures,Dalton Trans.,2012, 41, 13795-13799.

地址:江苏省无锡市蠡湖大道1800号

邮编:214122

联系电话:0510-85917090

服务邮箱:hgyb@jiangnan.edu.cn

XML 地图 | Sitemap 地图