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2016年发表论文目录
时间:2017-01-01 浏览:
  

 

一、    单分子、分子组装及分子纳米器件

1.       Directed block copolymer self-assembly implemented via surface embedded electrets; Meiling Wu, Dong Wang*, Lijun Wan;

Nat. Commun., 2016, 7, 10752-10758

 

2.       Click and patterned functionalization of graphene by diels-alder reaction; Jing Li, Meng Li, Lili Zhou, Shuangyan Lang, Haiyan Lu, Dong Wang,* Chuan-Feng Chen,* and Lijun Wan*; J. Am. Chem. Soc., 2016, 138, 7448-7451

 

3.       Molecular conductance through a quadruple hydrogen bond bridged supramolecular junction; Lin Wang, Zhongliang Gong, Shuying Li, Wenjing Hong*, Yuwu Zhong*, Dong Wang*, and Lijun Wan;

Angew. Chem. Int. Ed.,2016, 50(40), 12393-12397

 

4.       Surface host–guest supramolecular assemblies on porphyrin-based covalent organic grids; Xuanhe Liu, Jieyu Yue, Yiping Mo, Yi Yao, Cheng Zeng, Ting Chen, Huijuan Yan, Zhaohui Wang, Dong Wang*, and Lijun Wan*;

J. Phys. Chem. C., 2016, 120, 15753-15757

 

5.       Enantiomeric excess-tuned 2D structural transition: from heterochiral to homochiral supramolecular assemblies; Shuying Li, Ting Chen, Lin Wang, Bing Sun, Dong Wang*, Lijun Wan*;

Langmuir, 2016, 32, 6830-6835

 

6.       Fabrication of bilayer tetrathiafulvalene integrated surface covalent organic frameworks; Weilong Dong, Shuying Li, Jieyu Yue, Cheng Wang, Dong Wang*, Lijun Wan*;

Phys. Chem. Chem. Phys., 2016, 18, 17356-17359

 

7.       Manifesting the sergeants-and-soldiers principle in coadsorber induced homochiral polymorphic assemblies at the liquid/solid interface; Shuying Li, Ting Chen, Jieyu Yue, Lin Wang, Huijuan Yan, Dong Wang*, Lijun Wan*;

Chem. Commun., 2016, 52, 12088-12091

 

8.       Turning off the majority-rules effect in two-dimensional hierarchical chiral assembly by introducing a chiral mismatch; Shuying Li, Ting Chen, Lin Wang, Dong Wang*, Lijun Wan*;

Nanoscale. 2016, 8, 17861-17868

 

9.       Self-assembly of a sulfur-bridged annulene: substrate effect and donor-acceptor complex; Zhenfeng Cai, Jieyu Yue, Jing Li, Dong Wang*, Wei Xu* and Lijun Wan*;

J. Electroanal Chem., 2016, 781, 20-23

 

10.    Microdomain orientation control of PS-b-PMMA film enabled by wettability relay of graphene; Meiling Wu, Dong Wang*;

RSC Adv., 2016, 6, 7527-7531

 

11.    Selective growth of covalent organic framework ultrathin films on hexagonal boron nitride; Bing Sun, Jing Li, Weilong Dong, Meiling Wu, Dong Wang*;

J. Phys. Chem. C., 2016, 120, 14706-14711

 

12.    Promoting visible light-driven hydrogen evolution over CdS nanorods using earth-abundant CoP as a cocatalyst; Dan Zhao, Bing Sun, Xiangqing Li, Lixia Qin, Shizhao Kang*, Dong Wang*;

RSC Adv., 2016, 6, 33120-33125

 

13.    Construction of boronate ester based single-layered covalent organic frameworks; Lei Yu, Zhibo Li, Dong Wang*;

Chem. Commun., 2016, 52, 13771-13774

 

14.    Construction of 2D nanoporous networks by coupling on-surface dynamic imine chemistry,and dipole-stabilized self-assembly, Jieyu Yue, Marios Markoulides, Andrew C. Regan, Shuying Li,Nikos Chronakis,e AndreGourdon,Ting Chen, Huijuan Yan and Dong Wang*;

Chem. Commun., 2017, 53, 428-431

 

15.    二维共价有机框架的设计、合成与应用, 孙兵, 莫依萍, 汪利梅, 岳婕妤, 王栋;*

中国科学: 化学, 2016 ,46( 10), 994 - 1006

 

二、    生物分子探针和纳米生物

16.    Hierarchical nanowire arrays as three-dimensional fractal nanobiointerfaces for high efficient capture of cancer cells; Feilong Zhang, Yan Jiang, Xueli Liu, Jingxin Meng, Pengchao Zhang, Hongliang Liu, Gao Yang, Guannan Li, Lei Jiang, Lijun Wan, Jinsong Hu*& Shutao Wang*;

Nano Lett., 2016, 16 (1), 766-772

 

17.    Single-molecule imaging reveals the activation dynamics of intracellular protein smad3 on cell membrane; Nan Li, Yong Yang, Kangmin He, Fayun Zhang, Libo Zhao, Wei Zhou, Jinghe Yuan, Wei Liang*, Xiaohong Fang*;

Sci. Rep., 2016, 6, 33469

 

18.    Single-molecule force spectroscopy study of the effect of cigarette carcinogens on thrombomodulin-thrombin interaction; Jianli Liu, Xuejie Zhang, Xiaofeng Wang, Li Xu, Jingyuan Li*, Xiaohong Fang*;

Sci Bull., 2016, 61, 1187-1194

 

19.    Super-resolution imaging and tracking of TGF-β receptor II on living Cells; Zi Ye, Nan Li, Libo Zhao, Yahong Sun, Hefei Ruan, Mingliang Zhang, Jinghe Yuan, Xiaohong Fang*;

Sci Bull., 2016, 61, 632-638

 

20.    Computational design of peptide-Au cluster probe for sensitive detection of aIIb β3 integrin; Lina Zhao, Jiao Zhai, Xuejie Zhang, Xueyun Gao*, Xiaohong Fang, Jingyuan Li*;

Nanoscale 2016, 7, 4203-4208

 

21.    Single-molecule imaging reveals the stoichiometry change of β2-adrenergic receptors by a pharmacological biased ligand; Yahong Sun, Nan Li, Mingliang Zhang, Wei Zhou, Jinghe Yuan, Rong Zhao, Jimin Wu, Zijian Li, Youyi Zhang*, Xiaohong Fang*;

Chem. Comm., 2016, 52,7086-7089

 

22.    Enhanced and differential capture of circulating tumor cells from lung cancer patients by micro fluidic assays using aptamer cocktail; Libo Zhao, Chuanhao Tang, Li Xu, Zhen Zhang, Xiaoyan Li, Haixu Hu, Si Cheng, Wei Zhou, Mengfei Meng, Anna Fong,  Bin Liu, Hsianrong Tseng*, Hongjun Gao*, Yi Liu*, Xiaohong Fang*;

Small., 2016, 12, 1072-1081

 

23.    Super-resolution optical subtraction microscopy using optical scattering imaging; Qian Zhou, Jianqiang Yu, Libo Zhao, Desheng Li, Kui Wu, Jianhua Zhu, Jinghe Yuan*, Xiaohong Fang; Acta Phys.-Chim.Sin., 2016,32,1123-1128

 

24.    Nanoscale distribution of transforming growth factor receptor on post-golgi vesicle revealed by super-resolution microscopy; Hefei Ruan, Jianqiang Yu, Jinghe Yuan, Nan Li, Xiaohong Fang*;

Chem-Asian J, 2016, 11, 3359-3364

 

25.    Nitrogen and sulfur codoped reduced graphene oxide as a general platform for rapid and sensitive fluorescent detection of biological species; Lu Chen, Liping Song, Yichi Zhang, Ping Wang, Zhidong Xiao*, Yuguo Guo, Feifei Cao*;

ACS Appl. Mater. Interfaces, 2016, 8, 11255-11261

 

26.    A versatile and clearable nanocarbon theranostic based on carbon dots and gadolinium metallofullerene anocrystals; Mirong Guan , Jie Li , Qingyan Jia , Jiechao Ge , * Daiqin Chen , Yue Zhou , Pengfei Wang ,Toujun Zou , Mingming Zhen , Chunru Wang , and Chunying Shu * ;

Adv. Healthcare Mater., 2016, 5, 2283–2294

 

27.    Fullerene/photosensitizer nanovesicles as highly efficient and clearable phototheranostics with enhanced tumor accumulation for cancer therapy; Mirong Guan, Jiechao Ge*, JingyiWu, Guoqiang Zhang, Daiqin Chen,Wei Zhang,Ying Zhang, Toujun Zou, Mingming Zhen, Chunru Wang, Taiwei Chu,Xiaojuan Hao,Chunying Shu, * M. Guan et al;

Biomaterials, 2016,103, 75-85

 

28.    Synergistic effect of human serum albumin and fullerene on Gd-DO3A for tumor-targeting imaging; Ying Zhang,Toujun Zou,Mirong Guan,Mingming Zhen,Daiqin Chen,Xiangping Guan,Hongbin Han,Chunru Wang, and Chunying Shu*;

ACS Appl. Mater. Interfaces, 2016, 8, 1124611254

 

三、 先进碳纳米材料

29.    Gd@C82-(ethylenediamine)8 nanoparticle: a new high-effciency water-soluble ROS scavenger; Jie Li, Mirong Guan, Taishan Wang, Fuwen Zhao, Mingming Zhen,* Chunying Shu and Chunru Wang*;

ACS Appl. Mater. Inter., 2016, 8 (39), 25770-25776

 

30.    Spin-paramagnet communication between Nitroxide Radical and Metallofullerene; Bo Wu, Yongjian Li, Li Jiang, Chunru Wang and Taishan Wang*;

J. Phys. Chem. C, 2016, 120 (11), 6252-6255

 

31.    A water-soluble gadolinium metallofullerenol: facile preparation, magnetic properties and magnetic resonance imaging application; Jie Li, Taishan Wang,* Yongqiang Feng, Ying Zhang, Mingming Zhen, Chunying Shu, Li Jiang, Yuqing Wang and Chunru Wang*;

Dalton Trans., 2016,45(21), 8696-8699

 

32.    Controlling the magnetic properties of dysprosium metallofullerene within metal-organic framework; Yongjian Li, Taishan Wang,* Haibing Meng, Chong Zhao, Mingzhe Nie, Li Jiang, Chunru Wang*;

 Dalton Trans., 2016, 45, 19226-19229

 

33.    Fabrication of C60 tri-diethyl malonate membrane via an electrospinning method and its antibacterial property; Hui Li, Shou Chen, Xiaohua Chen, Jiangning Sun, Chunying shu, Li Jiang, Chunru Wang.

J. Nanosci. Nanotech., 2016, 16(3), 2504-2508

 

34.    Spatial aromatic fences of metal-organic frameworks for manipulating the electron spin of a fulleropyrrolidine nitroxide radical; Jiamei Cao, Yongqiang Feng*, Shengju Zhou, Xiaofeng Sun, Taishan Wang, JChunru Wang, Hongguang Li;

Dalton Trans., 2016, 45(28), 11272-11276

 

35.    The synthesis of mesoporous carbon and its potential in catalysis; Xijie Lin, Rongwen Lv, Anmin Cao;

Sci. China Chem., 2016,10(46),1126-1130

 

四、 环境保护纳米材料

36.    Selective adsorption of arsenate and the reversiblestructure transformation of the esoporous

metalorganic framework MIL-100(Fe); Jianhua Cai, Xueyun Wang, Yue Zhou, Li Jiang* and Chunru Wang;

Phys. Chem. Chem. Phys., 2016, 18(16), 10864-10867

 

37.    Nitrogen, phosphorus, and sulfur co-doped hollow carbon shell as superior metal-free catalyst for selective oxidation of aromatic alkanes; Shuliang Yang, Li Peng, Peipei Huang, Xiaoshi Wang, Yongbin Sun, Changyan Cao* and Weiguo Song*;

Angew. Chem. Int. Ed., 2016, 55, 4016-4020

 

38.    Nitrogen, phosphorus and sulfur co-doped ultrathin carbon nanosheet as a metal-free catalyst for selective oxidation of aromatic alkanes and oxygen reduction reaction; Yanan Zhu, Changyan Cao*, Wenjie Jiang, Shuliang Yang, Jinsong Hu, Weiguo Song* and Lijun Wan*;

J. Mater. Chem. A, 2016, 4, 18470-18477

 

39.    Polymerized fullerene hollow spheres bonded with TEMPO as a stable heterogeneous catalyst for partial oxidation of alcohols; Yongbin Sun, Changyan Cao*, Fang Wei, Peipei Huang, Shuliang Yang, Weiguo Song*;

Sci. Bull., 2016, 61, 772-777

 

40.    Surfactant-free palladium nanoparticles encapsulated in ZIF-8 hollow nanospheres for size-selective catalysis in liquid-phase solution; Xiaoshi Wang, Mingyu Li, Changyan Cao*, Chang Liu, Jian Liu, Yanan Zhu, Sidi Zhang and Weiguo Song*;

ChemCatChem., 2016, 8, 3224-3228

 

41.    Preparation of magnetic tubular nanoreactors for highly efficient catalysis; Shuliang Yang, Li Peng, Changyan Cao*, Fang Wei, Jian Liu, Yanan Zhu, Chang Liu, Xiaoshi Wang, and Weiguo Song*;

Chem. Asian J., 2016, 11, 2797-2801

 

42.    Pd nanoparticles encapsulated in a silicalite-1 zeolite shell for size-selective catalysis in liquid-phase solution; Chang Liu, Jian Liu, Shuliang Yang, Changyan Cao* and Weiguo Song*;

ChemCatChem., 2016, 7, 1279-1281

 

43.    A Pd–Cu2O nanocomposite as an effective synergistic catalyst for selective semi-hydrogenation of the terminal alkynes only; Shuliang Yang, Changyan Cao*, Li Peng, Jianling Zhang, Buxing Han and Weiguo Song*;

Chem. Commun., 2016, 52, 3627-3630  

 

44.    Spindle-shaped nanoscale yolk/shell magnetic stirring bars for heterogeneous catalysis in macro- and microscopic systems; Shuliang Yang, Changyan Cao*, Li Peng, Peipei Huang, Yongbin Sun, Fang Wei and Weiguo Song*;

Chem. Commun., 2016, 52, 1575-1578

 

45.    Hierarchical flowerlike magnesium oxide hollow spheres with extremely high surface area for adsorption and catalysis; Shuliang Yang, Peipei Huang, Li Peng, Changyan Cao*, Yanan Zhu, Fang Wei, Yongbin Sun, and Weiguo Song*;

J. Mater. Chem.A, 2016, 4, 400-406

46.    Flowerlike WSe2 and WS2 microspheres: one-pot synthesis, formation mechanism and application in heavy metal ion sequestration; Wei Li, Dehong Chen, Fang Xia, Jeannie Z. Y. Tan, Jingchao Song, Weiguo Song and   Rachel A. Caruso*;

Chem. Commun., 2016, 52, 4481-4484

 

47.    Extremely high arsenic removal capacity for mesoporous aluminium magnesium oxide composites, Environ; Wei Li, Dehong Chen, Fang Xia, Jeannie Z. Y. Tan, Peipei Huang, Weiguo Song, Natalita M. Nursam and Rachel A. Caruso*;

Environ. Sci.: Nano., 2016, 3, 94-106

 

48.    Mesoporous silica coating on hierarchical flowerlike Fe2O3 with enhanced catalytic activity for Fenton-like reaction; Zhimin Cui,* Jing Hao, Jian Liu and Weiguo Song*;

RSC Adv., 2016, 6, 74545-74549

 

49.    A Pd/silica composite with highly uniform Pd nanoparticles on silica lamella via layered silicate; Jing Hao, Zhimin Cui*, Changyan Cao, Weiguo Song*;

Chem. Phys. Lett., 2016, 658, 88-91

 

50.    Vanadium nanobelts coated nickel foam 3D bifunctional electrode with excellent catalytic activity and stability for water electrolysis; Yu Yu, Pei Li, Xiaofang Wang, Wenyu Gao, Zongxu Shen, Yanan Zhu, Shuliang Yang, Weiguo Song* and   Kejian Ding*;

Nanoscale., 2016,8, 10731-10738

 

51.    Hydrophobicity and hydrophilicity balance determines shape selectivity of suzuki coupling reactions inside Pd@meso-SiO2 Nanoreactor; Yuejie Ai, Xin Li, Yongfei Ji, Wei-Guo Song*, and Yi Luo*.

J. Phys. Chem. C, 2016, 120, 10244-10251

 

52.    Sharp size-selective catalysis in a liquid solution over Pd nanoparticles encapsulated in hollow silicalite-1 zeolite crystals; Fangfang Wei, Jian Liu, Qiuyun Zhang, Yutao Zhang, Xing Zhang, Changyan Cao and Weiguo Song*;

RSC Adv., 2016, 6, 89499-89502

 

五、 能量转换与存储材料及器件

53.    Self-Doped and Crown-Ether Functionalized Fullerene as Cathode Buffer Layer for Highly-Efficient Inverted Polymer Solar Cells; Fuwen Zhao, Zhen Wang, Jianqi Zhang, Xiangwei Zhu, Yajie Zhang, Jin Fang, Dan Deng, Zhixiang Wei,* Yongfang Li, Li Jiang, and Chunru Wang*;

Adv. Energy Mater,, 2016, 6(9), 1502120

 

54.    Suppressing the P2–O2 phase transition of Na0.67Mn0.67Ni0.33Oby magnesium substitution for improved sodium-ion batteries; Pengfei Wang, Ya You, Yaxia Yin, Yuesheng Wang, Lijun Wan, Lin Gu,* Yuguo Guo*;

Angew. Chem. Int. Ed., 2016, 55,7445-7449

 

55.    General space-confined on-substrate fabrication of thickness-adjustable hybrid perovskite single-crystalline thin films; Yaoxuan Chen, Qianqing Ge, Yang Shi, Jie Liu, Dingjiang Xue, Jingyuan Ma, Jie Ding, Huijuan Yan, Jinsong Hu*& Lijun Wan*;

J. Am. Chem. Soc.,2016, 138, 16196-16199

 

56.    Understanding the high activity of Fe–N–C electrocatalysts in oxygen reduction: Fe/Fe3C nanoparticles boost the activity of Fe–Nx; Wenjie Jiang, Lin Gu, Li Li, Yun Zhang, Xing Zhang, Linjuan Zhang, Jianqiang Wang, Jinsong Hu*, Zidong Wei*& Lijun Wan*;

J. Am. Chem. Soc.,2016, 138, 3570-3578

 

57.    Reshaping lithium plating/stripping behavior via bifunctional polymer electrolyte for room-temperature solid Li metal batteries; Xianxiang Zeng, Yaxia Yin, Nianwu Li, Wencheng Du, Yuguo Guo*, Lijun Wan;

J. Am. Chem. Soc., 2016, 138, 15825-15828

 

58.    General synthetic strategy for hollow hybrid microspheres through a progressive inward crystallization process; Liping Yang, Xijie Lin, Xing Zhang, Wei Zhang, Anmin Cao*, Lijun Wan*;

J. Am. Chem. Soc., 2016, 138, 5916-5922

 

59.    Sulfur encapsulated in graphitic carbon nanocages for high-rate and long-cycle lithium-sulfur batteries; Jun Zhang, Chunpeng Yang, Yaxia Yin, Lijun Wan, Yuguo Guo*;

Adv. Mater., 2016, 28, 9539-9544

 

60.    An artificial solid electrolyte interphase layer for stable lithium metal anodes; Nianwu Li, Yaxia Yin, Chunpeng Yang, Yuguo Guo*;

Adv. Mater., 2016, 28, 1853-1858

 

61.    Subzero-temperature cathode for a sodium-ion battery; Ya You, Hurong Yao, Sen Xin, Yaxia Yin, Tongtong Zuo, Chunpeng Yang, Yuguo Guo,* Yi Cui,* Lijun Wan, John B. Goodenough*;

Adv. Mater., 2016, 28, 7243-7348

 

62.    Pomegranate-like N,P-Doped Mo2C@C nanospheres as highly active electrocatalysts for alkaline hydrogen evolution; Yuyun Chen, Yun Zhang, Wenjie Jiang, Xing Zhang, Zhihui Dai*, Lijun Wan & Jinsong Hu*;

ACS Nano., 2016, 10 (9), 8851-8860

 

63.    Cobalt carbide nanoprisms for direct production of lower olefins from syngas; Liangshu Zhong,* Fei Yu, Yunlei An, Yonghui Zhao, Yuhan Sun,* Zhengjia Li, Tiejun Lin, Yanjun Lin, Xingzhen Qi, Yuanyuan Dai, Lin Gu, Jinsong Hu, Shifeng Jin, Qun Shen & Hui Wang;

Nature.,2016, 538 ,84-87

 

64.    Zn–Cu–In–Se quantum dot solar cells with a certified power conversion efficiency of 11.6%; Jun Du, Zhonglin Du, Jin-Song Hu, Zhenxiao Pan, Qing Shen, Jiankun Sun, Donghui Long, Hui Dong, Litao Sun, Xinhua Zhong*& Lijun Wan;

J. Am. Chem. Soc.,2016, 138 (12), 4201-4209

 

65.    The application of fullerene-based interfacial materials in polymer solar cells; Fuwen Zhao, Li Jiang, Chunru Wang;

Sci.China Chem., 2016,46(10),961-972

 

66.    Rational design and electron transfer kinetics of MoS2/CdS nanodots-on-nanorods for efficient visible-light-driven hydrogen generation; Xingliang Yin, Guiying He, Bing Sun, Wenjie Jiang, Dingjiang Xue, Andong Xia, Lijun Wan & Jinsong Hu*;

Nano Energy.,2016, 28, 319-329

 

67.    MoS2/CdS Nanosheets-on-nanorod heterostructure for highly efficient photocatalytic H2 generation under visible light irradiation; Xingliang Yin, Leilei Li, Wenjie Jiang, Yun Zhang, Xiang Zhang, Lijun Wan & Jinsong Hu*;

ACS Appl. Mater. Interfaces.,2016, 8 (24), 15258-15266

 

68.    Solvent-assisted preparation of high-performance mesoporous CH3NH3PbI3 perovskite solar cells; Zhihua Li, Jie Liu, Jingyuan Ma, Yan Jiang, Qianqing Ge, Jie Ding, Jinsong Hu*& Lijun Wan;

J. Nanosci. Nanotechnol., 2016, 16 (1), 844-850

 

69.    Promoting crystalline grain growth and healing pinholes by water vapor modulated post-annealing for enhancing the efficiency of planar perovskite solar cells; Qianqing Ge, Jie Ding, Jie Liu, Jingyuan Ma, Yaoxuan Chen, Xiaoxin Gao, Lijun Wan & Jinsong Hu*;

J. Mater. Chem. A., 2016, 4 (35), 13458-13467

 

70.    Sodium chloride-assisted green synthesis of a 3D Fe-N-C hybrid as a highly active electrocatalyst for the oxygen reduction reaction; Yun Zhang, Linbo Huang, Wenjie Jiang, Xing Zhang, Yuyun Chen, Zidong Wei*, Lijun Wan & Jinsong Hu*;

J. Mater. Chem. A., 2016, 4(20), 7781-7787

 

71.    Tuning the Fermi-level of TiO2 mesoporous layer by lanthanum doping towards efficient perovskite solar cells; Xiaoxin Gao, Qianqing Ge, Dingjiang Xue, Jie Ding, Jingyuan Ma, Yaoxuan Chen, Bao Zhang, Yaqing Feng*, Lijun Wan & Jinsong Hu*;

Nanoscale., 2016, 8, 16881-16885

 

72.    Co@N-CNTs derived from triple-role CoAl-layered double hydroxide as an efficient catalyst for oxygen reduction reaction; Shilin Zhang, Yun Zhang, WenJie Jiang, Xin Liu, Sailong Xu*, Ruijie Huo, Fazhi Zhang & Jin-Song Hu*;

Carbon., 2016, 107, 162-170

 

73.    Controlling the cavity structures of two-photon-pumped perovskite microlasers; Wei Zhang, Lan Peng, Jie Liu, Aiwei Tang, Jinsong Hu, Jiannian Yao & Yong Sheng Zhao*;

Adv. Mater.,2016, 28 (21), 4040-4046

 

74.    Post-annealing of MAPbI3 perovskite films with methylamine for efficient perovskite solar cells Yan Jiang, Emilio J. Juarez-Perez, Qianqing Ge, Shenghao Wang; Matthew R. Leyden, Luis K. Ono, Sonia R. Raga, Jinsong Hu & Yabing Qi*;

Mater. Horiz., 2016, 6(3), 548-555

 

75.    Watermelon-inspired Si/C microspheres with hierarchical buffer structures for densely compacted lithium-ion battery anodes;Quan Xu, Jinyi Li, Jiankun Sun, Yaxia Yin, Lijun Wan, Yuguo Guo*;

Adv. Energy Mater.,  2016, 6, 1601481

 

76.    Enhancing the kinetics of Li-rich cathode material through the pinning effects of gradient surface Na+ doping; Renpeng Qing, Jilei Shi, Dongdong Xiao, Xudong Zhang, Yaxia Yin, Yunbo Zhai*, Lin Gu*, Yuguo Guo*;

Adv. Energy Mater., 2016, 6, 1501914.

 

77.    The electrochemistry with lithium versus sodium of selenium confined to slit micropores in carbo; Sen Xin, Le Yu, Ya You, Huaiping Cong, Yaxia Yin, Xueli Du, Yuguo Guo*, Shu Hong Yu, Yi Cui*, John B. Goodenough*;

Nano Lett., 2016, 16, 4560-4568

 

78.    Mitigating voltage decay of Li-rich cathode material via increasing Ni-content for lithium-ion batteries, Jilei Shi, Jienan Zhang, Min He, Xudong Zhang, Yaxia Yin, Hong Li, Yuguo Guo,* Lin Gu,* Lijun Wan*;

ACS Appl. Mater. Interfaces, 2016, 8, 20138-20146

 

79.    An O3-type NaNi0.5Mn0.5O2 cathode for sodium-ion batteries with improved rate performance and cycling stability; Pengfei Wang, Ya You, Yaxia Yin*, Yuguo Guo*;

J. Mater. Chem. A, 2016, 4, 17660-17664

 

80.    Nano/micro-structured Si/C anodes with high initial coulombic efficiency in Li-ion batteries; Quan Xu, Jinyi Li, Yaxia Yin, Yiming Kong, Yuguo Guo*, Lijun Wan;

Chem-Asian J., 2016, 11, 1205-1209

 

81.    Sulfur confined in sub-nanometer-sized 2D graphene interlayers and its electrochemical behaviour in Lithium-sulfur batteries; Wencheng Du, Juan Zhang, Yaxia Yin, Yuguo Guo*, Lijun Wan*;

Chem-Asian J., 2016, 11, 2690-2694

 

82.    Rechargeable dual-metal-ion batteries for advanced energy storage; Hurong Yao, Ya You, Yaxia Yin, Lijun Wan, Yuguo Guo*;

Phys. Chem. Chem. Phys., 2016, 18, 9326-9333

 

83.    Wet chemistry synthesis of multidimensional nanocarbon?sulfur hybrid materials with ultrahigh sulfur loading for lithium?sulfur batteries; Wencheng Du, Yaxia Yin, Xianxiang Zeng, Jilei Shi, Shuaifeng Zhang, Lijun Wan*, Yuguo Guo*;

ACS Appl. Mater. Interfaces, 2016, 8, 3584-3590

 

84.    Passivation of lithium metal anode via hybrid ionic liquid electrolyte toward stable Li plating/stripping; Nianwu Li, Yaxia Yin, Jinyi Li, Changhuan Zhang, Yuguo Guo*;

Adv. Sci., 2016, 1600400

 

85.    Three-dimensional sandwich-type Graphene@Microporous carbon architecture for lithium–sulfur batteries; Nianwu Li, Yaxia Yin, Yuguo Guo*;

RSC Advances, 2016, 6, 617-622

 

86.    Synthesis and electrochemical properties of a high capacity Li-rich cathode material in molten KCl-Na2CO3 flux; Renpeng Qing, Jilei Shi, Yunbo Zhai*, Xudong Zhang, Yaxia Yin, Lin Gu, Yuguo Guo*;

Electrochim. Acta, 2016, 196, 749-755

 

87.    Scientific and technological challenges for the application of  lithium-sulfur batteries; Yaxia Yin, Hurong Yao, Yuguo Guo*;

Chin. Phys. B, 2016, 25, 018801

 

88.    The size effects in lithium ion batteries; Hurong Yao, Yaxia Yin, Yuguo Guo*;

Chin. Phys. B, 2016, 25, 018203

 

89.    Investigation into the surface chemistry of Li4Ti5O12 nanoparticles for lithium ion batteries; Yongqing Wang*, Jing Zhao, Jin Qu, Fangfang Wei, Weiguo Song, Yuguo Guo*, Baomin Xu*;

ACS Appl. Mater. Interfaces. 2016, 8, 26008-26012

 

90.    A new all-solid-state hyperbranched star polymer electrolyte for lithium ion batteries: synthesis and electrochemical properties; Ailian Wang, Hao Xu, Qian Zhou, Xu Liu, Zhengyao Li, Rui Gao, NaWu, Yuguo Guo, Huayi Li,* Liaoyun Zhang*;

Electrochim. Acta., 2016, 212, 372-379

 

91.    3D graphene-based electrode materials for advanced electrochemical energy storage; Wencheng Du, Yaxia Yin, Yuguo Guo*, Lijun Wan*;

Sci. Sin. Chim. 2016, 46, 1110-1118

 

92.    Uniform nanoshells for functional materials: constructions and applications; Shuyi Duan, Wei Zhang, Junyu Piao,Anmin Cao*;

Electrochem., 2016, 32(2), 260-270

 

93.    Controlled formation of uniform CeO2 nanoshells in a buffer solution; Wei Zhang, Liping Yang, Zixiao Wu, Junyu Piao, Anmin Cao*, Lijun Wan;

Chem. Comm., 2016,52,1420-1423

 

94.    Core-shell structured TiO2@polydopamine for highly active visible-light photocatalysis ;Wenxin Mao, Xijie Lin, Wei Zhang, Zixiang Chi, Rongwen Lv, Anmin Cao*Lijun Wan*;

Chem. Comm., 2016,52,7122-7125

 

95.    The formation of an ordered microporous aluminum-based material mediated by phthalic acid; Wei Zhang, Jianhua Cai, Peipei Huang, Linlin Hu, Anmin Cao*Lijun Wan*;

Chem. Comm. 2016,52,8038-8041

 

六、 扫描探针技术及其它纳米检测的新技术和新方法

96.    Insight into the interfacial process and mechanism in lithium-sulfur batteries: an in situ AFM study; Shuangyan Lang, Yang Shi, Yuguo Guo, Dong Wang, Rui Wen*, Lijun Wan*;

Angew. Chem. Int. Ed., 2016, 55, 15835-15839

 

97.    Single-molecule imaging of iron-phthalocyanine-catalyzed oxygen reduction reaction by in situ scanning tunneling microscopy; Jingying Gu, Zhenfeng Cai, Dong Wang* and Lijun Wan*;

ACS Nano., 2016, 10, 8746-8750

 

98.    Influence of N,N-dimethylformamide annealing on the local electrical properties of organometal halide perovskite solar cells: an atomic force microscopy investigation. Jiangjun Li, Jingyuan Ma, Jinsong Hu, Dong Wang*, Lijun Wan*;

ACS Appl. Mater. Interfaces; 2016, 8, 26002-26007

 

99.    Optoeletronic investigation of Cu2ZnSn(S,Se)4 thin-films & Cu2ZnSn(S,Se)4/CdS interface with scanning probe microscopy, Jiangjun Li, Yugang Zou, Ting Chen, Jinsong Hu, Dong Wang*, Lijun Wan*;

Sci. Chin.Chem., 2016, 59, 231-236

 

100.  Cobalt-porphyrin-catalyzed oxygen reduction reaction: ascanning tunneling microscopy study; Zhenfeng Cai, Xiang Wang, Dong Wang* and Lijun Wan*;

ChemElectroChem, 2016, 3, 2048-2051

 

101.  In situ AFM investigation of interfacial morphology of single crystal silicon wafer anode;Xingrui Liu, Huijuan Yan, Dong Wang*, Lijun Wan;

Acta Phys Chim Sin., 2016,32, 283-289

 
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