2014年： 

　　1. 材料与物理研究 

　　[1] S. Axnanda, Z. W. Zhu, W. P. Zhou, B. H. Mao, R. Chang, S. Rani, E. Crumlin, G. Somorjai, and Z. Liu, "In Situ Characterizations of Nanostructured SnOx/Pt(111) Surfaces Using Ambient-Pressure XPS (APXPS) and High-Pressure Scanning Tunneling Microscopy (HPSTM)," J Phys Chem C 118, 1935-1943 (2014). 

　　[2] G. Bo, L. Xiaojiang, J. Qiucheng, M. Gang, L. Wei, H. Tao, L. Ang, and X. Xiaoming, "Phase diagram and weak-link behavior in Nd-doped CaFe 2 As 2," New Journal of Physics 16, 113024 (2014).  

　　[3] H. J. Chen, G. H. Zhang, T. Hu, G. Mu, W. Li, F. Q. Huang, X. M. Xie, and M. H. Jiang, "Effect of Local Structure Distortion on Superconductivity in Mg- and F-Codoped LaOBiS2," Inorg Chem 53, 9-11 (2014).  

　　[4] Z. Y. Chen, Y. H. Zhang, H. R. Zhang, Y. P. Sui, Y. Q. Zhang, G. H. Yu, Z. Jin, and X. Y. Liu, "Probing graphene grain boundaries and enhancing the electrical properties of graphene films by Pt modification," Mater Lett 131, 53-56 (2014).  

　　[5] C. Dejoie, P. Sciau, W. D. Li, L. Noe, A. Mehta, K. Chen, H. J. Luo, M. Kunz, N. Tamura, and Z. Liu, "Learning from the past: Rare epsilon-Fe2O3 in the ancient black-glazed Jian (Tenmoku) wares," Sci Rep-Uk 4 (2014).  

　　[6] S. Dong, W. Li, X. Huang, and E. Dagotto, "First principles study of the magnetic properties of LaOMnAs," J Appl Phys 115 (2014).  

　　[7] B. Gao, J. Yin, Z. Y. Mao, D. J. Wang, L. X. Zhang, and L. J. Bie, "Synthesis and photoluminescence of blue LED excitable La4Ti9O24:Eu3+ phosphor for red-light emission," Mater Res Bull 51, 185-188 (2014).  

　　[8] H. B. Gao, W. Peng, X. H. Zhu, T. Hu, X. M. Xie, and J. L. Zhu, "Epitaxial growth and transport properties of BaTiO3/LaAlO3/SrTiO3 heterostructures," Ceram Int 40, 13763-13769 (2014).  

　　[9] Q. Ji, Y. Ma, K. Hu, B. Gao, G. Mu, W. Li, T. Hu, G. Zhang, Q. Zhao, H. Zhang, F. Huang, and X. Xie, "Synthesis, Structural, and Transport Properties of Cr-Doped BaTi2As2O," Inorg Chem 53, 13089-13092 (2014).  

　　[10] Q. C. Ji, B. Gao, G. Mu, T. Hu, W. Li, Y. S. Liu, Y. H. Ma, and X. M. Xie, "Enhancement of superconductivity by Sb-doping in the hole-doped iron-pnictide superconductor Pr1-xSrxFeAsO," Physica C 498, 50-53 (2014).  

　　[11] D. Jiang, T. Hu, L. You, Q. Li, A. Li, H. Wang, G. Mu, Z. Chen, H. Zhang, G. Yu, J. Zhu, Q. Sun, C. Lin, H. Xiao, X. Xie, and M. Jiang, "High-Tc superconductivity in ultrathin Bi2Sr2CaCu2O8+x down to half-unit-cell thickness by protection with graphene," Nat Commun 5 (2014).  

　　[12] G. H. Li, L. Shi, G. F. Zeng, Y. F. Zhang, and Y. H. Sun, "Efficient dehydration of the organic solvents through graphene oxide (GO)/ceramic composite membranes," Rsc Adv 4, 52012-52015 (2014).  

　　[13] H. Q. Li, Y. T. Xie, K. Li, L. P. Huang, S. S. Huang, B. Z. Zhao, and X. B. Zheng, "Microstructure and wear behavior of graphene nanosheets-reinforced zirconia coating," Ceram Int 40, 12821-12829 (2014).  

　　[14] W. Li, Z. Liu, Y. S. Wu, and Y. Chen, "Exotic fractional topological states in a two-dimensional organometallic material," Phys Rev B 89 (2014).  

　　[15] W. Li, C. Setty, X. H. Chen, and J. P. Hu, "Electronic and magnetic structures of chain structured iron selenide compounds," Front Phys-Beijing 9, 465-471 (2014).  

　　[16] W. Li, D. N. Sheng, C. S. Ting, and Y. Chen, "Fractional quantum spin Hall effect in flat-band checkerboard lattice model," Phys Rev B 90 (2014).  

　　[17] W. Li, X. Y. Wei, J. X. Zhu, C. S. Ting, and Y. Chen, "Pressure-induced topological quantum phase transition in Sb2Se3," Phys Rev B 89 (2014).  

　　[18] X. B. Li, S. W. Yang, J. Sun, P. He, X. P. Pu, and G. Q. Ding, "Enhanced electromagnetic wave absorption performances of Co3O4 nanocube/reduced graphene oxide composite," Synthetic Met 194, 52-58 (2014).  

　　[19] X. B. Li, S. W. Yang, J. Sun, P. He, X. G. Xu, and G. Q. Ding, "Tungsten oxide nanowire-reduced graphene oxide aerogel for high-efficiency visible light photocatalysis," Carbon 78, 38-48 (2014).  

　　[20] Z. J. Li, B. F. Gao, J. L. Zhao, X. M. Xie, and M. H. Jiang, "Effect of electrolyte gating on the superconducting properties of thin 2H-NbSe2 platelets," Supercond Sci Tech 27 (2014).  

　　[21] T. Q. Lin, C. Y. Yang, Z. Wang, H. Yin, X. J. Lu, F. Q. Huang, J. H. Lin, X. M. Xie, and M. H. Jiang, "Effective nonmetal incorporation in black titania with enhanced solar energy utilization," Energ Environ Sci 7, 967-972 (2014).  

　　[22] X. S. Liu, W. L. Yang, and Z. Liu, "Recent Progress on Synchrotron-Based In-Situ Soft X-ray Spectroscopy for Energy Materials," Adv Mater 26, 7710-7729 (2014).  

　　[23] Z. Liu, X. Y. Wei, J. J. Wang, H. Pan, F. H. Ji, F. C. Xi, J. Zhang, T. D. Hu, S. Zhang, Z. Jiang, W. Wen, Y. Y. Huang, M. Ye, Z. Q. Yang, and S. Qiao, "Local structures around 3d metal dopants in topological insulator Bi2Se3 studied by EXAFS measurements," Phys Rev B 90 (2014).  

　　[24] B. H. Mao, R. Chang, L. Shi, Q. Q. Zhuo, S. Rani, X. S. Liu, E. C. Tyo, S. Vajda, S. D. Wang, and Z. Liu, "A near ambient pressure XPS study of subnanometer silver clusters on Al2O3 and TiO2 ultrathin film supports," Phys Chem Chem Phys 16, 26645-26652 (2014).  

　　[25] G. Mu, Q. Ji, W. Li, X. Xu, T. Hu, D. Jiang, Z. Wang, B. Gao, X. Xie, and M. Jiang, "Quantum magnetoresistance in the Ca-intercalated graphite superconductor }_{6}$," Phys Rev B 90, 214522 (2014).  

　　[26] H. Pan, B. Li, T. Shi, Z. Liu, F. H. Ji, and S. Qiao, "Intrinsic ferromagnetism in iron doped magnetically topological insulator Fe0.015BiSbTe3," J Electron Spectrosc 196, 130-132 (2014).  

　　[27] X. Song, S. W. Yang, L. He, S. Yan, and F. Liao, "Ultra-flyweight hydrophobic poly(m-phenylenediamine) aerogel with micro-spherical shell structures as a high-performance selective adsorbent for oil contamination," Rsc Adv 4, 49000-49005 (2014).  

　　[28] Y. X. Song, C. R. Zhang, B. Li, G. Q. Ding, D. Jiang, H. M. Wang, and X. M. Xie, "Van der Waals epitaxy and characterization of hexagonal boron nitride nanosheets on graphene," Nanoscale Res Lett 9 (2014).  

　　[29] Y. X. Song, C. R. Zhang, B. Li, D. Jiang, G. Q. Ding, H. M. Wang, and X. M. Xie, "Triggering the atomic layers control of hexagonal boron nitride films," Appl Surf Sci 313, 647-653 (2014).  

　　[30] Y. P. Sui, B. Wang, Z. D. Zhao, W. Xu, X. L. Li, X. Z. Wang, and G. H. Yu, "Facet growth of self-separated GaN layers through HVPE on large square-patterned template," J Cryst Growth 394, 11-17 (2014).  

　　[31] Y. P. Sui, B. Wang, Z. D. Zhao, W. Xu, X. L. Li, G. H. Yu, and X. Z. Wang, "Strain Distribution Across HVPE GaN Layer Grown on Large Square-Patterned Template Studied by Micro-Raman Scattering," J Electron Mater 43, 2715-2722 (2014).  

　　[32] J. Sun, S. Yang, Z. Wang, H. Shen, T. Xu, L. Sun, H. Li, W. Chen, X. Jiang, G. Ding, Z. Kang, X. Xie, and M. Jiang, "Ultra-High Quantum Yield of Graphene Quantum Dots: Aromatic-Nitrogen Doping and Photoluminescence Mechanism," Particle & Particle Systems Characterization, n/a-n/a (2014).  

　　[33] B. Wang, H. R. Zhang, Y. H. Zhang, Z. Y. Chen, Z. Jin, X. Y. Liu, L. Z. Hu, and G. H. Yu, "Effect of Cu substrate roughness on growth of graphene domains at atmospheric pressure," Mater Lett 131, 138-140 (2014).  

　　[34] B. Wang, Y. H. Zhang, H. R. Zhang, Z. Y. Chen, X. M. Xie, Y. P. Sui, X. L. Li, G. H. Yu, L. Z. Hu, Z. Jin, and X. Y. Liu, "Wrinkle-dependent hydrogen etching of chemical vapor deposition-grown graphene domains," Carbon 70, 75-80 (2014).  

　　[35] B. Wang, Z. D. Zhao, W. Xu, Y. P. Sui, and G. H. Yu, "Influence of annealing porous templates in an ammonia atmosphere on gallium nitride growth behaviors in hydride vapor phase epitaxy," Mat Sci Semicon Proc 27, 541-545 (2014).  

　　[36] G. Wang, D. Chen, Z. T. Lu, Q. L. Guo, L. Ye, X. Wei, G. Q. Ding, M. Zhang, Z. F. Di, and S. Liu, "Growth of homogeneous single-layer graphene on Ni-Ge binary substrate," Appl Phys Lett 104 (2014).  

　　[37] G. Wang, J. H. Li, D. Chen, L. Zheng, X. H. Zheng, Q. L. Guo, X. Wei, G. Q. Ding, M. Zhang, Z. F. Di, and S. Liu, "Direct growth of single-layer graphene on Ni surface manipulated by Si barrier," Appl Phys Lett 104 (2014).  

　　[38] S. M. Wang, Q. Gong, Y. Y. Li, C. F. Cao, H. F. Zhou, J. Y. Yan, Q. B. Liu, L. Y. Zhang, G. Q. Ding, Z. F. Di, and X. M. Xie, "A novel semiconductor compatible path for nano-graphene synthesis using CBr4 precursor and Ga catalyst," Sci Rep-Uk 4 (2014).  

　　[39] H. Xiao, T. Hu, W. Zhang, Y. M. Dai, H. Q. Luo, H. H. Wen, C. C. Almasan, and X. G. Qiu, "Two distinct superconducting fluctuation diamagnetisms in Bi2Sr2-xLaxCuO6+delta," Phys Rev B 90 (2014).  

　　[40] S. W. Yang, J. Sun, X. B. Li, W. Zhou, Z. Y. Wang, P. He, G. Q. Ding, X. M. Xie, Z. H. Kang, and M. H. Jiang, "Large-scale fabrication of heavy doped carbon quantum dots with tunable-photoluminescence and sensitive fluorescence detection," J Mater Chem A 2, 8660-8667 (2014).  

　　[41] S. W. Yang, C. C. Ye, X. Song, L. He, and F. Liao, "Theoretical calculation based synthesis of a poly(p-phenylenediamine)-Fe3O4 composite: a magnetically recyclable photocatalyst with high selectivity for acid dyes," Rsc Adv 4, 54810-54818 (2014).  

　　[42] Z. R. Ye, H. F. Yang, D. W. Shen, J. Jiang, X. H. Niu, D. L. Feng, Y. P. Du, X. G. Wan, J. Z. Liu, X. Y. Zhu, H. H. Wen, and M. H. Jiang, "Electronic structure of single-crystalline NdO0.5F0.5BiS2 studied by angle-resolved photoemission spectroscopy," Phys Rev B 90 (2014).  

　　[43] D. J. Yu, F. Yang, L. Miao, C. Q. Han, M. Y. Yao, F. F. Zhu, Y. R. Song, K. F. Zhang, J. F. Ge, X. Yao, Z. Q. Zou, Z. J. Li, B. F. Gao, C. H. Liu, D. D. Guan, C. L. Gao, D. Qian, and J. F. Jia, "Fully gapped s-wave-like superconducting state and electronic structure in Ir0.95Pd0.05Te2 single crystals with strong spin-orbital coupling," Phys Rev B 89 (2014).  

　　[44] G. F. Zeng, H. Y. Jia, A. Goldbach, L. F. Zhao, S. Miao, L. Shi, C. L. Sun, and H. Y. Xu, "Hydrogen-induced high-temperature segregation in palladium silver membranes," Phys Chem Chem Phys 16, 25330-25336 (2014).  

　　[45] G. F. Zeng, L. Shi, Y. Y. Liu, Y. F. Zhang, and Y. H. Sun, "A simple approach to uniform PdAg alloy membranes: Comparative study of conventional and silver concentration-controlled co-plating," Int J Hydrogen Energ 39, 4427-4436 (2014).  

　　[46] D. F. Zhang, Q. Ding, X. P. Pu, C. H. Su, X. Shao, G. Q. Ding, Z. G. Zhang, and Q. N. Fang, "One-step combustion synthesis of NiFe2O4-reduced graphene oxide hybrid materials for photodegradation of methylene blue," Funct Mater Lett 7 (2014).  

　　[47] Y. H. Zhang, B. Wang, H. R. Zhang, Z. Y. Chen, Y. Q. Zhang, B. Wang, Y. P. Sui, X. L. Li, X. M. Xie, G. H. Yu, Z. Jin, and X. Y. Liu, "The distribution of wrinkles and their effects on the oxidation resistance of chemical vapor deposition graphene," Carbon 70, 81-86 (2014).  

　　[48] Y. H. Zhang, H. R. Zhang, B. Wang, Z. Y. Chen, Y. Q. Zhang, B. Wang, Y. P. Sui, B. Zhu, C. M. Tang, X. L. Li, X. M. Xie, G. H. Yu, Z. Jin, and X. Y. Liu, "Role of wrinkles in the corrosion of graphene domain-coated Cu surfaces," Appl Phys Lett 104 (2014).  

　　[49] Y. W. Zhang, Z. J. Qiu, X. H. Cheng, H. Xie, H. M. Wang, X. M. Xie, Y. H. Yu, and R. Liu, "Direct growth of high-quality Al2O3 dielectric on graphene layers by low-temperature H2O-based ALD," J Phys D Appl Phys 47 (2014).  

　　[50] H. Zhao, Z. H. Wang, P. Lu, M. Jiang, F. F. Shi, X. Y. Song, Z. Y. Zheng, X. Zhou, Y. B. Fu, G. Abdelbast, X. C. Xiao, Z. Liu, V. S. Battaglia, K. Zaghib, and G. Liu, "Toward Practical Application of Functional Conductive Polymer Binder for a High-Energy Lithium-Ion Battery Design," Nano Lett 14, 6704-6710 (2014).  

　　[51] Z. D. Zhao, B. Wang, Y. P. Sui, W. Xu, X. L. Li, and G. H. Yu, "Reduction of Dislocation Density in HVPE-Grown GaN Epilayers by Using In Situ-Etched Porous Templates," J Electron Mater 43, 786-790 (2014).  

　　[52] C. Zhu, D. Chao, J. Sun, I. M. Bacho, Z. Fan, C. F. Ng, X. Xia, H. Huang, H. Zhang, Z. X. Shen, G. Ding, and H. J. Fan, "Enhanced Lithium Storage Performance of CuO Nanowires by Coating of Graphene Quantum Dots," Advanced Materials Interfaces, (2014).  

　　[53] Y. Zhu, Q. K. Yu, G. Q. Ding, X. G. Xu, T. R. Wu, Q. Gong, N. Y. Yuan, J. N. Ding, S. M. Wang, X. M. Xie, and M. H. Jiang, "Raman enhancement by graphene-Ga2O3 2D bilayer film," Nanoscale Res Lett 9 (2014).  

　　2. 器件与应用方向 

　　[54] K. Chang, Y. Zhang, Y. L. Wang, J. Zeng, X. F. Xu, Y. Qiu, H. J. Krause, X. M. Xie, and A. Offenhausser, "A simple SQUID system with one operational amplifier as readout electronics," Supercond Sci Tech 27 (2014).  

　　[55] S. Dong, Q. Zhou, W. Zhang, Y. He, W. Zhang, L. You, Y. Huang, and J. Peng, "Energy-time entanglement generation in optical fibers under CW pumping," Opt Express 22, 359-368 (2014).  

　　[56] M. Fujiwara, K. Yoshino, Y. Nambu, T. Yamashita, S. Miki, H. Terai, Z. Wang, M. Toyoshima, A. Tomita, and M. Sasaki, "Modified E91 protocol demonstration with hybrid entanglement photon source," Opt Express 22, 13616-13624 (2014).  

　　[57] R. Ikuta, T. Kobayashi, S. Yasui, S. Miki, T. Yamashita, H. Terai, M. Fujiwara, T. Yamamoto, M. Koashi, M. Sasaki, Z. Wang, and N. Imoto, "Frequency down-conversion of 637 nm light to the telecommunication band for non-classical light emitted from NV centers in diamond," Opt Express 22, 11205-11214 (2014).  

　　[58] R. B. Jin, R. Shimizu, I. Morohashi, K. Wakui, M. Takeoka, S. Izumi, T. Sakamoto, M. Fujiwara, T. Yamashita, S. Miki, H. Terai, Z. Wang, and M. Sasaki, "Efficient generation of twin photons at telecom wavelengths with 2.5 GHz repetition-rate-tunable comb laser," Sci Rep-Uk 4 (2014).  

　　[59] R. B. Jin, R. Shimizu, K. Wakui, M. Fujiwara, T. Yamashita, S. Miki, H. Terai, Z. Wang, and M. Sasaki, "Pulsed Sagnac polarization-entangled photon source with a PPKTP crystal at telecom wavelength," Opt Express 22, 11498-11507 (2014).  

　　[60] X. J. Kang, L. L. Ying, H. Wang, G. F. Zhang, W. Peng, X. Y. Kong, X. M. Xie, and Z. Wang, "Measurements of tunneling barrier thicknesses for Nb/Al-AlOx/Nb tunnel junctions," Physica C 503, 29-32 (2014).  

　　[61] H. Li, W. Zhang, L. You, L. Zhang, X. Yang, X. Liu, S. Chen, C. Lv, W. Peng, Z. Wang, and X. Xie, "Nonideal Optical Cavity Structure of Superconducting Nanowire Single-Photon Detector," Selected Topics in Quantum Electronics, IEEE Journal of 20, 3803705 (2014).  

　　[62] D. Liu, S. Miki, T. Yamashita, L. You, Z. Wang, and H. Terai, "Multimode fiber-coupled superconducting nanowire single-photon detector with 70% system efficiency at visible wavelength," Opt Express 22, 21167-21174 (2014).  

　　[63] D. K. Liu, L. X. You, Y. H. He, C. L. Lv, S. J. Chen, L. Zhang, Z. Wang, and X. M. Xie, "Photon-number resolving and distribution verification using a multichannel superconducting nanowire single-photon detection system," J Opt Soc Am B 31, 816-820 (2014).  

　　[64] S. Miki, T. Yamashita, Z. Wang, and H. Terai, "A 64-pixel NbTiN superconducting nanowire single-photon detector array for spatially resolved photon detection," Opt Express 22, 7811-7820 (2014).  

　　[65] Y. Qiu, C. Liu, S. L. Zhang, G. F. Zhang, Y. L. Wang, H. Li, J. Zeng, X. Y. Kong, and X. M. Xie, "A SQUID gradiometer module with large junction shunt resistors," Chinese Phys B 23 (2014).  

　　[66] Q. J. Sun, H. S. Wang, H. M. Wang, L. W. Deng, Z. W. Hu, B. Gao, Q. Li, and X. M. Xie, "Electronic transport transition at graphene/YBa2Cu3O7-delta junction," Appl Phys Lett 104 (2014).  

　　[67] Y.-L. Tang, H.-L. Yin, S.-J. Chen, Y. Liu, W.-J. Zhang, X. Jiang, L. Zhang, J. Wang, L.-X. You, J.-Y. Guan, D.-X. Yang, Z. Wang, H. Liang, Z. Zhang, N. Zhou, X. Ma, T.-Y. Chen, Q. Zhang, and J.-W. Pan, "Measurement-Device-Independent Quantum Key Distribution over 200 km," Physical Review Letters 113, 190501 (2014).  

　　[68] T. Yamashita, D. Liu, S. Miki, J. Yamamoto, T. Haraguchi, M. Kinjo, Y. Hiraoka, Z. Wang, and H. Terai, "Fluorescence correlation spectroscopy with visible-wavelength superconducting nanowire single-photon detector," Opt Express 22, 28783-28789 (2014).  

　　[69] X. Y. Yang, H. Li, W. J. Zhang, L. X. You, L. Zhang, X. Y. Liu, Z. Wang, W. Peng, X. M. Xie, and M. H. Jiang, "Superconducting nanowire single photon detector with on-chip bandpass filter," Opt Express 22, 16267-16272 (2014).  

　　[70] L. L. Ying, X. J. Kang, L. Zhang, G. F. Zhang, H. W. Wang, W. Peng, X. Y. Kong, X. M. Xie, and Z. Wang, "Investigation of profile characteristics and interface of anodized niobium superconducting films," Physica C 499, 50-53 (2014).  

　　[71] J. Zeng, Y. Zhang, Y. Qiu, G. F. Zhang, Y. L. Wang, X. Y. Kong, and X. M. Xie, "Superconducting quantum interference devices with different damped junctions operated in directly coupled current- and voltage-bias modes," Chinese Phys B 23 (2014).  

　　[72] J. Zeng, Y. Zhang, M. Schmelz, M. Muck, H. J. Krause, A. I. Braginski, Y. H. Lee, R. Stolz, X. Y. Kong, X. M. Xie, H. G. Meyer, A. Offenhausser, and M. H. Jiang, "Analysis of a dc SQUID readout scheme with voltage feedback circuit and low-noise preamplifier," Supercond Sci Tech 27 (2014).  

　　[73] L. Zhang, L. X. You, D. K. Liu, W. J. Zhang, L. Zhang, X. Y. Liu, J. J. Wu, Y. H. He, C. L. Lv, Z. Wang, and X. M. Xie, "Characterization of superconducting nanowire single-photon detector with artificial constrictions," Aip Adv 4 (2014).  

　　[74] Q. Zhou, S. Dong, W. Zhang, L. You, Y. He, W. Zhang, Y. Huang, and J. Peng, "Frequency-entanglement preparation based on the coherent manipulation of frequency nondegenerate energy-time entangled state," J. Opt. Soc. Am. B 31, 1801-1806 (2014).