一、 单分子、分子组装及分子纳米器件
1. Competitive chiral induction in a 2D molecular assembly: Intrinsic chirality versus coadsorber-induced chirality;Ting Chen, Shuying Li, Dong Wang*, Lijun Wan*;
Sci. Adv. 2017, 3, e1701208.
2. Concentration-directed polymorphic surface covalent organic frameworks: rhombus, parallelogram, and kagome;Yiping Mo, Xuanhe Liu, and Dong Wang*;
ACS Nano, 2017, 11, 11694.
3. Simultaneous construction of two linkages for the on-surface synthesis of imine-boroxine hybrid covalent organic frameworks;Jieyu Yue, Yiping Mo, Shuying Li, Weilong Dong, Ting Chen and Dong Wang*;
Chem. Sci, 2017, 8, 2169.
4. 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, Andre Gourdon, Ting Chen, Huijuan Yan and Dong Wang*; Chem. Commun. 2017, 53, 428
5. Interfacial synthesis of ordered and stable covalent organic frameworks on amino-functionalized carbon nanotubes with enhanced electrochemical performance;Bing Sun, Jian Liu, Anmin Cao, Weiguo Song and Dong Wang *;
Chem. Commun. 2017, 53, 6303
6. Ionic interaction-induced assemblies of bimolecular "chessboard" structures; Zhenfeng Cai, Ting Chen, Jingying Gu, Dong Wang* and Lijun Wan*;
Chem. Commun.2017, 53, 9129.
7. Oriented covalent organic framework film on graphene for robust ambipolar vertical organic field-effect transistor; Bing Sun, Chenhui Zhu, Yi Liu, Cheng Wang, Lijun Wan, and Dong Wang*;
Chem. Mater. 2017, 29, 4367.
8. Switching the surface homochiral assembly by surface host-guest chemistry; Shuying Li, Ting Chen, Jieyu Yue, Dong Wang*, and Lijun Wan*;
Chem. Comm., 2017, 53, 11095.
9. Template synthesis of imine-based covalent organic framework core-shell structure and hollow sphere: a case of COFTTA-DHTA; Bing Sun, Dong Wang*, and Lijun Wan*;
Sci. Chin-Chem. 2017, 60, 1098.
10. The intramolecular H-bonding effect on the growth and stability of Schiff-base surface covalent organic frameworks;Yiping Mo, Xuanhe Liu, Bing Sun, Huijuan Yan, Dong Wang* and Lijun Wan*;
Phys. Chem. Chem. Phys. 2017, 19, 539.
二、 生物分子探针和纳米生物
1. Wettability gradient on the elytra in the aquatic beetle cybister chinensis and its role in angular position of the beetle at water-air interface; Mingxia Sun, Yuan Chen, Yongmei Zheng, Mingming Zhen, Chunying Shu , Zhendong Dai, Aiping Liang*, Stanislav N. Gorb;
Acta Biomater. 2017, 51, 408.
2. In situ growth of gold nanoparticles on hydrogen-bond supramolecular structures with high peroxidase-like activity at neutral pH and their application to one-pot blood glucose sensing;Ruimin Li, Yue Zhou, Li Zou, Shumu Li, Jing Wang, Chunying Shu, Chunru Wang, Jiechao Ge,* Liansheng Ling*;
Sens. Actuators, B. 2017, 245, 656.
3. Single-molecule imaging and tracking of molecular dynamics in living cells; Nan Li, Rong Zhao,Yahong Sun, Zi Ye, Kangmin He*, Xiaohong Fang*;
Natl. Sci. Rev. 2017, 4, 739.
4. Single-molecule imaging reveals the stoichiometry change of epidermal growth factor receptor during transactivation by β2-adrenergic receptor; Mingliang Zhang, Kangmin He, Jimin Wu, Nan Li, Jinghe Yuan, Wei Zhou, Zi Ye, Zijian Li, Han Xiao, Zhizhen Lv, Youyi Zhang*, Xiaohong Fang*;
Sci. Chi. Chem. 2017, 10, 1310.
5. Nanomechanical Characteristics of cervical cancer and cervical intraepithelial neoplasia revealed by atomic force microscopy;Yueyi Cui, Xuejie Zhang, Ke You, Yanli Guo, Congrong Liu, Xiaohong Fang*, Li Geng*;
Med. Sci. Monit, 2017, 23, 4205.
6. Quantitative single-molecule study of TGF-β/Smad signaling;Rong Zhao,Nan Li,Jiachao Xu, Wenhui Li, Xiaohong Fang*,
Acta. Biochim. Biophys. Sin. 2017, 50(1), 51
7. Development of integrated atomic force microscopy and fluorescence microscopy for Single molecule analysis in living cells;Gege Qin, Wenhui Li, Jiachao Xu, Xiaolong Kou, Rong Zhao, Fang Luo, Xiaohong Fang;
Chin. J Anal. Chem. 2017, 12, 1813.
三、先进碳纳米材料
1. Ethylenediamine functionalized fullerene nanoparticles as independent electron transport layer for high-efficiency inverted polymer solar cells; Jie Li, Fuwen Zhao, Taishan Wang, Mingzhe Nie, Jiangjun Li, Zhixiang Wei*, Li Jiang, Chunru Wang*;
J. Mater. Chem. A. 2017, 5, 947.
2. Amino acid functionalized gadofullerene nanoparticles with superior antitumor activity via destruction of tumor vasculature in vivo;Yue Zhou, Ruijun Deng, Mingming Zhen*, Jie Li, Mirong Guan, Wang Jia, Xue Li, Ying Zhang, Tong Yu, Toujun Zou, Zhigao Lu, Jun Guo, Lei Sun, Chunying Shu, Chunru Wang*;
Biomaterials.2017, 133, 107.
3. A magnetoreception system constructed by dysprosium metallofullerene and nitroxide radical;Yongjian Li, Taishan Wang*, Chong Zhao, Yu Qin, Haibing Meng, Mingzhe Nie, Li Jiang, Chunru Wang*,
Dalton Trans. 2017, 46, 8938.
4. Biocompatible [60]/[70] fullerenols: potent defense against oxidative injury induced by reduplicative chemotherapy;Yue Zhou, Jie Li, Haijun Ma, Mingming Zhen*, Jun Guo, Liping Wang, Li Jiang, Chunying Shu, Chunru Wang*;
Appl. Mater. Interface.2017, 9, 35539.
5. A novel bone marrow targeted gadofullerene agent protect against oxidative injury in chemotherapy;Ying Zhang, Chunying Shu, Mingming Zhen*, Jie Li, Tong Yu, Wang Jia, Xue Li, Ruijun Deng, Yue Zhou, Chunru Wang*;
Sci. China Mater. 2017, 60, 866.
6. Size-tunable NaGdF4 nanoparticles as T2 contrast agents for high-field magnetic resonance imaging;Zhigao Lu, Ruijun Deng, Mingming Zhen*, Xue Li, Toujun Zou, Yue Zhou, Mirong Guan, Ying Zhang, Yuqing Wang, Tong Yu, Chunying Shu, Chunru Wang*;
RSC Adv. 2017, 7, 43125.
7. Awaking N-hyperfine couplings in charged yttrium nitride endohedral fullerenes; Chong Zhao, Taishan Wang,* Yongjian Li, Haibing Meng, Mingzhe Nie, Jianlei Tian, Chunru Wang*;
Phys. Chem. Chem. Phys. 2017, 19, 26846.
四、环境保护纳米材料
1. A general route to coat poly(cyclotriphosphazene-co-4, 4’-sulfonyldiphenol) on various substrates and derived N, P, S-doped hollow carbon shell for catalysis; Shuliang Yang, Yanan Zhu, Changyan Cao*, Li Peng, Shumu Li, Dewei Zhai and Weiguo Song*;
Nanoscale, 2017, 9, 13538.
2. Excellent selectivity with high conversion in semi-hydrogenation of alkynes using Pd-based bimetallic catalysts; Jian Liu, Yanan Zhu, Chang Liu, Xiaoshi Wang, Changyan Cao* and Weiguo Song*;
ChemCatChem, 2017, 9, 4053.
3. One methyl group makes a major difference: shape selective catalysis by zeolite nanoreactors in liquid phase condensation reactions; Chang Liu, Changyan Cao,* Jian Liu, Xiaoshi Wang, Yanan Zhu and Weiguo Song*;
J. Mater. Chem. A, 2017, 5, 17464.
4. Size-selective adsorption of anionic dyes induced by the layer space in layered double hydroxide hollow microspheres; Peipei Huang, Jian Liu, Fang Wei, Yanan Zhu, Xiaoshi Wang, Changyan Cao* and Weiguo Song*;
Mater. Chem. Front., 2017, 1, 1550.
5. In Situ Facile loading of noble metal nanoparticles on polydopamine nanospheres via galvanic replacement reaction for multifunctional catalysis; Fang Wei, Jian Liu, Xiaoshi Wang, Yanan Zhu, Changyan Cao*, and Weiguo Song*;
Sci. China, Chem. 2017, 60, 1236.
6. Synthesis of ZSM-5 monolith with hierarchical porosity through the steam-assisted crystallization method with sponge as scaffold; Tiejing Hu, Jian Liu, Changyan Cao*, Weiguo Song*;
Chin. J. Catal., 2017, 38, 872.
7. Carbonaceous aerogel and CoNiAl-LDH@CA nanocomposites derived from biomass for high performance pseudo-supercapacitor; Sidi Zhang, Jian Liu, Peipei Huang, Hao Wang, Changyan Cao*, Weiguo Song*;
Sci. Bull., 2017, 62, 841.
8. Nitrogen-doped hollow carbon spheres derived from amination reaction of fullerene with alkyl diamines as a carbon catalyst for hydrogenation of aromatic nitro compounds;Yongbin Sun, Changyan Cao*, Chang Liu, Jian Liu, Yanan Zhu, Xiaoshi Wang, Weiguo Song*; Carbon, 2017, 125, 139.
9. Having it both ways: delicate hierarchical structure and robust mechanical stability on micro/nanomaterials with mesoporous silica coating; Zhimin Cui*, Jing Hao, Changyan Cao, Weiguo Song*;
J. Porous Mater., 2017, 1(24), 103.
10. A mesoporous titanium glycolate with exceptional adsorption capacity to remove multiple heavy metal ions in water; Wei Han, Xiulin Yang, Fuwen Zhao, Xiaofeng Shi, Taishan Wang, Xiangdong Zhang*, Li Jiang*;
RSC Adv. 2017, 7, 30199.
五、能量转换与存储材料及器件
1. GeSe thin-film solar cells fabricated by self-regulated rapid thermal sublimation, Dingjiang Xue, Shunchang Liu, Chenmin Dai, Shiyou Chen, Chao He, Lu Zhao, Jinsong Hu,* Lijun Wan;*
J. Am. Chem. Soc. 2017, 139 (2), 958.
2. Designing air-Stable O3-type cathode materials by combined structure modulation for Na-Ion batteries; Hurong Yao, Pengfei Wang, Yue Gong, Jienan Zhang, Xiqian Yu, Lin Gu, Chuying OuYang, Yaxia Yin, Enyuan Hu, Xiaoqing Yang, Eli Stavitski, Yuguo Guo*, Lijun Wan;
J. Am. Chem. Soc. 2017, 139, 8440.
3. Stable Li Plating/stripping electrochemistry realized by a hybrid Li reservoir in spherical carbon granules with 3D conducting skeletons; Huan Ye, Sen Xin, Yaxia Yin, Jinyi Li, Yuguo Guo*, Lijun Wan*;
J. Am. Chem. Soc. 2017, 139, 5916.
4. Controlling the compositional chemistry in single nanoparticles for functional hollow carbon nanospheres; Deshan Bin, Zixiang Chi, Yutao Li, Ke Zhang, Xinzheng Yang, Yonggang Sun, Junyu Piao, Anmin Cao*,and Lijun Wan*;
J. Am. Chem. Soc,2017, 139, 13492.
5. Microbial-phosphorus-enabled synthesis of phosphide nanocomposites for efficient electrocatalysts; Tianqi Zhang, Jian Liu, Linbo Huang, Xudong Zhang, Yonggang Sun, Xiaochan Liu, Deshan Bin, Xi Chen, Anmin Cao*, Jinsong Hu*, and Lijun Wan*;
J. Am. Chem. Soc, 2017, 32, 11248.
6. Electronic and morphological dual modulation of cobalt carbonate hydroxides by Mn doping toward highly efficient and stable bifunctional electrocatalysts for overall water splitting;Tang Tang, Wenjie Jiang, Shuai Niu, Ning Liu, Hao Luo, Yuyun Chen, Shifeng Jin, Feng Gao,* Lijun Wan, Jinsong Hu;*
J. Am. Chem. Soc, 2017, 139 (24), 8320.
7. Crystallinity-modulated electrocatalytic activity of a nickel(II) borate thin layer on Ni3B for efficient water oxidation; Wenjie Jiang, Shuai Niu, Tang Tang, Qinghua Zhang, Xiaozhi Liu, Yun Zhang, Yuyun Chen, Jihui Li, Lin Gu,* Lijun Wan, Jinsong Hu;*
Angew. Chem. Int. Ed. 2017, 56 (23), 6572.
8. Stable Li metal anodes via regulating lithium plating/stripping in vertically aligned microchannels; Shuhua Wang, Yaxia Yin, Tongtong Zuo, Wei Dong, Jinyi Li, Jilei Shi, Changhuan Zhang, Nianwu Li, Congju Li, Yuguo Guo*;
Adv. Mater. 2017, 29, 1703729.
9. Graphitized carbon fibers as multifunctional 3D current collectors for high areal capacity Li anodes;Tongtong Zuo, Xiongwei Wu*, Chunpeng Yang, Yaxia Yin, Huan Ye, Nianwu Li, Yuguo Guo*;
Adv. Mater. 2017, 29, 1700389.
10. Ti-substituted NaNi0.5Mn0.5-xTixO2 cathodes with reversible O3-P3 phase tansition for high performance sodium-ion batteries; Pengfei Wang, Hurong Yao, Xinyu Liu, Jienan Zhang, Lin Gu, Xiqian Yu, Yaxia Yin,* Yuguo Guo*;
Adv. Mater. 2017, 29, 1700210.
11. High-energy/Power and low-temperature cathode for sodium-ion batteries: in situ XRD study and superior full-cell performance; Jinzhi Guo, Pengfei Wang, Xinglong Wu,* Xiaohua Zhang, Qingyu Yan, Hong Chen, Jingping Zhang, Yuguo Guo*;
Adv. Mater. 2017, 29, 1701968
12. Self-templated fabrication of MoNi4/MoO3-X nanorod arrays with dual active components for highly efficient hydrogen evoluti、n;Yuyun Chen, Yun Zhang,* Xing Zhang, Tang Tang, Hao Luo, Shuai Niu, Zhihui Dai,* Lijun Wan, Jinsong Hu;*
Adv. Mater, 2017, 29 (39), 1703311.
13. Bilayer PbS quantum dots for high-performance photodetectors; Zhenwei Ren, Jiankun Sun, Hui Li, Peng Mao, Yuanzhi Wei, Xinhua Zhong,* Jinsong Hu,* Shiyong Yang, Jizheng Wang;*
Adv. Mater. 2017, 29 (33), 1702055.
14. Single-junction binary-blend nonfullerene polymer solar cells with 12.1% efficiency; Fuwen Zhao, Shuixing Dai, Yang Wu, Qianqian Zhang, Jiayu Wang, Li Jiang, Qidan Ling, Zhixiang Wei, Wei Ma, Wei You, Chunru Wang* and Xiaowei Zhan*;
Adv. Mater. 2017, 29, 1700144.
15. Excellent comprehensive performance of Na-based layered oxide benefiting from the synergetic contributions of multi-metal ions; Hurong Yao, Pengfei Wang, Yi Wang, Xiqian Yu, Yaxia Yin*, Yuguo Guo*;
Adv. Energy Mater. 2017, 7, 1700189.
16. Advanced porous carbon materials for high-efficient lithium metal anodes; Huan Ye, Sen Xin, Yaxia Yin, Yuguo Guo*;
Adv. Energy Mater. 2017, 7, 1700530
17. 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. 2017, 7, 1601481.
18. A high-performance composite electrode for vanadium redox flow batteries; Qi Deng, Peng Huang, Wenxin Zhou, Qiang Ma, Nan Zhou, Hao Xie, Wei Ling, Chunjiao Zhou, Yaxia Yin, Xiongwei Wu,* Xiang-Yang Lu,* Yu-Guo Guo*;
Adv. Energy Mater. 2017, 7, 1700461.
19. Combining energy transfer and optimized morphology for highly efficient ternary polymer solar cells; Fuwen Zhao, Yang Li, Zaiyu Wang, Yang Yang, Jianqi Zhang*, Li Jiang, Taishan Wang, Zhixiang Wei*, Wei Ma*, Andong Xia, Yongfang Li and Chunru Wang*;
Adv. Energy Mater. 2017, 7, 1602552.
20. Three-dimensional nanostructured electrodes for efficient quantum- dot-sensitized solar cells; Jiankun Sun, Yan Jiang, Xinhua Zhong, Jinsong Hu,* Lijun Wan.
Nano Energy. 2017, 32, 130.
21. Facile and scalable synthesis of robust Ni(OH)2 nanoplate arrays on NiAl foil as hierarchical active scaffold for highly efficient overall water splitting; Shuai Niu, Wenjie Jiang, Tang Tang, Yun Zhang, Jihui Li,* Jinsong Hu;*
Adv. Sci. 2017, 4 (8), 1700084.
22. Encased copper boosts the electrocatalytic activity of N-doped carbon nanotubes for hydrogen evolution; Yun Zhang, Yuling Ma, Yuyun Chen, Lu Zhao, Linbo Huang, Hao Luo, Wenjie Jiang, Xing Zhang, Shuai Niu, Daojiang Gao, Jian Bi, Guangyin Fan,* Jinsong Hu;* ACS Appl. Mater. Interfaces, 2017, 9 (42), 36857.
23. Tuning the branches and composition of PtCu nanodendrites through underpotential deposition of Cu towards advanced electrocatalytic activity; Lin Guo, Linbo Huang, Wenjie Jiang, Zidong Wei,* Lijun Wan, Jinsong Hu.*;
J. Mater. Chem. A . 2017, 5 (19), 9014.
24. Well-defined metal-O-6 in metal-catecholates as a novel active site for oxygen electroreduction; Xuanhe Liu, Weili Hu, Wenjie Jiang,* Yawen Yang, Shuai Niu, Bing Sun, Jing Wu, Jinsong Hu;*
ACS Appl. Mater. Interfaces, 2017, 9 (34), 28473.
25. Investigation of physical and electronic properties of GeSe for photovoltaic applications; Shunchang Liu, Yang Mi, Dingjiang Xue,* Yaoxuan Chen, Chao He, Xinfeng Liu, Jinsong Hu,* Lijun Wan;
Adv. Electron. Mater, 2017, 3 (11), 1700141.
26. Lamellar metal organic framework-derived Fe–N–C non-noble electrocatalysts with bimodal porosity for efficient oxygen reduction; Zhongtao Li, Hongdi Sun, Liangqin Wei, Wenjie Jiang,* Mingbo Wu,* Jinsong Hu;*
ACS Appl. Mater. Interfaces. 2017, 9 (6), 5272.
27. Alloying strategy in Cu–In–Ga–Se quantum dots for high efficiency quantum dot sensitized solar cells,Wenxiang Peng, Jun Du, Zhenxiao Pan,* Naoki Nakazawa, Jiankun Sun, Zhonglin Du, Gencai Shen, Juan Yu, Jinsong Hu,* Qing Shen,* Xinhua Zhong;*
ACS Appl. Mater. Interfaces. 2017, 9 (6), 5328.
28. Facile synthesis of Mo2C nanocrystals embedded in nanoporous carbon network for efficient hydrogen evolution; Yuyun Chen, Yun Zhang, Yuling Ma, Tang Tang, Zhihui Dai,* Jinsong Hu,* Lijun Wan;*
Chin. J. Chem, 2017, 35 (6), 911.
29. Additive engineering for high-performance room-temperature-processed perovskite absorbers with micron-size grains and microsecond-range carrier lifetimes; Qiwei Han, Yusong Bai, Jie Liu, Kezhao Du, Tianyang Li, Dong Ji, Yihao Zhou, Changyong Cao, Donghyeop Shin, Jie Ding, Aaron D. Franklin, Jeffrey T. Glass, Jinsong Hu, Michael J. Therien, Jie Liu,* David B. Mitzi;*
Energy Environ. Sci. 2017, 10 (11), 2365.
30. Direct visualization of nucleation and growth processes of solid electrolyte interphase film using in situ atomic Force microscopy;Yang Shi, Huijuan Yan, Rui Wen*, Lijun Wan*;
ACS Appl. Mater. Interfaces, 2017, 9(26), 22063.
31. Solid-state lithium metal batteries promoted by nanotechnology: progress and prospects;Sen Xin, Ya You, Shaofei Wang, Hongcai Gao, Yaxia Yin, Yuguo Guo*;
ACS Energy Lett., 2017, 2, 1385.
32. Progress of rechargeable lithium metal batteries based on conversion reactions;Sen Xin, Zhiwen Chang, Xinbo Zhang,* Yuguo Guo*;
Natl. Sci. Rev. 2017, 4, 54.
33. Free-standing hollow carbon fibers as high-capacity containers for stable lithium metal anodes; Lin Liu, Yaxia Yin, Jinyi Li, Nianwu Li, Xianxiang Zeng, Huan Ye, Yuguo Guo*, Lijun Wan*;
Joule, 2017, 1, 563.
34. Synergism of Al-containing solid electrolyte interphase layer and Al-based colloidal particles for stable lithium anode; Huan Ye, Yaxia Yin, Shuaifeng Zhang, Yang Shi, Lin Liu, Xianxiang Zeng, Rui Wen, Yuguo Guo*, Lijun Wan;
Nano Energy, 2017, 36, 411.
35. Improving the structural stability of Li-rich cathode materials via reserving cations in Li-slab for Li-ion batteries; Jilei Shi, Dongdong Xiao, Xudong Zhang, Yaxia Yin, Yuguo Guo*, Lin Gu*, Lijun Wan*;
Nano Res., 2017, 10(12), 4201.
36. Methods for the stabilization of nanostructured electrode materials for advanced rechargeable batteries; Nianwu Li, Yaxia Yin,* Sen Xin, Jinyi Li, Yuguo Guo*;
Small Methods, 2017, 1, 1700094 .
37. Graphitic nanocarbon-selenium cathode with favorable rate capability for Li-Se batteries; Shuaifeng Zhang, Wenpeng Wang, Sen Xin, Huan Ye, Yaxia Yin*, Yuguo Guo*;
ACS Appl. Mater. Interfaces, 2017, 9, 8759.
38. Research progress of Si-based anode materials towards practical application in high energy density Li-ion batteries; Jinyi Li, Quan Xu, Ge Li, Yaxia Yin, Lijun Wan*, Yuguo Guo*,
Mater. Chem. Front. 2017, 1, 1691
39. Advanced micro/nanostructures for lithium metal anodes; Rui Zhang, Nianwu Li, Xinbing Cheng, Yaxia Yin, Qiang Zhang,* Yuguo Guo*;
Adv. Sci. 2017, 4, 1600445.
40. 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. 2017, 4, 1600400.
41. Three-dimensional carbon nanotube networks enhanced sodium trimesic: a new anode material for sodium ion batteries and Na-storage mechanism revealed by ex situ studies; Xin Yan, Huan Ye, Xinglong Wu,* Yanping Zheng, Fang Wan, Mingkai Liu, Xiaohua Zhang, Jingping Zhang, Yuguo Guo*;
J. Mater. Chem. A, 2017, 5, 16622.
42. Facile synthesis of SiOx/asphalt membrane for high performance lithium-ion battery anodes; Quan Xu, Jiankun Sun, Ge Li, Jinyi Li, Yaxia Yin,* Yuguo Guo*;
Chem. Commun. 2017, 53, 12080.
43. Novel P2-type Na2/3Ni1/6Mg1/6Ti2/3O2 as an anode material for sodium-ion batteries; Pengfei Wang, Hurong Yao, Tongtong Zuo, Yaxia Yin,* Yuguo Guo*;
Chem. Commun. 2017, 53, 1957.
44. Three-dimensional carbon nanotubes forest/carbon cloth as an efficient electrode for lithium–polysulfide batteries; Xiongwei Wu, Hao Xie, Qi Deng, Huixian Wang, Hang Sheng, Yaxia Yin, Wenxin Zhou, Ruilian Li*, Yuguo Guo*;
ACS Appl. Mater. Interfaces, 2017, 9, 1553.
45. High-thermal- and air-stability cathode material with concentration-gradient buffer for Li-ion batteries; Jilei Shi, Ran Qi, Xudong Zhang, Pengfei Wang, Weigui Fu, Yaxia Yin,* Jian Xu, Lijun Wan, Yuguo Guo*;
ACS Appl. Mater. Interfaces, 2017, 9, 42829.
46. Atom-thick interlayer made of CVD-grown graphene film on separator for advanced lithium?sulfur batteries; Zhenzhen Du, Chengkun Guo, Linjun Wang, Ajuan Hu, Song Jin, Taiming Zhang, Hongchang Jin, Zhikai Qi, Sen Xin, Xianghua Kong,* Yu-Guo Guo, Hengxing Ji,* and Li-Jun Wan;*
ACS Appl. Mater. Interfaces, 2017, 9, 43696.
47. Improving the stability of LiNi0.80Co0.15Al0.05O2 by AlPO4 nanocoating for lithium-ion batteries; Ran Qi, Jilei Shi, Xudong Zhang, Xianxiang Zeng, Yaxia Yin, Jian Xu, Li Chen, Weigui Fu*, Yuguo Guo*, Lijun Wan;
Sci. China, Chem., 2017, 60, 1230.
48. Structurally modulated Li-rich cathode materials through cooperative cation doping and anion hybridization; Xudong Zhang, Jilei Shi, Jiayan Liang, Yaxia Yin*, Yuguo Guo*, and Lijun Wan;
Sci. China, Chem., 2017, 12(60), 1554.
49. Synthesis of Sn nanoparticles/graphene nanosheet hybrid electrode material with three-dimensional conducting network for magnesium storage; Changhuan Zhang, Nianwu Li, Hurong Yao, Yaxia Yin*, Yuguo Guo*;
Acta Chim. Sinica, 2017, 75, 206.
50. Designed synthesis of SnO2–C hollow microspheres as an anode material for lithium-ion batteries; Linlin Hu,Liping Yang,Dong Zhang,Xiansen Tao, Chen Zeng, Anmin Cao*,Lijun Wan*;
Chem. Commun.,2017, 53, 11189.
51. Controlled synthesis of hierarchically-structured MnCo2O4 and its potential as a high performance anode material; Zixiao Wu, Fuhai Li, Yonggang Sun, Deshan Bin, Junyu Piao, Xijie Lin, Xiaochan Liu, Anmin Cao* & Lijun Wan*;
Sci. China, Chem. 2017, 9, 1180.
52. Kinetically controlled formation of uniform FePO4 shells and their potential for use in high-performance sodium ion batteries;Shuyi Duan, Junyu Piao, Tianqi Zhang, Yonggang Sun, Xiaochan Liu, Anmin Cao* & Lijun Wan*;
NPG Asia Materials, 2017, 9, e414.
53. Controlled formation of uniform nanoshells of manganese oxide and their potential in lithium ion batteries;Xiaochan Liu, Junyu Piao,Deshan Bin,Tianqi Zhang,Shuyi Duan, Zixiao Wu,Anmin Cao* and Lijun Wan*;
Chem. Commun. 2017, 53, 2846.
54. Copper-substituted Na0.67Ni0.3-xCuxMn0.7O2 cathode materials for sodium-ion batteries with suppressed P2-O2 phase transition; Lei Wang, Yonggang Sun, Linlin Hu, Junyu Piao, Jing Guo, Arumugam Manthiram, Jianmin Ma*, Anmin Cao;*
J. Mater. Chem. A, 2017, 5, 8752.
55. Matching charge extraction contact for wide-bandgap perovskite solar cells;Yuze Lin, Bo Chen, Fuwen Zhao, Xiaopeng Zheng, Yehao Deng, Yuchuan Shao, Yanjun Fang, Yang Bai, Chunru Wang, and Jinsong Huang*;
Adv. Mater. 2017, 29, 1700607.
56. Fused nonacyclic electron acceptors for efficient polymer solar cells; Shuixing Dai, Fuwen Zhao, Qianqian Zhang, Tsz-Ki Lau, Tengfei Li, Kuan Liu, Qidan Ling, Chunru Wang, Xinhui Lu, Wei You, and Xiaowei Zhan*;
J. Am. Chem. Soc. 2017, 139, 1336.
57. Iron oxyfluorides as lithium-free cathode materials for solid-state Li metal batteries;Liping Wang, Taishan Wang, Xudong Zhang, Jiayan Liang, Li Jiang, Yaxia Yin, Yuguo Guo*, Chunru Wang*;
J. Mater. Chem. A. 2017, 5, 18464.
58. Prussian blue nanocubes as cathode materials for aqueous Na-Zn hybrid batteries, Liping Wang, Pengfei Wang, Taishan Wang, Yaxia Yin, Yuguo Guo*, Chunru Wang*;
J. Power Sources.2017, 355, 18.
59. Conductive graphite fiber as a stable host for zinc metal anodes; Liping Wang, Nianwu Li, Taishan Wang, Yaxia Yin, Yuguo Guo*, Chunru Wang*;
Electrochim. Acta.2017, 244, 172.
60. 固态金属锂电池最新进展评述, 段 惠,殷雅侠,郭玉国,万立骏;
《储能科学与技术》五周年专刊, 2017, 6, 5.
六、扫描探针技术及其它纳米检测的新技术和新方法
1. High-temperature formation of a functional film at the cathode/electrolyte interface in lithium–sulfur batteries: an in situ AFM study; Shuangyan Lang, Yang Shi, Yuguo Guo, Rui Wen*, Lijun Wan*;
Angew. Chem. Int. Ed. 2017, 56(46), 14433.
2. 原子力显微镜鄄荧光显微镜联用技术在活细胞单分子检测中的应用,秦格格,李文慧;徐家超, 寇晓龙, 赵 容, 罗 放, 方晓红*;
《分析化学的评述与进展》, 2017, 12(45), 1813.
