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    PAPER想必是每个学术研究者最爱不释手的宝物,它就像人的衣食住行一样,对科研工作者来说必不可少,我们从其中汲取养分,收获能量。歌德曾说过读一本好书仿佛和一位高尚的人谈话,而读一篇经典的文献仿佛找到一位学识渊博的导师。

    据统计,2014-2015近两年web of science中共收录13658篇静电纺丝相关文献。下面编者选取出其中具有高被引频率以及热点文章来回馈一直以来对《静电纺丝进展》予以支持的老师和同学,希望这些电纺精选文章能够对广大读者的学术研究提供帮助。

    2014-2015高被引论文

    Reference

    题目

    被引

    频次

    1

    Single-Layered Ultrasmall Nanoplates of MoS2 Embedded in Carbon Nanofibers with Excellent Electrochemical Performance for Lithium and Sodium Storage

    117

    2

    Sb-C nanofibers with long cycle life as an anode material for high-performance sodium-ion batteries

    80

    3

    Ultra-Uniform SnOx/Carbon Nanohybrids toward Advanced Lithium-Ion Battery Anodes

    54

    4

    Nanoparticles meet electrospinning: recent advances and future prospects

    52

    5

    Antimicrobial wound dressing nanofiber mats from multicomponent (chitosan/silver-NPs/polyvinyl alcohol) systems

    48

    6

    Graphene double protection strategy to improve the SnO2 electrode performance anodes for lithium-ion batteries

    47

    7

    Advances in three-dimensional nanofibrous macrostructures via electrospinning

    46

    8

    A review: carbon nanofibers from electrospun polyacrylonitrile and their applications

    43

    9

    Electrospun scaffolds for tissue engineering of vascular grafts

    43

    10

    Core-Shell Structured Silicon Nanoparticles@TiO2-x/Carbon Mesoporous Microfiber Composite as a Safe and High-Performance Lithium-Ion Battery Anode

    40

    11

    Electrospinning of polymeric nanofibers for drug delivery applications

    39

    12

    Natural and synthetic polymers for wounds and burns dressing

    39

    13

    Conductive polymers: Towards a smart biomaterial for tissue engineering

    39

    14

    Janus nanobelts: fabrication, structure and enhanced magnetic fluorescent bifunctional performance

    38

    15

    Hierarchical nanostructured NiCo2O4 as an efficient bifunctional non-precious metal catalyst for rechargeable zinc-air batteries

    38

    16

    High efficiency electrospun TiO2 nanofiber based hybrid organic-inorganic perovskite solar cell

    36

    17

    Nickel-doped tin oxide hollow nanofibers prepared by electrospinning for acetone sensing

    34

    18

    Fabrication of Magnetic-Fluorescent Bifunctional Flexible Coaxial Nanobelts by Electrospinning Using a Modified Coaxial Spinneret

    32

    19

    The Cobalt Zinc Spinel Ferrite Nanofiber: Lightweight and Efficient Microwave Absorber

    30

    20

    Electrospun Na3V2(PO4)(3)/C nanofibers as stable cathode materials for sodium-ion batteries

    29

    21

    Fabrication and gas sensing properties of hollow core-shell SnO2/alpha-Fe2O3 heterogeneous structures

    27

    22

    Germanium nanoparticles encapsulated in flexible carbon nanofibers as self-supported electrodes for high performance lithium-ion batteries

    26

    23

    Free-standing and binder-free sodium-ion electrodes with ultralong cycle life and high rate performance based on porous carbon nanofibers

    26

    24

    (热点)

    Preparation and microwave absorption mechanisms of the NiZn ferrite nanofibers

    23

    25

    Effect of poly(ethylene oxide) on ionic conductivity and electrochemical properties of poly(vinylidenefluoride) based polymer gel electrolytes prepared by electrospinning for lithium ion batteries

    23

    26

    Free-standing and mechanically flexible mats consisting of electrospun carbon nanofibers made from a natural product of alkali lignin as binder-free electrodes for high performance supercapacitors

    23

    27

    NixCo1-x alloy nanoparticle-doped carbon nanofibers as effective non-precious catalyst for ethanol oxidation

    21

    28

    Synthesis of an Al2O3-coated polyimide nanofiber mat and its electrochemical characteristics as a separator for lithium ion batteries

    19

    29

    (热点)

    Affecting parameters on electrospinning process and characterization of electrospun gelatin nanofibers

    18

    30

    High-performance supercapacitor electrodes based on porous flexible carbon nanofiber paper treated by surface chemical etching

    18

    31

    Electrosprayed nanoparticles and electrospun nanofibers based on natural materials: applications in tissue regeneration, drug delivery and pharmaceuticals

    15

    32

    Budding willow branches shaped Na3V2(PO4)(3)/C nanofibers synthesized via an electrospinning technique and used as cathode material for sodium ion batteries

    14

    33

    Active polymer nanofibers for photonics, electronics, energy generation and micromechanics

    13

    34

    Biomimetic superoleophobic surfaces: focusing on their fabrication and applications

    13

    35

    3D Si/C Fiber Paper Electrodes Fabricated Using a Combined Electrospray/Electrospinning Technique for Li-Ion Batteries

    12

    36

    Electrospun nanofibers: A prospective electro-active material for constructing high performance Li-ion batteries

    10

    37

    CNT-embedded hollow TiO2 nanofibers with high adsorption and photocatalytic activity under UV irradiation

    8

    38

    Effective and reusable oil/water separation membranes based on modified polysulfone electrospun nanofiber mats

    8

    39

    High speed electrospinning for scaled-up production of amorphous solid dispersion of itraconazole

    7

    统计时间:2015年12月

    高被引论文------根据对应领域和出版年中的高引用阈值,到 七月/八月 2015 为止,本高被引论文受到引用的次数已将其归入其学术领域中最优秀的 1% 之列。

    热点论文------在过去两年内发表,并且在七月/八月2015内受到引用的次数是其学术领域中最优秀的0.1% 之列。

    参考文献

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    [2]Wu,L.,Hu, X.H.,Qian,J.F.,Pei,F.,Wu,F.Y., Mao, R. J.,Cao, Y. L. (2014).Energy & Environmental Science, 7(1), 323-328.

    [3]Zhou, X. S., Dai, Z. H., Liu, S. H., Bao, J. C., & Guo, Y. G. (2014). Advanced Materials, 26(23), 3943-3949.

    [4]Zhang, C. L., & Yu, S. H. (2014).Chemical Society Reviews, 43(13), 4423-4448.

    [5]Abdelgawad,A.M.,Hudson,S. M., & Rojas,O. J. (2014). Carbohydrate Polymers, 100, 166-178.

    [6]Zhu, J., Zhang, G. H., Yu, X. Z., Li, Q. H., Lu, B. A., & Xu, Z. (2014).Nano Energy, 3, 80-87.

    [7]Sun, B., Long, Y. Z., Zhang, H. D., Li, M. M., Duvail, J. L., Jiang, X. Y., & Yin, H. L. (2014). Progress In Polymer Science, 39(5), 862-890.

    [8]Zhang, L.F.,Aboagye,A.,Kelkar, A., Lai, C. L.,& Fong, H. (2014).Journal Of Materials Science, 49(2), 463-480.

    [9]Hasan, A., Memic, A., Annabi, N., Hossain, M., Paul, A., Dokmeci, M. R . Khademhosseini, A. (2014).Acta Biomaterialia, 10(1), 11-25.

    [10]Jeong, G., Kim, J. G., Park, M. S., Seo, M., Hwang, S. M., Kim, Y. U, Dou, S. X. (2014).Acs Nano, 8(3), 2977-2985.

    [11]Hu,X.L., Liu,S., Zhou,G.Y.,Huang,Y.B.,Xie,Z.G.,&Jing, X.B.(2014).Journal Of Controlled Release, 185, 12-21.

    [12]Mogosanu,G. D.,& Grumezescu,A. M. (2014). International Journal Of Pharmaceutics, 463(2), 127-136.

    [13]Balint, R., Cassidy, N. J.,& Cartmell, S. H. (2014). Acta Biomaterialia, 10(6), 2341-2353.

    [14]Ma,Q.L.,Yu,W. S.,Dong, X. T., Wang, J. X., & Liu, G. X. (2014). Nanoscale, 6(5), 2945-2952.

    [15]Prabu, M., Ketpang, K., & Shanmugam,S. (2014). Nanoscale, 6(6), 3173-3181.

    [16]Dharani,S., Mulmudi, H. K., Yantara, N.,Trang, P. T. T., Park, N. G., Graetzel, M., Boix, P. P. (2014).Nanoscale, 6(3), 1675-1679.

    [17]Cheng, J. P.,Wang, B.B.,Zhao, M.G., Liu, F.,&Zhang, X. B. (2014).Sensors And Actuators B-Chemical, 190, 78-85.

    [18]Ma,Q.L.,Wang,J. X.,Dong,X.T.,Yu,W. S.,& Liu, G. X. (2014).Chempluschem, 79(2), 290-297.

    [19]Huang, X. G., Zhang, J., Xiao, S. R., & Chen, G. S. (2014).Journal Of the American Ceramic Society, 97(5), 1363-1366.

    [20]Liu,J.,Tang,K.,Song,K.P.,vanAken,P.A.,Yu,Y.,&Maier, J. (2014).Nanoscale, 6(10), 5081-5086.

    [21]Wang, B. B., Fu, X. X., Liu, F., Shi, S. L.,Cheng, J. P., & Zhang, X. B. (2014).Journal Of Alloys And Compounds, 587, 82-89.

    [22]Li,W.H.,Yang,Z.Z.,Cheng,J.X.,Zhong,X.W.,Gu,L.,&Yu,Y. (2014).Nanoscale, 6(9), 4532-4537.

    [23]Li,W. H., Zeng, L.C.,Yang, Z. Z.,Gu, L.,Wang,J.Q.,Liu,X.W.,Yu,Y. (2014).Nanoscale, 6(2), 693-698.

    [24]Huang, X.G., Zhang,J., Lai, M., & Sang, T. Y. (2015).Journal Of Alloys And Compounds, 627, 367-373.

    [25]Prasanth, R.,Shubha, N., Hng, H. H., & Srinivasan, M. (2014).Journal Of Power Sources, 245, 283-291.

    [26]Lai, C. L.,Zhou, Z. P., Zhang, L.F., Wang, X.X.,Zhou, Q. X.,Zhao,Y.,Fong, H. (2014). Journal Of Power Sources, 247, 134-141.

    [27]Barakat, N. A. M., Motlak, M., Elzatahry, A. A., Khalil, K. A., & Abdelghani, E. A. M. (2014). International Journal Of Hydrogen Energy, 39(1), 305-316.

    [28]Lee, J., Lee, C. L., Park, K., & Kim, I. D. (2014).Journal Of Power Sources, 248, 1211-1217.

    [29]Okutan, N., Terzi, P., & Altay, F. (2014). Food Hydrocolloids, 39, 19-26.

    [30]Ma, C.,Li,Y. J.,Shi,JL.,Song,Y., & Liu,L.(2014). Chemical Engineering Journal, 249, 216-225.

    [31]Sridhar,R.,Lakshminarayanan,R.,Madhaiyan,K.,Barathi,V. A.,Limh, K.H.C.,&Ramakrishna, S. (2015). Chemical Society Reviews, 44(3), 790-814.

    [32]Li, H., Bai, Y., Wu, F., Li, Y., & Wu, C. (2015).Journal Of Power Sources, 273, 784-792.

    [33]Persano, L.,Camposeo, A., & Pisignano, D. (2015). Progress In Polymer Science, 43, 48-95.

    [34]Jiang, T.,Guo, Z.G., & Liu, W. M. (2015).Journal Of Materials Chemistry A, 3(5), 1811-1827.

    [35]Xu,Y.H., Zhu,Y. J.,Han, F.D.,Luo, C.,&Wang, C. S. (2015).Advanced Energy Materials, 5(1).

    [36]Aravindan,V., Sundaramurthy,J., Kumar,P.S., Lee,Y.S., Ramakrishna, S., & Madhavi, S.

    [37]Jung, J. Y., Lee, D., & Lee, Y. S. (2015). Journal Of Alloys And Compounds, 622, 651-656.

    [38]Obaid,M.,Barakat,N.A.M.,Fadali,O.A.,Motlak,M.,Almajid,A.A.,&Khalil,K.A.(2015).Chemical Engineering Journal, 259, 449-+.

    [39]Nagy, Z. K., Balogh, A., Demuth, B., Pataki, H., Vigh, T., Szabo, B., Brewster, M. E. (2015). International Journal Of Pharmaceutics, 480(1-2), 137-142.

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