ABOUT US

Key Laboratory for Magnetism and Magnetic Materials of the Ministry of Education of lanzhou university was officially confirmed by the ministry of education on August 17, 2000.Based on the magnetism specialty established in 1955, its predecessor was approved by the former state education commission in December 1993 and opened to the public in June 1996.

Yong Peng

2019-03-05    磁学实验室

Yong Peng

Resume

Dr. Yong Peng received his Ph.D degree in 2001 from University of Salford, UK. He joined the School of Physical Science and Technology at Lanzhou University in 2010, moving from the University of Sheffield as a research associate. He created the Electron Microscopy Centre of Lanzhou University and the Electron Microscope Society of Northwestern China. He is a Cuiying distinguished Professor in Condensed Matter Physics, director of Electron Microscopy Center of Lanzhou University, chairman of Electron Microscope Society of Northwestern China and an associate director of the Key Laboratory for Magnetism and Magnetic Materials of the Ministry of Education. He has published more than 200 research papers, including 100 SCI papers (36 papers IF>5). His h-index is 25 currently. A number of top academic websites, newspapers, media including PhysOrg.com, Wired.com, Chemical and Engineering News and NASA highlighted and re-reported Yongs work of a new way to weld together individual nanowires and nano-objects using tiny blobs of metal solder less than 250 atoms across (Nano Letters 2009, 9, 91-96). He also has several other research work widely reported. He is interested in developing magneto-related research instruments in situ electron microscopes and characterizing microstructures & dynamical behaviors of low-dimensional magnetic materials and magnetic electronic devices.

Research direction

1: Developing magneto-related research instruments in situ electron microscopes 2: Characterizing microstructures & dynamical behaviors of low-dimensional magnetic materials 3: Characterizing microstructures & dynamical behaviors of magnetic electronic devices.

Publishing papers and Monographs

1: Wang, L.; Liu, C.; Mehmood, N.; Han, G.; Wang, Y. D.; Xu, X. L.; Feng, C.*; Hou, Z. P.*; Peng, Y.*; Gao, X. S.; and Yu, G. H.; Construction of a Room-Temperature Pt/Co/Ta Multilayer Film with Ultrahigh-Density Skyrmions for Memory Application, ACS Appl. Mater. Interfaces 2019, 11 (12), 1209812104. 2: Zeng, X.; Zhang, J. W.; Si, M. S.; Deng, X.; Cao, D. R.; Ma, H. B.; Lan, Q. Q.; Xue, D. S.; Tao, K.*; Zhang, X. X.*; and Peng, Y.*, Direct imaging of dopant sites in rare-earth-element-doped permanent magnet and correlated magnetism origin, Nanoscale 2019, 11, 4385-4393. 3: Zhang, X.; Zhang, H.; Zheng, X. J.; Walls, M.*; and Peng, Y.*, A novel 96.5Sn3Cu0.5Mn nanosolder with enhanced wettability applied to nanosoldering of WO3 nanomaterial, Nanotechnology 2019, 30, 195302. 4: Sun, Y.; Zhang, J. W.; Zong, Y.; Deng, X.; Zhao, H. Y.; Feng, J.; He, M.; Li, X. H.*; Peng, Y.*; and Zheng, X. L.; CrystallineAmorphous Permalloy@Iron Oxide CoreShell Nanoparticles Decorated on Graphene as High-Efficiency, Lightweight, and Hydrophobic Microwave Absorbents, ACS Appl. Mater. Interfaces 2019, 11(6), 6374-6383. 5: Zhu, L.; Deng, X.; Hu, Y.; Liu, J.; Ma, H. B.; Zhang, J. L.; Fu J. C.; He, S. S.; Wang, J.; Wang, B. D.; Xue, D. S.; Peng, Y.*, Atomic-scale imaging of the ferrimagnetic/diamagnetic interface in Au-Fe3O4 nanodimers and correlated exchange-bias origin, Nanoscale 2018,10, 21499-21508. 6: Hu, C. X.; Xiao, Q.; Ren, Y. Y.; Zhao, M.; Dun, G. H.; Wu, H. R.; Li, X. Y.; Yang, Q. Q.; Sun, B.; Peng, Y.; Yan, F.; Wang, Q.*; Zhang, H. L.*, Polymer Ionic Liquid Stabilized Black Phosphorus for Environmental Robust Flexible Optoelectronics, Adv. Funct. Mater. 2018, 28(51), 1805311. 7: Dai, S. Y.; He, Y. H.; Huang, H. M.; Zhang, H. W.; Zhang, J. W.; Peng, Y.*; Bai, F. M., Electrodeposited CoCu/Cu meta-conductor with suppressed skin effect for next generation radio frequency electronics, J. Alloy. Compd. 2019, 778, 156-162. 8: Li, Q*.; Chen, Z. Y.; Zhang, X.; Peng, Y.; Ghosh, P.; Yao, G. N.; Luo, H.; Lv J.; Qiu, M., Au80Sn20-based targeted noncontact nanosoldering with low power consumption, Opt. Lett. 2018, 43(20), 4989~4992. 9Zhang, L.; Gao L. F.; Li, L. X.; Hu, C. X.; Yang, Q. Q.; Zhu, Z. Y.; Peng, R.; Wang, Q.*; Peng, Y.; Jin, J.*; and Zhang, H. L., Negatively charged 2D black phosphorus for highly efficient covalent functionalization, Mater. Chem. Front. 2018, 2, 1700-1706. 10Zhang, J. L.; Fu, J. C.; Shi, F. Y.; Peng, Y.; Si, M. S.*, Cavallob L. G.; and Cao, Z.; Hydrogen atom induced magnetic behaviors in two-dimensional materials: insight on origination in the model of α-MoO3, Nanoscale 2018, 10, 14100-14106. 11: Zhu, S. M.; Fu, J. C.; Li, H.; Zhu, L.; Hu, Y.; Xia, W. X.; Zhang, X. X.; Peng, Y.*; Zhang, J. L., Direct Observation of Magnetocrystalline Anisotropy Tuning Magnetization Configurations in Uniaxial Magnetic Nanomaterials. ACS Nano 2018, 12 (4), 3442-3448. 12: Zhang, S. F.; Zhang, J. W.; Zhang, Q.; Barton, C.; Neu, V.; Zhao, Y. L.; Hou, Z. P.; Wen, Y.; Gong, C.; Kazakova, O.; Wang, W. H.; Peng, Y.; Garanin, D. A.; Chudnovsky, E. M.; Zhang, X. X.*, Direct writing of room temperature and zero field skyrmion lattices by a scanning local magnetic field. Appl. Phys. Lett. 2018, 112 (13), 132405. 13: Li, Q. Z.; Huang, Y. Q.; Ning, J. Q.; Jiang. C.; Wang. X.; Chen. H. M.; Li, X.; Zhang, R. Y.; Zhang, K.; Min, J. H.; Peng, Y.*; Zhang, Z. Y.*; InAs/GaAs Quantum Dot Dual-Mode Distributed Feedback Laser Towards Large Tuning Range Continuous-Wave Terahertz Application, Nanoscale Res. Lett. 2018, 13, 0~267. 14: Zhang, J. L.; Zhu, S. M.; Li, H. L.; Zhu, L.; Hu, Y.; Xia, W. X.; Zhang, X. X.; Peng, Y.*; Fu, J. C., Direct observation of dynamical magnetization reversal process governed by shape anisotropy in single NiFe2O4 nanowire. Nanoscale 2018, 10 (21), 10123-10129. 15: Zhang, J. L.; Zhu, L.; Yang, Y.; Yong, H. D.; Zhang, J. W.; Peng, Y.*; Fu, J. C., A Coulomb explosion strategy to tailor the nano-architecture of alpha-MoO3 nanobelts and an insight into its intrinsic mechanism. Nanoscale 2018, 10 (17), 8285-8291. 16: Wen, H.; Li, H.; He, S. S.; Chen, F. J.; Ding, E. L.; Liu, S.; Wang, B. D.; Peng, Y.*, Constructing two-dimensional CuFeSe2@Au heterostructured nanosheets with an amorphous core and a crystalline shell for enhanced near-infrared light water oxidation. Nanoscale 2018, 10 (5), 2380-2387. 17: Zhu, S. M.; Zhao, J. T.; Xia, W. X*.; Sun, Y. L.*; Peng, Y.; Fu, J. C., Magnetic structure and coercivity mechanism of AlNiCo magnets studied by electron holography. J. Alloy. Compd. 2017, 720, 401-407. 18: Zhang, X.; Zheng, X. J.; Zhang, H.; Zhang, J. L.; Fu, J. C.; Zhang, Q.; Peng, C. Y.; Bai, F. M.; Zhang, X. X.; Peng, Y.*, Bottom-up nanoarchitectures of semiconductor nano-building blocks obtained via a controllable in situ SEM-FIB thermal soldering method. J. Mater. Chem. C 2017, 5 (34), 8707-8713. 19: Zhang, Q.; Wen, Y.; Zhao, Y. L.; Li, P.; He, X.; Zhang, J. L.; He, Y.; Peng, Y.; Yu, R. H.; Zhang, X. X.*, Skew scattering dominated anomalous Hall effect in Co-x(MgO)(100-x) granular thin films. J. Phys.-Condensed Matter 2017, 29 (41), 415802. 20: Zeng, X.; Zhang, J. W.; Zhu, S. M.; Deng, X.; Ma, H. B.; Zhang, J. L.; Zhang, Q.; Li, P.; Xue, D. S.; Mellors, N. J.; Zhang, X. X.; Peng, Y.*, Direct observation of cation distributions of ideal inverse spinel CoFe2O4 nanofibres and correlated magnetic properties. Nanoscale 2017, 9 (22), 7493-7500. 21: Luo, Y. T.; Peng, Y.; Liu, W. S.; Chen, F. J.; Wang, B. D.*, Soluble Porous Coordination Frameworks Constructed from Inorganic Nanoparticles as Homogenized Heterogeneous Photocatalysts for Suzuki Coupling Reactions under Near-Infrared Light. Chem.-Eur. J. 2017, 23 (37), 8879-8885. 22: Liu, J.; Wang, H.; Bai, J. W.; Li, T. R.; Yang, Y. M.; Peng, Y*.; Wang, B. D.*, Gram-scale synthesis of aligned C3N4-polypyrrole heterojunction aerogels with tunable band structures as efficient visible and near infrared light-driven metal-free photocatalysts. J. Mater. Chem. A 2017, 5 (47), 24920-24928. 23: Li, P.; Xia, C. A.; Li, J.; Zhu, Z. Y.; Wen, Y.; Zhang, Q. A.; Zhang, J. W.; Peng, Y.; Alshareef, H. N.; Zhang, X. X.*, Spin Filtering in Epitaxial Spinel Films with Nanoscale Phase Separation. ACS Nano 2017, 11 (5), 5011-5019. 24: Huang, Y. Q.; Huang, R.; Liu, Q. L.; Zheng, C. C.; Ning, J. Q.; Peng, Y.; Zhang, Z. Y., Realization of III-V Semiconductor Periodic Nanostructures by Laser Direct Writing Technique, Nanoscale Res. Lett. 2017, 12 (1), 12. 25: Hai, J.; Li, H.; Zhao, Y.; Chen, F. J.; Peng, Y.*; Wang, B. D.*, Designing of blue, green, and red CsPbX3 perovskitecodoped flexible films with water resistant property and elimination of anion-exchange for tunable white light emission. Chem. Commun. 2017, 53 (39), 5400-5403. 26: Lan Q. Q.; Zhang X. J.; Shen X.; Yang H. W.; Zhang H. R.; Guan X. X.; Wang W.; Yao Y.; Wang Y. G.; Peng Y.; Liu B. G.; Sun J. R.; Yu R. C., Tuning the magnetism of epitaxial cobalt oxide thin films by electron beam irradiation, Phys. Rev. Mater. 2017, 1(2), 0~024403. 27: Guo, X. B.; Cui, B. S.; Guan, C. S.; Li, D.; Wu, K.; Yun, J. J.; Wang, T.; Peng, Y.; Zuo, Y. L.; Xi, L., Electric field modulation of reversible and non-volatile magnetic anisotropy transition in (011) 0.7 Pb(Mg1/3Nb2/3) O-3 -0.3 PbTi0.3O3 /FeSi heterostructures. J. Phys. D-Appl. Phys. 2017, 50 (33), 335001. 28: Zhang, Q.; Li, P.; Wen, Y.; Zhao, C.; Zhang, J. W.; Manchon, A.; Mi, W. B.; Peng, Y.*; Zhang, X. X.*, Anomalous Hall effect in Fe/Au multilayers, Phys. Rev. B 2016, 94(2), 024428. 29: Ma, H. B.; Zhang, J. W.; Zhang, H.; Lan, Q. Q.; Guan, C. S.; Zhang, Q.; Bai, F. M.; Peng, Y.*; Zhang, X. X., Effects of interfacial transition layers on the electrical properties of individual Fe30Co61Cu9/Cu multilayer nanowires. J. Mater. Chem. C 2016, 4 (2), 259-265. 30: Guo, X. B.; Han, X. M.; Zuo, Y. L.; Zhang, J. W.; Li, D.; Cui, B. S.; Wu, K.; Yun, J. J.; Wang, T.; Peng, Y.; Xi, L.*, Electric field induced magnetic anisotropy transition from fourfold to twofold symmetry in (001) 0.68Pb(Mg1/3Nb2/3)O3-0.32PbTiO3/Fe0.86Si0.14 epitaxial heterostructures. Appl. Phys. Lett. 2016, 108 (15), 152401. 31: Zhang, Y.; Shen, T. T.; Deng, X.; Ma, Y. F.; Wang, L. N.; Peng, Y.; Wu, J.; Zhang, Z. J.; Liu, W. S.; Tang, Y.*, Design of a versatile nanocomposite for 'seeing' drug release and action behavior. J. Mater. Chem. B 2015, 3 (43), 8449-8458. 32: Zhang, J. W.; Ma, H. B.; Zhang, S. F.; Zhang, H.; Deng, X.; Lan, Q. Q.; Xue, D. S.; Bai, F. M.; Mellors, N. J.; Peng, Y.*, Nanoscale characterisation and magnetic properties of Co81Cu19/Cu multilayer nanowires. J. Mater. Chem. C 2015, 3 (1), 85-93. 33: Zhang, H.; Deng, X.; Zhang, J. W.; Xue, D. S.; Huang, Y. Q.; Bai, F. M.; Inkson, B. J.; Peng, Y.*, Phase transformation of Sn-based nanowires under electron beam irradiation. J. Mater. Chem. C 2015, 3 (21), 5389-5397. 34: Wang, M. Z.; Deng, X.; Feng, J.; Yu, B. Z.; Zhu, H.; Li, X. H.*; Zheng, X. L.*; Bai, J. T.; Peng, Y., Nonhydrolytic colloidal synthesis of ligand-capped single-crystalline NdOCl nanocubes and their magnetic properties. J. Alloy. Compd. 2015, 619, 681-685. 35: Qu, K.; Zhang, H.; Lan, Q. Q.; Deng, X.; Ma, X. L.; Huang, Y. Q.; Zhang, J. W.; Ma, H. B.; Inkson, B. J.; Xue, D. S.; Peng, Y.*, Realization of the welding of individual TiO2 semiconductor nano-objects using a novel 1D Au80Sn20 nanosolder. J. Mater. Chem. C 2015, 3 (43), 11311-11317. 36: Ma, C. B.; Zhu, Z. T.; Wang, H. X.; Huang, X.; Zhang, X.; Qi, X. Y.; Zhang, H. L.; Zhu, Y. H.; Deng, X.; Peng, Y.; Han, Y.; Zhang, H. L.*, A general solid-state synthesis of chemically-doped fluorescent graphene quantum dots for bioimaging and optoelectronic applications. Nanoscale 2015, 7 (22), 10162-10169. 37: Lan, Q. Q.; Shen, X.; Yang, H. W.; Zhang, H. R.; Zhang, J.; Guan, X. X.; Yao, Y.; Wang, Y. G.; Yu, R. C.*; Peng, Y.*; Sun, J. R.*, Correlation between magnetism and "dark stripes" in strained La1-xSrxCoO3 epitaxial films, Appl. Phys. Lett. 2015, 107(24), 242404. 38: Li, X. H.; Feng, J.; Du, Y. P.; Bai, J. T.; Fan, H. M.; Zhang, H. L.; Peng, Y.*; Li, F. S., One-pot synthesis of CoFe2O4/graphene oxide hybrids and their conversion into FeCo/graphene hybrids for lightweight and highly efficient microwave absorber. J. Mater. Chem. A 2015, 3 (10), 5535-5546. 39: Feng, J.; Li, X. H.; Wang, M. Z.; Zheng, X. L.; Bai, J. T.; Wang, L.; Peng, Y.*, One-pot, template-free synthesis of hydrophobic single-crystalline La(OH)3 nanowires with tunable size and their d0 ferromagnetic properties. RSC Adv. 2015, 5 (21), 16093-16100. 40: Zhang, J. L.; Fu, J. C.; Zhang, J. W.; Ma, H. B.; He, Y. M.; Li, F. S.; Xie, E. Q.; Xue, D. S.; Zhang, H. L.; Peng, Y.*, Co@Co3O4 Core-Shell Three-Dimensional Nano-Network for High-Performance Electrochemical Energy Storage. Small 2014, 10 (13), 2618-2624. 41: Zhang, H.; Zhang, J. W.; Lan, Q. Q.; Ma, H. B.; Qu, K.; Inkson, B. J.; Mellors, N. J.; Xue, D. S.; Peng, Y.*, Nanoscale characterization of 1D Sn-3.5Ag nanosolders and their application into nanowelding at the nanoscale. Nanotechnology 2014, 25 (42), 425301. 42: Si, M. S.; Gao, D. Q.; Yang, D. Z.; Peng, Y.; Zhang, Y. S.; Xue, D. S.; Liu, Y. S.; Deng, X. H.; Zhang, G. P., Intrinsic ferromagnetism in hexagonal boron nitride nanosheets. J. Chem. Phys. 2014, 140 (20), 204701. 43: Liu, X. K.; Deng, X.; Li, X. H.; Xue, D. S.; Zhang, H. L.; Liu, T.; Liu, Q. F.; Mellors, N. J.; Li, Y. M.; Peng, Y.*, A visualized investigation at the atomic scale of the antitumor effect of magnetic nanomedicine on gastric cancer cells, Nanomedicine 2014, 9 (9), 1389-1402. 44: Li, X. H.*; Deng, X.; Zhu, H.; Feng, J.; Peng, Y.; Bai, J. T.; Zheng, X. L.; Fan, H. B.*; Wang, M. Z.; Chen, H. W., Well-Defined Flowerlike NdOCl Nanostructures: Nonaqueous Sol-Gel Synthesis, Nanoscale Characterization and Their Magnetic and Photoluminescence Properties. Chem.-Asian J. 2014, 9 (2), 584-589. 45: Huang, Y. F.; Zhou, X.; Zhou, R.; Zhang, H.; Kang, K. B.; Zhao, M.; Peng, Y.; Wang, Q.; Zhang, H. L.; Qiu, W. Y., One- Pot Synthesis of Highly Luminescent Carbon Quantum Dots and Their Nontoxic Ingestion by Zebrafish for In Vivo Imaging. Chem.-Eur. J. 2014, 20 (19), 5640-5648. 46: Deng, X.; Yang, D. Z.; Tan, G. G.; Li, X. H.; Zhang, J. W.; Liu, Q. F.; Zhang, H. L.; Mellors, N. J.; Xue, D. S.; Peng, Y.*, Bimagnetic h-Co/h-CoO nanotetrapods: preparation, nanoscale characterization, three-dimensional architecture and their magnetic properties. Nanoscale 2014, 6 (22), 13710-13718. 47: Zhao, D. D.* Zhao, Y. Q.; Zhang, X.; Xu, C. L.; Peng, Y.*; Li, H. L.; Yang, Z., Application of high-performance MnO2 nanocomposite electrodes in ionic liquid hybrid supercapacitors. Mater. Lett. 2013, 107, 115-118. 48: Yang, D. Z.*; Wang, F. C.; Ren, Y.; Zuo, Y. L.; Peng, Y.; Zhou, S. M.; Xue, D. S.*, A Large Magnetoresistance Effect in p-n Junction Devices by the Space-Charge Effect. Adv. Funct. Mater. 2013, 23 (23), 2918-2923. 49: Li, X. H.; Zhu, H.; Feng, J.; Zhang, J. W.; Deng, X.; Zhou, B. F.; Zhang, H. L.; Xue, D. S.; Li, F. S.; Mellors, N. J.; Li, Y. F.; Peng, Y.*, One-pot polylol synthesis of graphene decorated with size- and density-tunable Fe3O4 nanoparticles for porcine pancreatic lipase immobilization. Carbon 2013, 60, 488-497. 50: Li, X. H.; Yi, H. B.; Zhang, J. W.; Feng, J.; Li, F. S.; Xue, D. S.; Zhang, H. L.; Peng, Y.*; Mellors, N. J., Fe3O4-graphene hybrids: nanoscale characterization and their enhanced electromagnetic wave absorption in gigahertz range. J. Nanoparticle Res. 2013, 15 (3), 1472. 51: Guan, W.; Peng, N. H.; Jeynes, C.; Ghatak, J.; Peng, Y.; Ross, I. M.; Bhatta, U. M.; Inkson, B. J.; Mobus, G.*, Fabrication and characterisation of embedded metal nanostructures by ion implantation with nanoporous anodic alumina masks. Nucl. Instrum. Methods Phys. Res. 2013, 307, 273-276. 52: Fu, J. C.*; Zhao, C. H.; Zhang, J. L.; Peng, Y.; Xie, E. Q.*, Enhanced Gas Sensing Performance of Electrospun Pt-Functionalized NiO Nanotubes with Chemical and Electronic Sensitization. ACS Appl. Mater. Interfaces 2013, 5 (15), 7410-7416. 53: Fu, J. C.; Zhang, J. L.; Zhao, C. H.; Peng, Y.; Li, X. D.; He, Y. M.; Zhang, Z. X.; Pan, X. J.; Mellors, N. J.; Xie, E. Q., Solvent effect on electrospinning of nanotubes: The case of magnesium ferrite. J. Alloy. Compd. 2013, 577, 97-102. 54: Fu, J. C.; Zhang, J. L.; Peng, Y.; Zhao, C. H.; He, Y. M.; Zhang, Z. X.; Pan, X. J.; Mellors, N. J.; Xie, E. Q.*, Wire-in-tube structure fabricated by single capillary electrospinning via nanoscale Kirkendall effect: the case of nickel-zinc ferrite. Nanoscale 2013, 5 (24), 12551-12557. 55: Cui, A. J.; Li, W. X.*; Shen, T. H. H.; Yao, Y.; Fenton, J. C.; Peng, Y.; Liu, Z.; Zhang, J. W.; Gu, C. Z.*, Thermally Induced Shape Modification of Free-standing Nanostructures for Advanced Functionalities. Sci. Rep. 2013, 3, 2429. 56: Zhang, Y. H.; Zhou, K. G.; Xie, K. F.; Zhang, H. L.*; Peng, Y.; Wang, C. W., Tuning the magnetic and transport properties of metal adsorbed graphene by co-adsorption with 1,2-dichlorobenzene. Phys. Chem. Chem. Phys. 2012, 14 (33), 11626-11632. 57: Zhang, J. L.; Fu, J. C.; Tan, G. G.; Li, F. S.; Luo, C. Q.; Zhao, J. G.; Xie, E. Q.; Xue, D. S.; Zhang, H. L.; Mellors, N. J.; Peng, Y.*, Nanoscale characterization and magnetic reversal mechanism investigation of electrospun NiFe2O4 multi-particle-chain nanofibres. Nanoscale 2012, 4 (8), 2754-2759. 58: Zhang, J. L.; Fu, J. C.; Li, F. S.; Xie, E. Q.; Xue, D. S.; Mellors, N. J.; Peng, Y.*, BaFe12O19 Single-Particle-Chain Nanofibers: Preparation, Characterization, Formation Principle, and Magnetization Reversal Mechanism. ACS Nano 2012, 6 (3), 2273-2280. 59: Qi, K.; Li, X. H.; Zhang, H.; Wang, L.; Xue, D. S.; Zhang, H. L.; Zhou, B. F.; Mellors, N. J.; Peng, Y.*, Nanoscale characterization and magnetic property of NiCoCu/Cu multilayer nanowires. Nanotechnology 2012, 23 (50), 505707. 60: Li, X. H.; Tan, G. G.; Chen, W.; Zhou, B. F.; Xue, D. S.; Peng, Y.*; Li, F. S.; Mellors, N. J., Nanostructural and magnetic studies of virtually monodispersed NiFe2O4 nanocrystals synthesized by a liquid-solid-solution assisted hydrothermal route. J. Nanoparticle Res. 2012, 14 (3), 751. 61: Guan, W.; Ghatak, J.; Peng, Y.; Peng, N. H.; Jeynes, C.; Inkson, B.; Mobus, G.*, Patterned ion beam implantation of Co ions into a SiO2 thin film via ordered nanoporous alumina masks. Nanotechnology 2012, 23 (4), 045605. 62: Fu, J. C.; Zhang, J. L.; Peng, Y.; Zhao, J. G.; Tan, G. G.; Mellors, N. J.; Xie, E. Q.*; Han, W. H., Unique magnetic properties and magnetization reversal process of CoFe2O4 nanotubes fabricated by electrospinning. Nanoscale 2012, 4 (13), 3932-3936. 63: Elawayeb, M.; Peng, Y.; Briston, K. J.; Inkson, B. J., Electrical properties of individual NiFe/Pt multilayer nanowires measured in situ in a scanning electron microscope. J. Appl. Phys. 2012, 111 (3), 034306. 64: Zhou, K. G.; Mao, N. N.; Wang, H. X.; Peng, Y.; Zhang, H. L., A Mixed-Solvent Strategy for Efficient Exfoliation of Inorganic Graphene Analogues. Angew. Chem.-Int. Ed. 2011, 50 (46), 10839-10842. 65: Zhou, B. F.; Li, X. H.; Chen, W.; Zhang, J. L.; Qi, K.; Ma, C. S.; Shen, T. H. H.; Xue, D. S.; Zhang, H. L.; Peng, Y.*, The Faraday Rotation Angle of Ni Nanowire Arrays: Its Dependence on Photon Energy and Nanowire Size. J.Nanosci. Nanotechnol. 2011, 11 (10), 8561-8567. 66: Peng, Y.; Cullis, T.; Luxmoore, I.; Inkson, B., Electrical properties of individual CoPt/Pt multilayer nanowires characterized by in situ SEM nanomanipulators. Nanotechnology 2011, 22 (24), 245709. 67: Gnanavel, T. Y. M. A. M.*; Saghi, Z.; Peng, Y.; Inkson, B. J.; Gibbs, M. R. J.; Moebus. G., Electron beam nanofabrication of ferromagnetic nanostructures in TEM, Appl. Phys. A-Mater. Sci. Proc. 2011, 102 (1), 205~211. 68: Wang, J. J.*; Lockwood, A. J.; Peng, Y.; Xu, X.; Bobji, M. S.; Inkson, B. J.*, The formation of carbon nanostructures by in situ TEM mechanical nanoscale fatigue and fracture of carbon thin films, Nanotechnology 2009, 20 (30), 305703. 69: Elawayeb, M.; Peng, Y.; Inkson, B. J.*, Nanostructure and Chemical Characterisation of Individual NiFe/Pt Multilayer Nanowires. J. Nanosci. Nanotechnol. 2011, 11 (9), 7777-7782. 70: Zhang, Y. H.; Zhou, K. G.; Xie, K. F.; Zeng, J.; Zhang, H. L.*; Peng, Y., Tuning the electronic structure and transport properties of graphene by noncovalent functionalization: effects of organic donor, acceptor and metal atoms. Nanotechnology 2010, 21 (6), 065201. 71: Zhang, Y. H.; Zhou, K. G.; Xie, K. F.; Gou, X. C.; Zeng, J.; Zhang, H. L.*; Peng, Y., Effects of Stone-Wales Defect on the Interactions Between NH3, NO2 and Graphene. J. Nanosci. Nanotechnol. 2010, 10 (11), 7347-7350. 72: Zhang, Y. H.; Zhou, K. G.; Gou, X. C.; Xie, K. F.; Zhang, H. L.*; Peng, Y., Effects of dopant and defect on the adsorption of carbon monoxide on graphitic boron nitride sheet: A first-principles study. Chem. Phys. Lett. 2010, 484 (4-6), 266-270. 73: Peng, Y.; Cullis, A. G.; Inkson, B. J.*, Electrical Nanowelding and Bottom-Up Nano-Construction Together Using Nanoscale Solder. Journal of Nanoscience and Nanotechnology 2010, 10 (11), 7394-7397. 74: Briston, K. J.; Peng, Y.; Cullis, A. G.; Inkson, B. J.*, Fabrication of carbon nanotubes by electrical breakdown of carbon-coated Au nanowires, Mater. Lett. 2010, 64 (14), 1583~1586. 75: Zhang, Y. H.; Chen, Y. B.; Zhou, K. G.; Liu, C. H.; Zeng, J.; Zhang, H. L.*; Peng, Y., Improving gas sensing properties of graphene by introducing dopants and defects: a first-principles study. Nanotechnology 2009, 20 (18), 185504. 76: Peng, Y.; Cullis, A. G.; Mobus, G.; Xu, X. J.; Inkson, B.*, Conductive nichrome probe tips: fabrication, characterization and application as nanotools. Nanotechnology 2009, 20 (39), 395708. 77: Peng, Y.; Cullis, A. G.; Inkson, B. J.*, Bottom-up Nanoconstruction by the Welding of Individual Metallic Nanoobjects Using Nanoscale Solder. Nano Lett. 2009, 9 (1), 91-96. 78: Saghi, Z.; Gnanavel, T.; Peng, Y.; Inkson, B. J.; Cullis, A. G.; Gibbs, M. R.; Mobus, G.*, Tomographic nanofabrication of ultrasharp three-dimensional nanostructures. Appl. Phys. Lett. 2008, 93 (15), 153102. 79Saghi, Z.; Xu, X. J.; Peng, Y.; Inkson, B. J.; Moebus, G.*, 3D Chemical Analysis of Tungsten Probes by EDX-Nanotomography, Appl. Phys. Lett. 2008, 91(25), 251906. 80Xu, X. J.; Lockwood, A. J.; Guan, W.; Gay, R.; Saghi, Z.; Wang, J. J.; Peng, Y.; Inkson, B. J.; Moebus, G.*, Full-Tilt Electron Tomography With a Piezo-Actuated Rotary Drive, Microsc. Res. Tech. 2008, 71(11), 773-777. 81: Peng, Y.*; Cullis, A. G.; Inkson, B. J.*, Accurate electrical testing of individual gold nanowires by in situ scanning electron microscope nanomanipulators. Appl. Phys. Lett. 2008, 93 (18), 183112. 82: Peng, Y.; Cullis, A. G; Mobus, G.; Xu, X. J.; Inkson, B. J.*, Nanoscale characterization of CoPt/Pt multilayer nanowires. Nanotechnology 2007, 18 (48), 485704. 83: Inkson, B. J.*; Dehm G; Peng Y, Dynamical growth of Cu-Pt nanowires with a nanonecklace morphology, Nanotechnology 2007, 18(41), 415601. 84: Liu, Y. W.; Jones, G. A.; Peng, Y.; Shen, T. H.*, Generalized theory and application of Stokes parameter measurements made with a single photoelastic modulator. J. Appl. Phys. 2006, 100 (6), 063537. 85: Li, W. X.; Jones, G. A.; Peng, Y.; Shen, T. H.*; Hill. G, The magneto-optical properties of annealed Co96Pt4 nanowire arrays, J. Appl. Phys. 2005, 97(10), 104306-104306. 86: Li, W. X.; Peng, Y.; Jones, G. A.; Shen, T. H. H.*; Hill, G., Co-rich cobalt platinum nanowire arrays: Effects of annealing, J. Appl. Phys. 2005, 97(3), 034308-034308. 87: Peng, Y.; Shen, T. H.*; Ashworth, B.; Zhao, X. G.; Faunce, C. A.; Liu, Y. W., Magneto-optical characteristics of magnetic nanowire arrays in anodic aluminum oxide templates, Appl. Phys. Lett. 2003, 83(2), 362-364. 88: Qin, D. H.; Peng, Y.; Cao, L; Li, H. 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