2015年学术论文目录明细

[1]    ZedongGao, Ming Zhao, Daming Zhuang, Engang Fu, XiaolongLi, LiangqiOuyang, Li Guo, Rujun Sun, Kenji Kimura, Kaoru Nakajima, “Study on the performance of Tungsten-Titanium alloy film as a diffusion barrier for iron in a flexible CIGS solar cell”, Solar Energy, Accepted.

[2]    Liangqi Ouyang, Daming Zhuang, Ming Zhao, NingZhang,Xiaolong Li, Li Guo, Rujun Sun, Mingjie Cao, “ Cu(In,Ga)Se2 solar cell with 16.7% active-area efficiency achieved by sputtering from a quaternary target”, Physica Status Solidi A:1-5, 2015.

[3]    Xiaolong Li, Ming Zhao, Daming Zhuang, Mingjie Cao, Liangqi Ouyang, Li Guo, Zedong Gao, Rujun Sun, “Influences of Na on sintering of Cu(In,Ga)Se2 quaternary ceramic targets”, Journal of Alloys and Compounds 636:335-340, 2015.

[4]    Zedong Gao, Ming Zhao, Daming Zhuang, Engang Fu, Xiaolong Li, Liangqi Ouyang, Li Guo, Rujun Sun, Kenji Kimura, Kaoru Nakajima, “Study on the performance of Tungsten-Titanium alloy film as a diffusion barrier for iron in a flexible CIGS solar cell”, Solar Energy, Accepted.[SCI]

[5]    Liangqi Ouyang, Daming Zhuang, Ming Zhao, Ning Zhang,Xiaolong Li, Li Guo, Rujun Sun, Mingjie Cao, “ Cu(In,Ga)Se2 solar cell with 16.7% active-area efficiency achieved by sputtering from a quaternary target”, Physica Status Solidi A:1-5, 2015. [SCI]

[6]    Xiaolong Li, Ming Zhao, Daming Zhuang, Mingjie Cao, Liangqi Ouyang, Li Guo, Zedong Gao, Rujun Sun , “Influences of Na on sintering of Cu(In,Ga)Se2 quaternary ceramic targets”, Journal of Alloys and Compounds 636:335-340, 2015. [SCI]

[7]    Liu X, Chen N, Gu J L, Du J, Yao K F, Novel Cu-Ag bimetallic porous nanomembrane prepared from a multicomponent metallic glass [J]. RSC Adv. 2015, 5:50565-50571.

[8]    N. Chen, et al. A nanoglass alloying immiscible Fe and Cu at the nanoscale [J]. Nanoscale 2015, 7, 6607-6611.

[9]    Gu L, Xu L M, Zhang Q S, Pan D, Chen N, et al. Direct in situ observation of metallic glass deformation by real-time nano-scale indentation [J]. Sci. Rep. 2015, 5:9122.

[10]Chen N, et al. Structural heterogeneity in a binary Pd-Si metallic glass [J]. Phil. Mag. Lett. 2015, 95:77-84.

[11]Li J, Chen N, Wei D, Futamoto M. Micromagnetic studies of ultrahigh resolution magnetic force microscope tip coated by soft magnetic materials [J]. IEEE Trans. Mag. 2015, 51:2001005.

[12]Louzguine-Luzgin D V, Chen N, et al. Role of different factors in the glass-forming ability of binary alloys [J]. J. Mater. Sci.2015, 50:1783-1793.

[13]Tang Y, Shao Y, Chen N, Yao KF. Rapid decomposition of Direct Blue 6 in neutral solution by Fe–B amorphous alloys [J]. RSC Adv. 2015, 5:6215-6221.

[14]Zhang Y, Liu L, Zou G, Chen N, Wu A, Bai H, Zhao Y. Femtosecond laser-induced phase transformations in amorphous Cu₇₇Ni₆Sn₁₀P₇ alloy [J]. J. Appl. Phys. 2015, 117:023109.

[15]LIU Xingnan, LI Yanxiang, CHEN Xiang. Bubble size control during the gas injection foaming process in aluminum alloy melt [J]. Journal of Materials Research，2015, 30(7): 1002 – 1010

[16]Ming Du, Huawei Zhang, Yanxiang Li, Yuan Liu, Xiang Chen, Yun He. Depositing and alloying on the inner surface of Gasar Cu pores by plating and annealing treatment [J]. Applied Surface Science, 2015,324: 69-75

[17]Yuan Jianyu, Li Yanxiang, Chen Xiang, Zhou Yutong. Factors influencing foam height in gas injection process for aluminum foams [J]. Advanced Materials Research, 2015, 1104: 33-37

[18]Yuan Jianyu, Chen Xiang, Zhou Wenwu, Li Yanxiang. Study on quasi-static compressive properties of aluminum foam-epoxy resin composite structures [J]. Composites Part B, 2015, 79: 301-310

[19]M. Yang, Z. Guo, S. Xiong, Characterisation of the 3-D dendrite morphology of magnesium alloys usingsynchrotron X-ray tomography and 3-D phase-field modelling, Acta Materialia, 2015, 92: 8-17.

[20]X. Li, S.M. Xiong, Z. Guo, On the porosity induced by externally solidified crystals in High-pressure die-cast of AM60B alloy and its effect on crack initiation and propagation, Materials Science and Engineering: A, 2015, 633, 35-41.

[21]Z. Guo, S. Xiong, On solving the 3-D phase field equations by employing a parallel-adaptive mesh refinement (Para-AMR) algorithm, Computer Physics Communications, 2015, 190: 89-97.

[22]C. Bi, Z. Guo, S. Xiong, Modelling and simulation for die castingmould filling process using Cartesiancut cell approach, International Journal of Cast Metals Research, 2015, 1:1-8.

[23]C. Bi, Z. Guo. S.Xiong, An improved mathematical model to simulatemold filling process in high pressure die castingusing CLSVOF method and CSF model, China Foundry, 2015, 12: 9-17.

[24]Kang, Jinwu ; Hao, Xiaokun; Nie, Gang; Long, Haimin; Liu, Baicheng，  Intensive riser cooling of castings after solidification 。 Journal of Materials Processing Technology, 2015，v 215, p 278-286, 2014 SCIWOS:000343690500031IDS 号: AR6JS, EI201443128250

[25]Jinwu Kang, Xiaopeng Zhang, , Shuo Wang, Jiyu Ma, Tianyou Huang，The comparison of ultrasonic effects in different metal melts. Ultrasonics, 2015, 57：11–17 SCI 000347654700002

[26]J W Kang, X K Hao, G Nie, H M Long, B C Liu and C C Zhang，Intensive riser cooling of a turbine blade steel casting after solidification， IOP Conf. Ser.: Mater. Sci. Eng. ，2015，84（1）， article no.012093， doi:10.1088/1757-899X/84/1/012093

[27]Jinwu Kang, Haimin Long, Yongjie Li,  Rui You, Xiaokun Hao, Gang Nie, Tianjiao Wang, Chengchun Zhang，Observation of the Mold-Filling Process of a Large Hydro-Turbine Guide Vane Casting，Metallurgical and Materials Transactions B，2015, 46 （1）:337-344

[28]Zhu, QB (Zhu, Qiaobo); Liu, HC (Liu, Hongchang); Li, WZ (Li, Wenzhen); Gao, WM (Gao, Weiming); Li, QS (Li, Qiushu)，Nanoparticle Capture During Directional Solidification of Nano-Sized SiC Particle-Reinforced AZ91D Composites，JOURNAL OF NANOSCIENCE AND NANOTECHNOLOGY，Vol. 15, No.5 (2015): 3913-3917

[29]Ming Du, Huawei Zhang, Yanxiang Li, Inner Surface Alloying on Pores of Lotus-type Porous Copper through Electroless Plating with Supersonic Vibration and Annealing Treatment. Surface & Coatings Technology, 261(2015), pp. 1-6.

[30]Y. Liu,  H. F. Chen,  H. W. Zhang,  Y. X. Li，Heat transfer performance of lotus-type porous copper heat sink with liquid GaInSn coolant, International Journal of Heat and Mass Transfer, 80 (2015), 605-613

[31]Jianyu Yuan, Yanxiang LI, Effect of orifice geometry on bubble formation in melt gas injection to prepare aluminum foams，Science China—Technological Sciences，2015, 58 (1): 64-74.

[32]Liu Xingnan, Li Yanxiang, Chen Xiang, Bubble size control during the gas injection foaming process in aluminum alloy melt, Journal of Materials Research, Vol. 30, No. 7, Apr 14, 2015，1002-1010.

[33]Ming Du, Huawei Zhang, Yanxiang Li, Yuan Liu, Xiang Chen, Yun He. Depositing and alloying on the inner surface of Gasar Cu pores by plating and annealing Treatment, Applied Surface Science, 342 (2015) 69–75

[34]Y. Liu,  H. W. Zhang, Y. X. Li, Effect of Melt Superheat on Structural Uniformity of Lotus-type Porous Metals Prepared by Unidirectional Solidification, Trans. Nonferrous Met. Soc. China, Vol.25, No.3(2015), 1004-1010.

[35]Yutong Zhou, Yanxiang Li, Jianyu Yuan. The stability of aluminum foams at accumulation and condensation stages in gas injection process, Colloids and Surfaces A: Physicochemical and Engineering Aspects，482 (2015) 468–476.

[36]Ming Du, Huawei Zhang, Yanxiang Li, Yuan Liu, Xiang Chen, Yun He. Fabrication and wettability of monolithic bimodal porous Cu with Gasar macro-pores and dealloying nano-pores. Applied Surface Science, 353 (2015) 804–810.

[37]Lu, S.Y., Yao K.F., Chen Y.B. Wang M.H., Shao Y., Ge X.Y., Effects of austenitizing temperature on the microstructure and electrochemical behavior of a martensitic stainless steel, Journal of Applied Electrochemistry, VOl.45, Pages:375-383, 2015

[38]Liu X., Shao Y., Lu, S.Y. Yao K.F.^*, High-Accuracy Bulk Metallic Glass Mold Insert for Hot Embossing of Complex Polymer Optical Devices, Journal of Polymer science part B-polymer physics, Vol.53 Pages 463-467, 2015

[39]Liu X., Shao Y., Han, Z.D. Yao K.F.^*Morphology and structure evolution of metallic nanowire arrays prepared by die nanoimprinting, Science Bulletin, Vol.60, Pages:629-633, 2015

[40]Li, J.F., Shao Y., Liu, X., Yao K.F.^*, Fe-based bulk amorphous alloys with high glass formation ability and high saturation magnetization, Science Bulletin, Vol. 60, Pages:396-399, 2015

[41]Tang Y., Shao Y., Chen N., Yao K.F.*, Rapid decomposition of Direct Blue 6 in neutral solution by Fe-B amorphous alloys, RSC Advances, Vol.5, Pages 6215-6221, 2015

[42]Tu W T, Shen H F, Liu B C. Modelling of macrosegregation in a 231-ton steel ingot with multi-pouring process[J]. Materials Research Innovations, 2015.

[43]TU W T, SHEN H F, LIU B C. Numerical simulation of macrosegregation during solidification of binary alloys[J]. Rare Metals, 2015.

[44]Li, Can; Li, Yahui; Xing, Yujin; et al., Perovskite Solar Cell Using a Two-Dimensional Titania Nanosheet Thin Film as the Compact Layer, ACS APPLIED MATERIALS & INTERFACES, 7, 15117-15122, 2015

[45]Wang, Yingxin; Deng, Xiangquan; Zhang, Guowei; et al.,Terahertz photodetector based on double-walled carbon nanotube macrobundle-metal contacts, OPTICS EXPRESS,, 23, 13348-13357, 2015

[46]Zhu, Miao; Li, Xinming; Chung, Sunki; et al., Photo-induced selective gas detection based on reduced graphene oxide/Si Schottky diode, CARBON, 84, 138-145, 2015

[47]Zhang, Yangyang; Zhen, Zhen; Zhang, Zelin; et al., In-situ synthesis of carbon nanotube/graphene composite sponge and its application as compressible supercapacitor electrode, ELECTROCHIMICA ACTA, 157, 134-141, 2015

[48]Sun, Pengzhan; Chen, Qiao; Li, Xinda; et al., Highly efficient quasi-static water desalination using monolayer graphene oxide/titania hybrid laminates, NPG ASIA MATERIALS, 7, e162, 2015

[49]Jiang, Xin; Cao, Yachang; Li, Peixu; et al., Polyaniline/graphene/carbon fiber ternary composites as supercapacitor electrodes, MATERIALS LETTERS, 140, 43-47, 2015

[50]Zang, Xiaobei; Xu, Ruiqiao; Zhang, Yangyang; et al., All carbon coaxial supercapacitors based on hollow carbon nanotube sleeve structure, NANOTECHNOLOGY, 26, 045401, 2015

[51]Jiang, Xin; Cao, Yachang; Wang, Kunlin; et al., Anti-reflection graphene coating on metal surface, SURFACE & COATINGS TECHNOLOGY, 261, 327-330, 2015

[52]Zang, Xiaobei; Li, Xiao; Zhu, Miao; et al., Graphene/polyaniline woven fabric composite films as flexible supercapacitor electrodes, NANOSCALE, 7, 7318-7322, 2015

[53]Xu, Ruiqiao; Wei, Jinquan; Guo, Fengmei; et al., Highly conductive, twistable and bendable polypyrrole-carbon nanotube fiber for efficient supercapacitor electrodes, RSC ADVANCES, 5, 22015-22021, 2015

[54]Zhang HW, Li YX, Liu Y, Chen X, Chen LT, He Y, Du M. Heat transfer performance of directional solidified gasar Cu heat sink. MetFoam 2015, 31 Aug. - 2 Sept. 2015, Barcelona, Spain.

[55]Liu Y, Zhang HW, Chen X, Li YX. Fabrication of lotus-type porous micro-channel cu by single-mold gasar technique. MetFoam 2015, 31 Aug. - 2 Sept. 2015, Barcelona, Spain.

[56]Wang NZ, Chen X, Li YX, Zhang HW, Liu Y. Study on bending performance of an al foam composite structure. MetFoam 2015, 31 Aug. - 2 Sept. 2015, Barcelona, Spain.

[57]Chen X, Wang NZ, Li YX, Zhang HW, Liu Y. Compressive performance and energy absorption property of a new al syntactic foam. MetFoam 2015, 31 Aug. - 2 Sept. 2015, Barcelona, Spain.

[58]Du M, Zhang HW, Li YX, Liu Y, Chen X, He Y. Fabrication and wettability of monolithic bimodal porous cu with gasar macro-pores and dealloying nano-pores[J]. Appl. Surf. Sci., 2015, 353: 804-810.

[59]Du M, Zhang HW, Li YX, Liu Y, Chen X, He Y. Depositing and alloying on the inner surface of gasar cu pores by plating and annealing treatment[J]. Appl. Surf. Sci., 2015, 342: 69-75.

[60]Zhang XM, Li YX, Zhang HW, Liu Y. Evolution of porous structure with dealloying corrosion on gasar Cu-Mn alloy[J]. Trans. Nonferrous Met. Soc. China, 2015, 25(4): 1200-1205.

[61]Liu Y, Zhang HW, Li YX. Effect of melt superheat on structural uniformity of lotus-type porous metals prepared by unidirectional solidification[J]. Trans. Nonferrous Met. Soc. China, 2015, 25(3): 1004-1010.

[62]Du M, Zhang H W, Li Y X. Inner surface alloying on pores of lotus-type porous copper through electroless plating with supersonic vibration and annealing treatment[J]. Surf. Coat. Tech., 2015, 261: 1-6.

[63]Liu Y, Chen HF, Zhang HW, Li YX. Heat transfer performance of lotus-type porous copper heat sink with liquid gainsn coolant[J]. Int. J. Heat Mass Transf., 2015, 80: 605-613.

[64]M. Yang, Z. Guo, S. Xiong, Characterisation of the 3-D dendrite morphology of magnesium alloys usingsynchrotron X-ray tomography and 3-D phase-field modelling, Acta Materialia, 2015, 92: 8-17.

[65]X. Li, S.M. Xiong, Z. Guo, On the porosity induced by externally solidified crystals in High-pressure die-cast of AM60B alloy and its effect on crack initiation and propagation, Materials Science and Engineering: A, 2015, 633, 35-41.

[66]Z. Guo, S. Xiong, On solving the 3-D phase field equations by employing a parallel-adaptive mesh refinement (Para-AMR) algorithm, Computer Physics Communications, 2015, 190: 89-97.

[67]C. Bi, Z. Guo, S. Xiong, Modelling and simulation for die castingmould filling process using Cartesiancut cell approach, International Journal of Cast Metals Research, 2015, 1:1-8.

[68]C. Bi, Z. Guo. S.Xiong, An improved mathematical model to simulatemold filling process in high pressure die castingusing CLSVOF method and CSF model, China Foundry, 2015, 12: 9-17.

[69]Kang, Jinwu ; Hao, Xiaokun; Nie, Gang; Long, Haimin; Liu, Baicheng，  Intensive riser cooling of castings after solidification 。 Journal of Materials Processing Technology, 2015，v 215, p 278-286, 2014 SCIWOS:000343690500031IDS 号: AR6JS, EI201443128250

[70]Jinwu Kang, Xiaopeng Zhang, , Shuo Wang, Jiyu Ma, Tianyou Huang，The comparison of ultrasonic effects in different metal melts. Ultrasonics, 2015, 57：11–17 SCI 000347654700002

[71] J W Kang, X K Hao, G Nie, H M Long, B C Liu and C C Zhang，Intensive riser cooling of a turbine blade steel casting after solidification， IOP Conf. Ser.: Mater. Sci. Eng. ，2015，84（1）， article no.012093， doi:10.1088/1757-899X/84/1/012093

[72]Jinwu Kang, Haimin Long, Yongjie Li,  Rui You, Xiaokun Hao, Gang Nie, Tianjiao Wang, Chengchun Zhang，Observation of the Mold-Filling Process of a Large Hydro-Turbine Guide Vane Casting，Metallurgical and Materials Transactions B，2015, 46 （1）:337-344

[73]Zhu, QB (Zhu, Qiaobo); Liu, HC (Liu, Hongchang); Li, WZ (Li, Wenzhen); Gao, WM (Gao, Weiming); Li, QS (Li, Qiushu)，Nanoparticle Capture During Directional Solidification of Nano-Sized SiC Particle-Reinforced AZ91D Composites，JOURNAL OF NANOSCIENCE AND NANOTECHNOLOGY，Vol. 15, No.5 (2015): 3913-3917

[74]Ming Du, Huawei Zhang, Yanxiang Li, Inner Surface Alloying on Pores of Lotus-type Porous Copper through Electroless Plating with Supersonic Vibration and Annealing Treatment. Surface & Coatings Technology, 261(2015), pp. 1-6.

[75]Y. Liu,  H. F. Chen,  H. W. Zhang,  Y. X. Li，Heat transfer performance of lotus-type porous copper heat sink with liquid GaInSn coolant, International Journal of Heat and Mass Transfer, 80 (2015), 605-613.

[76]Jianyu Yuan, Yanxiang LI, Effect of orifice geometry on bubble formation in melt gas injection to prepare aluminum foams，Science China—Technological Sciences，2015, 58 (1): 64-74.

[77]Liu Xingnan, Li Yanxiang, Chen Xiang, Bubble size control during the gas injection foaming process in aluminum alloy melt, Journal of Materials Research, Vol. 30, No. 7, Apr 14, 2015，1002-1010.

[78]Ming Du, Huawei Zhang, Yanxiang Li, Yuan Liu, Xiang Chen, Yun He. Depositing and alloying on the inner surface of Gasar Cu pores by plating and annealing Treatment, Applied Surface Science, 342 (2015) 69–75.

[79]Y. Liu,  H. W. Zhang, Y. X. Li, Effect of Melt Superheat on Structural Uniformity of Lotus-type Porous Metals Prepared by Unidirectional Solidification, Trans. Nonferrous Met. Soc. China, Vol.25, No.3(2015), 1004-1010.

[80]Yutong Zhou, Yanxiang Li, Jianyu Yuan. The stability of aluminum foams at accumulation and condensation stages in gas injection process, Colloids and Surfaces A: Physicochemical and Engineering Aspects，482 (2015) 468–476.

[81]Ming Du, Huawei Zhang, Yanxiang Li, Yuan Liu, Xiang Chen, Yun He. Fabrication and wettability of monolithic bimodal porous Cu with Gasar macro-pores and dealloying nano-pores. Applied Surface Science, 353 (2015) 804–810.

[82]Lu, S.Y., Yao K.F., Chen Y.B. Wang M.H., Shao Y., Ge X.Y., Effects of austenitizing temperature on the microstructure and electrochemical behavior of a martensitic stainless steel, Journal of Applied Electrochemistry, VOl.45, Pages:375-383, 2015

[83]Liu X., Shao Y., Lu, S.Y. Yao K.F.^*, High-Accuracy Bulk Metallic Glass Mold Insert for Hot Embossing of Complex Polymer Optical Devices, Journal of Polymer science part B-polymer physics, Vol.53 Pages 463-467, 2015

[84]Liu X., Shao Y., Han, Z.D. Yao K.F.^*Morphology and structure evolution of metallic nanowire arrays prepared by die nanoimprinting, Science Bulletin, Vol.60, Pages:629-633, 2015

[85]Li, J.F., Shao Y., Liu, X., Yao K.F.^*, Fe-based bulk amorphous alloys with high glass formation ability and high saturation magnetization, Science Bulletin, Vol. 60, Pages:396-399, 2015

[86]Tang Y., Shao Y., Chen N., Yao K.F.*, Rapid decomposition of Direct Blue 6 in neutral solution by Fe-B amorphous alloys, RSC Advances, Vol.5, Pages 6215-6221, 2015

[87]Tu W T, Shen H F, Liu B C. Modelling of macrosegregation in a 231-ton steel ingot with multi-pouring process[J]. Materials Research Innovations, 2015.

[88]TU W T, SHEN H F, LIU B C. Numerical simulation of macrosegregation during solidification of binary alloys[J]. Rare Metals, 2015.

[89]Li, Can; Li, Yahui; Xing, Yujin; et al., Perovskite Solar Cell Using a Two-Dimensional Titania Nanosheet Thin Film as the Compact Layer, ACS APPLIED MATERIALS & INTERFACES, 7, 15117-15122, 2015

[90]Wang, Yingxin; Deng, Xiangquan; Zhang, Guowei; et al.,Terahertz photodetector based on double-walled carbon nanotube macrobundle-metal contacts, OPTICS EXPRESS,, 23, 13348-13357, 2015

[91]Zhu, Miao; Li, Xinming; Chung, Sunki; et al., Photo-induced selective gas detection based on reduced graphene oxide/Si Schottky diode, CARBON, 84, 138-145, 2015

[92]Zhang, Yangyang; Zhen, Zhen; Zhang, Zelin; et al., In-situ synthesis of carbon nanotube/graphene composite sponge and its application as compressible supercapacitor electrode, ELECTROCHIMICA ACTA, 157, 134-141, 2015

[93]Sun, Pengzhan; Chen, Qiao; Li, Xinda; et al., Highly efficient quasi-static water desalination using monolayer graphene oxide/titania hybrid laminates, NPG ASIA MATERIALS, 7, e162, 2015

[94]Jiang, Xin; Cao, Yachang; Li, Peixu; et al., Polyaniline/graphene/carbon fiber ternary composites as supercapacitor electrodes, MATERIALS LETTERS, 140, 43-47, 2015

[95]Zang, Xiaobei; Xu, Ruiqiao; Zhang, Yangyang; et al., All carbon coaxial supercapacitors based on hollow carbon nanotube sleeve structure, NANOTECHNOLOGY, 26, 045401, 2015

[96]Jiang, Xin; Cao, Yachang; Wang, Kunlin; et al., Anti-reflection graphene coating on metal surface, SURFACE & COATINGS TECHNOLOGY, 261, 327-330, 2015

[97]Zang, Xiaobei; Li, Xiao; Zhu, Miao; et al., Graphene/polyaniline woven fabric composite films as flexible supercapacitor electrodes, NANOSCALE, 7, 7318-7322, 2015

[98]Xu, Ruiqiao; Wei, Jinquan; Guo, Fengmei; et al., Highly conductive, twistable and bendable polypyrrole-carbon nanotube fiber for efficient supercapacitor electrodes, RSC ADVANCES, 5, 22015-22021, 2015

[99]Zhang HW, Li YX, Liu Y, Chen X, Chen LT, He Y, Du M. Heat transfer performance of directional solidified gasar Cu heat sink. MetFoam 2015, 31 Aug. - 2 Sept. 2015, Barcelona, Spain.

[100]        Liu Y, Zhang HW, Chen X, Li YX. Fabrication of lotus-type porous micro-channel cu by single-mold gasar technique. MetFoam 2015, 31 Aug. - 2 Sept. 2015, Barcelona, Spain.

[101]        Wang NZ, Chen X, Li YX, Zhang HW, Liu Y. Study on bending performance of an al foam composite structure. MetFoam 2015, 31 Aug. - 2 Sept. 2015, Barcelona, Spain.

[102]        Chen X, Wang NZ, Li YX, Zhang HW, Liu Y. Compressive performance and energy absorption property of a new al syntactic foam. MetFoam 2015, 31 Aug. - 2 Sept. 2015, Barcelona, Spain.

[103]        Du M, Zhang HW, Li YX, Liu Y, Chen X, He Y. Depositing and alloying on the inner surface of gasar cu pores by plating and annealing treatment[J]. Appl. Surf. Sci., 2015, 342: 69-75.

[104]        Xiaohui Ye, Zhe Lin, Hongjun Zhang, Hongwei Zhu, Zhu Liu, MinlinZhong, Protecting carbon steel from corrosion by laser in situ grown graphene films, Carbon, July 2015, 94: 326-334 (IF 6.196)

[105]        Zhe Lin, Xiaohui Ye, Jinpeng Han, Qiao Chen, Peixun Fan, Hongjun Zhang, Dan Xie, Hongwei Zhu, Minlin Zhong, Precise Control of the Number of Layers of Graphene by Picosecond Laser Thinning, Scientific Report, June 26, 2015, 5:11662, DOI:10.1038/srep11662 (IF 5.578, SCI CL5LQ)

[106]        Long, Jiangyou; Fan, Peixun; Gong, Dingwei; Jiang, Dafa; Zhang, Hongjun; Li, Lin; Zhong, Minlin*, Superhydrophobic Surfaces Fabricated by Femtosecond Laser with Tunable Water Adhesion From Lotus Leaf to Rose Petal, ACS Applied Materials & Interfaces, April 23, 2015, 7:9858-9876 (IF 6.723, EI 20152000857059)

[107]        Chen Hong, Dongdong Gu, Donghua Dai, Moritz Alkhayat, Wolf Urban, Pengpeng Yuan, Sainan Cao, Andres Gasser, Andreas Weisheit, Ingomar Kelbassa, Minlin Zhong, Reinhart Poprawe, Laser additive manufacturing of ultrafine TiC particle reinforced Inconel 625 based composite parts: Tailored microstructures and enhanced performance, Materials Science and Engineering: A, May 21, 2015, 635:118-128 (IF 2.567, SCI CI2MV, EI 20151500734954)

[108]        Xiaohui Ye; Feng Yu, Michele Curioni, Zhe Lin, Hongjun Zhang, Hongwei Zhu, Zhu Liu, Minlin Zhong, Corrosion resistance of graphene directly and locally grown on bulk nickel substrate by laser Irradiation, RSC Advances 04/2015, 5: 35384-35390, (IF 3.84, SCI CG9PK)

[109]        Miao Zhu, Xinming Li, Sunki Chung, Liyun Zhao, Xiao LI, Xiaobei Zang, Kunlin Wang, Jinquan Wei, Minlin Zhong, Kun Zhou, Dan Xie, Hongwei Zhu, Photo-induced selective gas detection based on reduced graphene oxide/Si Schottky diode, Carbon, April 2015, 84:138-145 (IF 6.196, SCI CA5NQ, EI 20151400715565)

[110]        Dingwei Gong, Jiangyou Long, Peixun Fan, Dafa Jiang, Hongjun Zhang, Minlin Zhong*, Thermal stability of micro-nano structures and superhydrophobicity of polytetrafluoroethylene films formed by hot embossing via a picosecond laser ablated template, Applied Surface Science, March 15, 2015, 331:437-443 (IF 2.711, SCI CC2AC, EI 20151100648431)

[111]        Jiangyou Long, Minlin Zhong*, Hongjun Zhang, Peixun Fan, Superhydrophilicity to Superhydrophobicity Transition of Picosecond Laser Microstructured Aluminum in ambient air, Journal of Colloid and Interface Science, March 1, 2015, 441:1-9 (IF 3.368, SCI AY2RN, EI 20144900297005)

[112]        Pengzhan Sun, Qiao Chen, Xinda Li, He Liu, Kunlin Wang, Minlin Zhong, Jinquan Wei, Dehai Wu, Renzhi Ma, Takayoshi Sasaki, Hongwei Zhu, Highly efficient quasi-static water desalination using monolayer graphene oxide/titania hybrid laminates, NPG Asia Materials, Feb 2015, 7:e162, DOI:10.1038/am.2015.7 (IF 10.118, SCI CD0YP)

[113]        Jiangyou Long, Minlin Zhong*, Peixun Fan, Dingwei Gong, Hongjun Zhang, Wettability conversion of ultrafast laser structured copper surface, Journal of Laser Applications, Feb 2015, 27 (2) SI: S29107, DOI: 10.2351/1.4906477 (IF 1.798, SCI CC7JV)

[114]        Chen Hong, Dongdong Gu, Honghua Dai, Sainan Cao, Moritz Alkhayat, Qingbo Jia, Andres Gasser, Andreas Weisheit, Ingomar Kelbassa, Minlin Zhong, Reinhart Poprawe, High-temperature oxidation performance and its mechanism of Tic/Inconel 625 composites prepared by laser metal deposition additive manufacturing, Journal of Laser Applications, Feb 2015, 27(SI 1), S17005 (IF 1.798, SCI AX0FN, EI 20145100327656)

[115]        Pengzhan Sun, He Liu, Kunlin Wang, Minlin Zhong, Dehai Wu, Hongwei Zhu, Ultrafast liquid water transport through graphene-based nanochannels measured by isotope labelling, Chemical Communications, 2015, 51 (15):3251-3254 (IF 6.834, SCI CB0NV)

[116]        P. Z. Sun, Q. Chen, X. D. Li, H. Liu, K. L. Wang, M. L. Zhong, J. Q. Wei, D. H. Wu, R. Z. Ma, T. Sasaki, H. W. Zhu*. Highly efficient quasi-static water desalination using monolayer graphene oxide/titania hybrid laminates. NPG Asia Mater., 2015, 7, e162.

[117]        X. B. Zang, M. Zhu, X. Li, X. M. Li, Z. Zhen, J. C. Lao, K. L. Wang, F. Y. Kang, B. Q. Wei, H. W. Zhu*. Dynamically stretchable supercapacitors based on graphene woven fabric electrodes. Nano Energy, 2015, 15, 83-91.

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