科研成果

2014年学术论文目录明细

发布时间:2016-03-24

[1]    Liangqi Ouyang, Ming Zhao, Daming Zhuang, Junfeng Han, Li Guo, Xiaolong Li, Mingjie Cao. The relationships between electronic properties and microstructure of Cu(In,Ga)Se2 films prepared by sputtering from a quaternary target. Materials Letters, 137: 249-251, 2014.

[2]    IshikawaYunosuke; NagataShinji; Zhao, Ming; Shikama Tatsuo”Retention and thermalreleasebehaviorofdeuterium and helium implanted in SiC”, Journal of Nuclear Materials, 455: 512-515, 2014.

[3]    Junfeng Han, LiangqiOuyangb, DamingZhuangb, Cheng Liao, Jiang Liu, Ming Zhao, Li-mei Cha, M.-P. Besland, “Raman and XPS studies of CIGS/Mo interface under various annealing temperature”, Materials Letters, 136: 278-281, 2014.

[4]    Xie Min, Zhuang Daming, Zhao Ming, Li Bojian, Cao Mingjie, Song Jun. “Fabrication of Cu2ZnSnS4 thin films using a ceramic quaternary target”,Vacuum, 101: 146-150, 2014.

[5]    M. Xie, D.M. Zhuang, M. Zhao, B.J. Li, M.J. Cao, J. Song, “Fabrication of Cu2ZnSnS4 thin films using a ceramic quaternary target”, Vacuum 101(2014):146-150. [SCI]

[6]    J. Liu, D.M. Zhuang, M.J. Cao, X.L. Li, M. Xie, D.W. Xu, “Cu(In,Ga)Se-2-based solar cells prepared from Se-containing precursors”, Vacuum 102(2014): 26-30. [SCI]

[7]     J. Liu, Q. Gong, Y. Shao, D. Zhuang, J. Liang, “In-situ fabrication of MoSi2/SiC-Mo2C gradient anti-oxidation coating on Mo substrate and the crucial effect of Mo2C barrier layer at high temperature”, Applied Surface Science 308(2014): 261-268. [SCI]

[8]     J. Han, L. Ouyang, D. Zhuang, C. Liao, J. Liu, M. Zhao, L. Cha, M.P. Besland, “Raman and XPS studies of CIGS/Mo interfaces under various annealing temperatures”, Materials Letters 136(2014): 278-281. [SCI]

[9]    L. Ouyang, M. Zhao, D. Zhuang, J. Han, L. Guo, X. Li, M. Cao, “The relationships between electronic properties and microstructure of Cu(In,Ga)Se-2 films prepared by sputtering from a quaternary target”, Materials Letters 137(2014): 249-251. [SCI]

[10]Chen N, et al. Formation and mechanical properties of Pd-Si binary bulk metallic glasses [J]. Adv. Mater. Sci. Eng. 2014, 647197.

[11]Wang J Q, Chen N, et al. The ultrastable kinetic behavior of an Au-based nanoglass [J]. Acta Mater. 2014, 79, 30-36.

[12]Y. Cao, Z. Guo, S. Xiong, Determination of interfacial heat transfercoefficient and its application in high pressuredie casting process, China Foundry, 2014, 11: 314-321.

[13]7. E. Liotti, Z. Guo, et al. A synchrotron X-ray radiography study of dendrite fragmentation induced by a pulsed electromagnetic field in an Al–15Cu alloy, Acta Materialia, 2014, 70: 228-239.

[14]8. Z. Guo, J. Mi, P.S. Grant, An implicit parallel multigrid computing scheme to solve coupled thermal-solute phase-field equations for dendrite evolution, Journal of Computational Physics, 2014, 257, 278–297.

[15]Kang JinwuZhang Chi, Wang TianjiaoZhang Xiaopeng, Liu BaichengUpgrading the Numerical Simulation of Casting Process: 3D Stereoscopic Visualization9th Pacific Rim International Conference on Modeling of Casting and Solidification Processes Dec.23-262014OsakaJapan

[16]Jinwu KangHaimin LongYongjie LiRui YouXiaokun HaoGang NieTianjiao WangChengchun ZhangObservation of the Mold-Filling Process of a Large Hydro-Turbine Guide Vane CastingMetallurgical and Materials Transactions BOctober 2014February 2015, Volume 46, Issue 1, pp 337-344 EI201445154630 SCI 000348199900038

[17]Jinwu Kang, Xiaopeng Zhang, Yisen Hu, Jiyu MaYongyi Hu and Tianyou HuangUltrasonic Treatment of the 304 Stainless Steel MeltISIJ International, 2014, 54(2):  281–287

[18]Jinwu Kang, Chao dong, Xiaokun Hao,Gang Nie,Houfa Shen and Baicheng Liu . A Water Analog Experimental Method for the Diffusion and Distribution of Alloy elements in Liquid SteelduringIngot Filling Process, ISIJ International, 2014, 54(2): 275–280

[19]Kang Jinwu, Zhang Xiaopeng, Zhang ChiApplication of 3D stereoscopic visualization technology in casting aspectChina Foundry2014, 11(4),308-313

[20]Q. Q. Yang, Y. Liu, Y. X. Li, Hydrogen Diffusion Coefficient in Liquid Metals Evaluated by Solid/gas Eutectic Unidirectional Solidification, Trans. Nonferrous Met. Soc. China, Vol.24 No.12(2014), 4030-4037.

[21]Xingming Zhang, Yanxiang Li, Yuan Liu, Huawei Zhang, Fabrication of Gasar Cu-24 wt.% Mn alloy, International Journal of Materials Research , Vol. 105, No. 5(2014), 450-454.

[22]Xingming Zhang, Yanxiang Li, Yuan Liu, Huawei Zhang, Influence of the solidification temperature range on Gasar structures made from Cu-Mn alloys International Journal of Materials Research, Vol.105, No.9(2014) , 869-874.

[23]Jianyu Yuan, Yanxiang LI, Yutong Zhou, Effect of contact angle on bubble formation at submerged orifices , Journal of Materials Science,  Vol.49, No. 23 (2014), 8084-8094.

[24]Yang Qianqian, Liu Yuan, Li Yanxiang. Hydrogen Diffusion Coefficient in Liquid Metals Evaluated by Solid/gas Eutectic Unidirectional Solidification Trans. Nonferrous Met. Soc. China, , Vol.24, No. 12 (2014), 4030-4037.

[25]Yang Qian-qian, Liu Yuan, Li Yan-xiang. Pore Structure of Unidirectional Solidified Porous Silicon, Trans. Nonferrous Met. Soc. China, , Vol.24, No. 11 (2014), 3517-3523.

[26]Liu Yuan, Zhuo Weijia, Zhang Huawei, and Li Yanxiang, Fabrication of lotus-type porous micro-channel copper by single-mold GASAR technique, China Foundry, Vol.11, No.6 (2014), 522-530.

[27]Yutong Zhou, Yanxiang Li, Xingnan Liu and Wenwen Yuan, Comparison of cell wall microstructure of aluminum foams produced by melt foaming and gas injection foaming processes, Applied Mechanics and Materials, Vols. 457-458(2014) pp 540-543, Trans Tech Publications, Switzerland.

[28]Xingming Zhang, Huawei Zhang, Yanxiang Li, Hybrid Porous Metal of Nano-micro Double Size and Regular-ramdom Bimodal, TMS Annual Meeting, p 367-374, 2014. EPD Congress 2014

[29]Liutao Chen, Huawei Zhang, Yuan Liu, Yanxiang Li, Simulation on Heat Transfer Performance of Directionally Solidified Porous Copper Heat SinkAdvanced Materials Research, Vols.875-877(2014), pp.1095-1100, Trans Tech Publications, Switzerland.

[30]LI W S, SHEN H F, ZHANG X, LIU, B C. Modeling of species transport and macrosegregation in heavy steel ingots[J]. Metall Mater Trans B.2014, 45B: 464-471.

[31]TU W T, ZHANG X, SHEN H F, LIU B C. Numerical simulation of multiple pouring process in a 292-t steel ingot[J]. China Foundry, 2014, 11(1): 52-58.SCI

[32]TU W T, SHEN H F, LIU B C. Two-phase modeling of macrosegregation in a 231t steel ingot[J]. ISIJ Inter. 2014, 54(2): 351-355.

[33]ZHANG D J, LEI S, ZENG SHAN, SHEN H F. Thermo-mechanical modeling in continuous slab casting mould and its application[J]. ISIJ Inter. 2014, 54(2): 336-341

[34]KANG J W, DONG C, HAO X K, NIE G, SHEN H F, LIU B C. Water analog experimental method for the diffusion and distribution of alloy elements in liquid steel during ingot filling process[J]. ISIJ Inter. 2014, 54(2):275-280

[35]Li, Xiao; Zang, Xiaobei; Li, Xinming; et al., Hybrid Heterojunction and Solid-State Photoelectrochemical Solar Cells, ADVANCED ENERGY MATERIALS, 4, 1400224, 2014

[36]Zhang, Rujing; Cao, Yachang; Li, Peixu; et al., Three-dimensional porous graphene sponges assembled with the combination of surfactant and freeze-drying, NANO RESEARCH, 7, 1477-1487, 2014

[37]Sun, Pengzhan; Wang, Kunlin; Wei, Jinquan; et al., Magnetic transitions in graphene derivatives, NANO RESEARCH, 7, 1507-1518, 2014

[38]Sun, Huanhuan; Wei, Jinquan; Jia, Yi; et al., Flexible carbon nanotube/mono-crystalline Si thin-film solar cells, NANOSCALE RESEARCH LETTERS, 9, 514, 2014

[39]Fan, Lili; Wang, Kunlin; Wei, Jinquan; et al., Correlation between nanoparticle location and graphene nucleation in chemical vapour deposition of graphene, JOURNAL OF MATERIALS CHEMISTRY A, 2, 13123-13128, 2014

[40]Nan, Dou; Wei, Jinquan; Guo, Fengmei; et al., Fabrication and Oil Adsorption of Carbon Nanotube/Polyvinylpyrrolidone Surface Composite, JOURNAL OF NANOSCIENCE AND NANOTECHNOLOGY, 14, 6461-6465, 2014

[41]Zhang, Guowei; Wei, Jinquan; Zhu, Jia-Lin; et al., Electron transport in carbon nanotube/RbAg4I5 film composite nanostructures modulated by optical field, APPLIED PHYSICS LETTERS, 104, 243111, 2014

[42]Yang, Tingting; Zhang, Hongze; Wang, Yan; et al., Interconnected graphene/polymer micro-tube piping composites for liquid sensing, NANO RESEARCH, 7, 869-876, 2014

[43]Li, Peixu; Yang, Yanbing; Shi, Enzheng; et al., Core-Double-Shell, Carbon Nanotube@Polypyrrole@MnO2 Sponge as Freestanding, Compressible Supercapacitor Electrode, ACS APPLIED MATERIALS & INTERFACES, 6, 5228-5234, 2014

[44]Wang, Yingxin; Zhang, Guowei; Qiao, Lingbo; et al., Photocurrent response of carbon nanotube-metal heterojunctions in the terahertz, OPTICS EXPRESS, 22, 5895-5903, 2014

[45]Guo, Ning; Wei, Jinquan; Jia, Yi; et al., Fabrication and Electrical Properties of Semi-Conductive h-BNCx Thin Films, SCIENCE OF ADVANCED MATERIALS, 6, 550-557, 2014

[46]Ni, Ting; Yan, Jingying; Jiang, Yurong; et al., Enhancement of the power conversion efficiency of polymer solar cells by functionalized single-walled carbon nanotubes decorated with CdSe/ZnS core-shell colloidal quantum dots, JOURNAL OF MATERIALS SCIENCE, 49, 2571-2577, 2014

[47]Li, Peixu; Shi, Enzheng; Yang, Yanbing; et al., Carbon nanotube-polypyrrole core-shell sponge and its application as highly compressible supercapacitor electrode, NANO RESEARCH, 7, 209-218, 2014

[48]Sun, Jia-Lin; Zhang, Wei; Wei, Jinquan; et al., Ion-modulated nonlinear electronic transport in carbon nanotube bundle/RbAg4I5 thin film composite nanostructures, JOURNAL OF APPLIED PHYSICS, 115, 044302, 2014

[49]Zang, Xiaobei; Li, Peixu; Chen, Qiao; et al., Evaluation of layer-by-layer graphene structures as supercapacitor electrode materials, JOURNAL OF APPLIED PHYSICS, 115, 024305, 2014

[50]Chen, Qiao; Li, Xinming; Zang, Xiaobei; et al., Effect of different gel electrolytes on graphene-based solid-state supercapacitors, RSC ADVANCES, 4, 36253-36256, 2014

[51]Sun, Pengzhan; Wang, Kunlin; Wei, Jinquan; et al., Effective recovery of acids from iron-based electrolytes using graphene oxide membrane filters, JOURNAL OF MATERIALS CHEMISTRY A, 2, 7734-7737, 2014

[52]Sun, Huanhuan; Wei, Jinquan; Sun, Jialin; et al., Effect of microwave irradiation on carbon nanotube fibers: exfoliation, structural change and strong light emission, RSC ADVANCES, 4, 15502-15506, 2014

[53]He, Shaoqing; Wei, Jinquan; Guo, Fengmei; et al., A large area, flexible olyaniline/buckypaper composite with a core-shell structure for efficient  upercapacitors,  JOURNAL OF MATERIALS CHEMISTRY A, 2, 5898-5902, 2014  

[54]Z. Li, Q. Xu, J. Xiong, J. Li and B. Liu, Simulation and experiments on plasticity and recrystallisation in SX superalloys by investment casting[J]. Mater Res Innov. 2014;18:S4-331.

[55]Rui Chen, Qingyan Xu, Baicheng Liu. A Modified Cellular Automaton Model for the Quantitative Prediction of Equiaxed and Columnar Dendritic Growth[J]. Journal of Materials Science & Technology (J MATER SCI TECHNOL), 2014, 30(12), 1311-1320

[56]Chen R, Shi Y F, Xu Q Y, Liu B C. Studying on influence of cooling rate on solidication parameters, and microstructure of Al-7Si-0.3Mg-0.15Fe alloy[J]. TRANSACTIONS OF NONFERROUS METALS SOCIETY OF CHINA (Trans. Nonferrous Met Soc. China), 2014, 24, 1645~652

[57]Xu Qingyan, Zhang Hang, Liu Baicheng. Multiscale Modeling and Simulation of Single Crystal Superalloy Turbine Blade Casting during Directional Solidification Process[J]. China Foundry, 2014, 11(4): 268-276

[58]Hang ZHANG, Qingyan XU, Baicheng LIU. Numerical Simulating and Optimizing of Directional Solidification Process of Single Crystal Superalloy Casting[J]. Materials, 2014, 7(3): 1625-1639

[59]Qingyan Xu, Hang Zhang, Xiang Qi, Baicheng Liu. Multiscale Modeling and Simulation of Directional Solidification Process of Turbine Blade Casting with MCA Method[J]. Metallurgical and Materials Transactions B, 2014, 45(2): 555-561

[60]Liu Y, Zhuo WJ, Zhang HW, Li YX. Fabrication of lotus-type porous micro-channel copper by single-mold gasar technique[J]. China Foundry, 2014, 11(6): 522-530. (中国机械工程学会铸造专业2014年度优秀论文金奖. 评选范围是2014年度中国发表的铸造专业论文1850余篇, 评出金奖论文1, 银奖论文11)

[61]Zhang XM, Li YX, Liu Y, Zhang HW. Influence of the solidification temperature range on gasar structures made from Cu-Mn alloys. Int. J. Mater. Res.[J], 2014, 105(9): 869-874.

[62]Cheng XB, Peng HJ, Huang JQ, Zhu L, Yang SH, Liu Y, Zhang HW, Zhu WC, Wei F, Zhang Q. Three-dimensional aluminum foam/carbon nanotube scaffolds as long- and short-range electron pathways with improved sulfur loading for high energy density lithium-sulfur batteries[J]. J. Power Sources, 2014, 261: 264-270.

[63]Zhang XM, Li YX, Liu Y, Zhang HW. Fabrication of gasar made from Cu-24 wt.% Mn alloy[J]. Int. J. Mater. Res., 2014, 105(5): 450-454.

[64]Zhang XM, Zhang HW, Li YX. Hybrid porous metal of nano-micro double size and regular-random bimodal. TMS 2014, 16-20 Feb. 2014, San Diego, California, USA. Poster. EPD Congress 2014, 2014, : 367-374.

[65]Chen LT, Zhang HW, Liu Y, Li YX. Simulation on heat transfer performance of directionally solidified porous copper heat sink. Int. Conf. Adv. Mater. Manufacturing Sci. (ICAMMS 2012), 20-21 Dec. 2012, Beijing, China. Adv. Mater. Res., 2014, 875-877: 1095-1100.

[66]Sun, Pengzhan; Zheng, Feng; Wang, Kunlin; Zhong, Minlin; Wu, Dehai; Zhu, Hongwei,Electro- and Magneto-Modulated Ion Transport through Graphene Oxide Membranes, SCIENTIFIC REPORTS, O ct 28, 2014, 4: 6798, DOI: 10.1038/srep06798 (IF 5.078, SCI AS0PS)

[67]Li, Xiao; Zang, Xiaobei; Li, Xinming; Zhu, Miao; Chen, Qiao; Wang, Kunlin; Zhong, Minlin; Wei, Jinquan; Wu, Dehai; Zhu, Hongwei,Hybrid Heterojunction and Solid-State Photoelectrochemical Solar Cells, ADVANCED ENERGY MATERIALS, Oct 7, 2014, 4(14):1400224, DOI: 10.1002/aenm.201400224 (IF 14.385, SCI AS6GX)

[68]Sun, Pengzhan; Wang, Kunlin; Wei, Jinquan; Zhong, Minlin; Wu, Dehai; Zhu, Hongwei, Magnetic transitions in graphene derivatives, Nano Research, Oct 2014, 7(10):1507-1518 IF 6.963,SCI AQ8NQ

[69]Li,Xiao; Zang,Xiaobei; Li,Xinming; Zhu,Miao; Chen,Qiao; Wang,Kunlin; Zhong,Minlin; Wei,Jinquan; Wu,Dehai; Zhu,Hongwei, Hybrid heterojunction and solid-state photoelectrochemical solar cell, Advanced Energy Materials, October 1, 2014, 4(14): 1400224 (IF 14.385, EI 201443114486)

[70]Zhang, Rujing; Cao, Yachang; Li, Peixu; Zang, Xiaobei; Sun, Pengzhan; Wang, Kunlin; Zhong, Minlin; Wei, Jinquan; Wu, Dehai; Kang, Feiyu, Zhu, Hongwei, Three-dimensional porous graphene sponges assembled with the combination of surfactant and freeze-drying, NANO RESEARCH, Oct 2014, 7(10):1477-1487 (IF 6.963, SCI AQ8NQ)

[71]Fan, Lili; Wang, Kunlin; Wei, Jinquan; Zhong, Minlin; Wu, Dehai; Zhu, Hongwei, Correlation between nanoparticle location and graphene nucleation in chemical vapour deposition of graphene, JOURNAL OF MATERIALS CHEMISTRY A, Aug 28, 2014, 2(32): 13123-13128 (IF 6.626, SCI: AN1MJ, EI 20143118005286)

[72]Sun, Pengzhan; Liu, He; Wang, Kunlin; Zhong, Minlin; Wu, Dehai; Zhu, Hongwei, Selective Ion Transport through Functionalized Graphene Membranes Based on Delicate Ion-Graphene Interactions, JOURNAL OF PHYSICAL CHEMISTRY C, Aug 21, 2014, 118(33): 19396-19401 ( IF 4.835, SCI: AN7VR, EI 20143518115773)

[73]Jiangyou Long, Peixun Fan, Minlin Zhong*, Hongjun Zhang, Yongde Xie, Chen Lin, Superhydrophobic and Colorful Copper Surfaces Fabricated by Picosecond Laser Induced Periodic Nanostructures, Applied Surface Science, Aug 30 2014, 311:461-467 (IF 2.538, SCI AL3OD, EI 20142717890819)

[74]Xiaobei Zang, Qiao Chen, Peixu Li, Yijia He, Xiao Li, Miao Zhu, Xinming Li, Kunlin Wang, Minlin Zhong, Dehai Wu, Hongwei ZhuHighly Flexible and Adaptable, All-Solid-State Supercapacitors Based on Graphene Woven-Fabric Film Electrodes, Small. July 9 2014; 10(13):2583-2588 (IF 7.514, SCI AL2YX, EI 20142817928449)

[75]Sun, Pengzhan; Zheng, Feng; Zhu, Miao; Wang, Kunlin; Zhong, Minlin; Wu, Dehai; Zhu, Hongwei, Realizing Synchronous Energy Harvesting and Ion Separation with Graphene Oxide Membranes, SCIENTIFIC REPORTS, July 2 2014, V4, 5528 (DOI: 10.1038/srep05528) (IF 5.078, SCI AK4VA)

[76]Dafa Jiang, Chen Hong, Minlin Zhong, Moritz Alkhayat, Andreas Weisheit, Andres Gasser, Hongjun Zhang, Ingomar Kelbassa, Reinhart Poprawe, Fabrication of nano-TiCp reinforced Inconel 625 composite coatings by partial dissolution of micro-TiCp through laser cladding energy input control, Surface and Coatings Technology, June 25, 2014, 249:125-131 (IF 2.199, SCI AH8AP,EI 20141917694226)

[77]Sun, Pengzhan; Wang, Kunlin; Wei, Jinquan, Zhong, Minlin; Wu, Dehai; Zhu, Hongwei, Effective recovery of acids from iron-based electrolytes using grapheme oxide membrane filters, Journal of Materials Chemistry A, June 7, 2014, 2(21):7734-7737 (IF 6.626, SCI AH2AW, EI 20142017713890)

[78]Zhu, Miao; Li, Xinming; Zhang, Zexia; Sun, Pengzhan; Zang, Xiaobei; Wang, Kunlin; Zhong, Minlin; Wu, Dehai; Zhu, Hongwei, Amorphous nitrogen doped carbon films: A novel corrosion resistant coating material,Advanced Engineering Materials, May 2014, 16(5):532-538 (IF 1.508, SCI AJ3QR)

[79]Minlin Zhong, Dafa Jiang, Hongjun Zhang, Chen Hong, Andreas Weisheit, Ingomar Kelbassa, Fabrication of nanoparticulate reinforced metal matrix composites by laser cladding, Journal of Laser Applications, May 2014, 26 (2): 022007 (IF 1.338, SCI AE9OJ,EI 20141217495509)

[80]Juan Jiang, Zhe Lin, Xiaohui Ye, Minlin Zhong, Ting Huang, Hongwei Zhu, Graphen synthesis by laser-assisted chemical vapor deposition on Ni plate and the effect of process parameters on uniform graphene growth, Thin Solid Films, April 1, 2014, 556:206-210 (IF 1.867, SCI AD2SO, EI 20141317506190)

[81]Peixun Fan, Minlin Zhong, Lin Li, Patrick Schmitz, Cheng Lin, Jiangyou Long, and Hongjun Zhang, Angle-independent colorization of copper surfaces by simultaneous generation of picosecond-laser-induced nanostructures and redeposited nanoparticles, Journal of Applied Physics, March 28, 2014, 115:124302 (IF 2.185, SCI AE3TP, EI 20141617589672)

[82]Miao Zhu, Xinming Li, Yibo Guo, Xiao Li, Pengzhan Sun, Xiaobei Zang, Kunlin Wang, Minlin Zhong, Dehai Wu, Hongwei Zhu, Vertical junction photodetectors based on reduced graphene oxide/silicon Schottky diodes,Nanoscale. March 2014, 6(9): 4909-4914 (IF 6.23, SCI AF6WO, EI 20141717603421)

[83]Xiaohui Ye, Jiangyou Long, Zhe Lin, Hongjun Zhang, Hongwei Zhu, and Minlin Zhong*, Direct Laser Fabrication of Large-area and Patterned Graphene at Room Temperature, Carbon, March 2014, 68:784-790 (IF 6.16, SCI AA0UZ, EI 20140217178202)

[84]Gu, Dongdong; Hong, Chen; Jia, Qingbo; Dai, Donghua; Gasser, Andres; Weisheit, Andreas; Kelbassa, Ingomar; Zhong, Minlin; Poprawe, Reinhart, Combined strengthening of multi-phase and graded interface in laser additive manufactured TiC/Inconel 718 composites, Journal of Physics D: Applied Physics, Jan 29, 2014, 47 (4): 045309 (IF 2.521, SCI 288PU,EI 20140417219154)

[85]Pengzhan Sun, Feng Zheng, Miao Zhu, Zhigong Song, Kunlin Wang, Minlin Zhong, Dehai Wu, Reginald Little, Zhiping Xu, Hongwei Zhu, Selective Trans-Membrane Transport of Alkali and Alkaline Earth Cations through Graphene Oxide Membranes Based on Cation-π Interactions, ACS Nano. Jan 28, 2014; 8 (1): 850-859 (IF 12.06, SCI 301OX, EI 20140617290373)ACS NaPublisher: American Chemical Society, American Chemical Society ISSN: 1936-086X

[86]Wu,Xin; Zhao,Haiyan; Zhong,Minlin; Murakawa,Hidekazu;Tsukamoto,Masahiro, Molecular dynamics simulation of graphene sheets joining under ion beam irradiation, Carbon, January 2014, 66:31-38 (IF 6.16, SCI 260DM, EI 20134516950088)

[87]Dongdong Gu; Chen Hong; Qingbo Jia; Donghua Dai; Gasser, A.; Weisheit, A.; Kelbassa, I.; Minlin Zhong; Poprawe, R. , Combined Strengthening of Multi-phase and Graded Interface in Laser Additive Manufactured Tic/Inconel 718 Composites, Journal of Physics D: Applied Physics, Jan 29, 2014, 47(4):045309 (11 pp) (IF 2.521, EI 20140417219154)

[88]P. Z. Sun, F. Zheng, M. Zhu, Z. G. Song, K. L. Wang, M. L. Zhong, D. H. Wu, R. B. Little, Z. P. Xu, H. W. Zhu*. Selective trans-membrane transport of alkali and alkaline earth cations through graphene oxide membranes based on cation-π interaction. ACS Nano, 2014, 8 (1): 850-859.

[89]X. Li, X. B. Zang, X. M. Li, M. Zhu, Q. Chen, K. L. Wang, M. L. Zhong, J. Q. Wei, D. H. Wu, H. W. Zhu*. Hybrid heterojunction and solid state photoelectrochemicalsolar cells. Adv. Energy Mater., 2014, 4 (14): 1400224.

[90]X. B. Zang, Q. Chen, P. X. Li, Y. J. He, X. Li, M. Zhu, X. M. Li, K. L. Wang, M. L. Zhong, D. H. Wu, H. W. Zhu*. Highly flexible and adaptable, all solid-state supercapacitors based on graphene woven fabric film electrodes. Small, 2014, 10 (13): 2583–2588.

[91]R. J. Zhang, Y. C. Cao, P. X. Li, X. B. Zang, P. Z. Sun, K. L. Wang, M. L. Zhong, J. Q. Wei, D. H. Wu, F. Y. Kang, H. W. Zhu*. Three-dimensional porous graphene sponges assembled with the combination of surfactant and freeze-drying. Nano Res., 2014, 7 (10): 1477–1487.

[92]P. Z. Sun, K. L. Wang, J. Q. Wei, M. L. Zhong, D. H. Wu, H. W. Zhu*. Magnetic transitions in graphene derivatives. Nano Res., 2014, 7 (10): 1507–1518.

[93]P. Z. Sun, F. Zheng, M. Zhu, K. L. Wang, M. L. Zhong, D. H. Wu, H. W. Zhu*. Realizing synchronous energy harvesting and ion separation with graphene oxide membranes. Sci. Rep., 2014, 4, 5528.

[94]P. Z. Sun, F. Zheng, K. L. Wang, M. L. Zhong, D. H. Wu, H. W. Zhu*. Electro- and magneto-modulated ion transport through graphene oxide membranes. Sci. Rep., 2014, 4, 6798.

[95]P. Z. Sun, H. Deng, F. Zheng, K. L. Wang, M. L. Zhong, Y. J. Zhang, F. Y. Kang, H. W. Zhu*. Electricity generation and local ion ordering induced by cation-controlled selective anion transportation through graphene oxide membranes. 2D Mater.,2014, 1, 034004.

[96]T. T. Yang, H. Z. Zhang, Y. Wang, X. Li, K. L. Wang, J. Q. Wei, D. H. Wu, Z. H. Li, H. W. Zhu*. Interconnected graphene/polymer micro-tube piping composites for liquid sensing. Nano Res., 2014, 7 (6): 869–876.

[97]M. Zhu, X. M. Li, Y. B. Guo, X. Li, P. Z. Sun, X. B. Zang, K. L. Wang, M. L. Zhong, D. H. Wu, H. W. Zhu*. Vertical junction photodetectors based on reduced graphene oxide/silicon Schottky diodes. Nanoscale, 2014, 6 (9): 4909-4914.

[98]T. T. Yang, Y. Wang, X.M. Li, Y. Y. Zhang, X. Li, K. L. Wang, D. H. Wu, H. Jin, Z. H. Li*, H. W. Zhu*. Torsion sensors of high sensitivity and wide dynamic range based on a graphene woven structure. Nanoscale, 2014, 6 (21): 13053-13059.

[99]P. Z. Sun, Y. L. Wang, H. Liu, K. L. Wang, D. H. Wu, Z. P. Xu, H. W. Zhu*. Structure evolution of graphene oxide during thermally driven phase transformation: Is the oxygen content really preserved? PLoS One, 2014, 9 (11): e111908.

[100] P. Z. Sun, K. L. Wang, J. Q. Wei, M. L. Zhong, D. H. Wu, H. W. Zhu*. Effective recovery of acids from iron-based electrolytes using graphene oxide membrane filters. J. Mater. Chem. A, 2014, 2 (21): 7734-7737.

[101] L. L. Fan, K. L. Wang, J. Q. Wei, M. L. Zhong, D. H. Wu, H. W. Zhu*. Correlation between nanoparticle location and graphene nucleation in chemical vapour deposition of graphene. J. Mater. Chem. A, 2014, 2 (32): 13123-13128.

[102] P. Z. Sun, H. Liu, K. L. Wang, M. L. Zhong, D. H. Wu, H. W. Zhu*. Selective ion transport through functionalized graphene membranes based on delicate ion-graphene interactions. J. Phys. Chem. C, 2014, 118 (33): 19396–19401.

[103] M. Zhu, X. M. Li, Z. X. Zhang, P. Z. Sun, X. B. Zang, K. L. Wang, M. L. Zhong, D. H. Wu, H. W. Zhu*. Amorphous nitrogen doped carbon films: A novel corrosion resistant coating material. Adv. Eng. Mater., 2014, 16 (5): 532–538.

[104] P. X. Li, E. Z. Shi, Y. B. Yang, Y. Y. Shang, Q. Y. Peng, S. T. Wu, J. Q. Wei, K. L. Wang, H. W. Zhu, Q. Yuan, A. Y. Cao, D. H. Wu. Carbon nanotube-polypyrrolecore-shell sponge and its application as highly compressible supercapacitorelectrode.Nano Res., 2014, 7 (2): 209-218.

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