张雪峰
出生日期:1980年11月7日
E-mail:zhangxf@atm.neu.edu.cn
2000-2004大连理工大学,材料科学与工程学院,学士学位
2004-2008大连理工大学,材料科学与工程学院,博士学位
2008-2009日本雷竞技官方主页,材料研究所,博士后
2009-2010加拿大国家科学院,工业材料研究所,博士后
2011-2013加拿大国家科学院,助理研究员
2013--2016加拿大国家科学院,副研究员
2014/10-雷竞技官方主页,材料科学与工程学院,教授,博导
在研项目:
国家自然科学基金—联合重点项目,过渡族金属单原子掺杂复合材料结构解析、多重电磁极化效应及宽频带微波吸收特性研究,2018-2022,负责人
国家自然科学基金—面上项目,铁铌合金/碳复合纳米胶囊的多重介电极化效应、阻抗匹配设计与GHz频段电磁波吸收机理研究,2015-2018,负责人
代表性论文:
回国后
Y. X. Li, R. G. Liu, X. Y. Pang, X. N. Zhao, Y. H. Zhang, G. W. Qin,X. F. Zhang*, Fe@C nanocapsules with substitutional sulfur heteroatoms in graphitic shells for improving microwave absorption at gigahertz frequencies.Carbon2018,126, 372-381.
Y. X. Li, X. F. Liu, R. G. Liu, X. Y. Pang, Y. H. Zhang, G. W. Qin,X. F. Zhang*, Improved microwave absorption properties by atomic-scale substitutions.Carbon2018,139, 181-188.
R. Z. Zhao, W. C. Chen*,X. F. Zhang*, Quasi-static asymmetric magnetization for hemisphere structure.Appl. Phys. Lett.2018,113, 062405.
H. H. Hu, H. P. Liu, D. J. Zhang, J. J. Wang, G. W. Qin,X. F. Zhang*, pH and electromagnetic dual-remoted drug delivery based on bimodal superparamagnetic Fe3O4@porous silica nanoparticles.Eng. Sci.2018,2, 43-48.
X. N. Zhao*, H. P. Liu, D. J. Zhang, Y. X. Li, Y. H. Zhang,X. F. Zhang*, Ultralight and ultraelastic sponge/Al@Al2O3nanocomposite with tunable electromagnetic properties.J. Appl. Phys.2018,124, 075101.
R. G. Liu, Y. X. Li, C. H. Li, J. Y. Wang, Z. H. Wang, Y. H. Zhang, F. Qi*,X. F. Zhang*, High performance microwave absorption through multi-scale metacomposite by intergrating Ni@C nanocapsules with millimetric polystyrene sphere.J. Phys. D Appl. Phys.2018,51, 365303.
X. N. Zhao, H. P. Liu, J. Y. Yu, Y. X. Li, Y. H. Zhang,X. F. Zhang*, Electric-field-triggered electromagnetic polarizations in the close-packed Fe at C nanocapsules.IEEE T. Magn.2018,99, 1-5.
X. F. Liu, D. J. Zhang, R. Z. Zhao, Y. H. Zhang, M. Zhang, J. J. Wang, G. W. Qin,X. F. Zhang*, Tuning microwave absorption properties by hybriding heterogeneous components for core@shell structural Fe@SiC flakes.J. Magn. Magn. Mater.2018,462, 46-52.
Z. H. Wang, J. Y. Wang, Y. X. Li, R. G. Liu, Y. H. Zhang, X. N. Zhao,X. F. Zhang*, Multi-interfacial Co@CoNx@C(N) nanocapsules with nitrogen substitutions in graphitic shells for improving microwave absorption properties.J. Alloy. Compd.2018,736, 51-56.
Z. H. Wang, X. F. Liu, Y. X. Li, J. Y. Wang, R. G. Liu, Y. H. Zhang, Z. P. Wang, J. Y. Yu, W. C. Chen, Z. Shi, J. Zhang*,X. F. Zhang*, Improved microwave absorbing properties by designing heterogeneous interfaces in Mo@2D-MoS2.J. Alloy. Compd.2018,767, 1-6.
X. L. Yao, Z. Shi, C. H. Li, Z. Kong, G. F. Zhang, J. Zhang* andX. F. Zhang*, Tunable optical absorption of dimer nanostructure array achieved by angular evaporation.J. Micromech. Microeng.2018,28, 115010.
Z. Mao, H. H. Hu, R. Su, P. Z. Liu, Y. X. Li, W. T. Zhang, X. N. Zhao, J. J. Guo, P. F. Guan, G. W. Qin,X. F. Zhang*, Confining gold nanoclusters in highly defective graphitic layers to enhance the methanol electrooxidation reaction.Chem. Cat. Chem.2018,10, 141-147.
C.L. Hu, H.P. Liu, Y.H. Zhang, M. Zhang, J.Y. Yu, X.G. Liu,X. F. Zhang*, Tuning microwave absorption properties of multi-walled carbon nanotubes by surface functional groups,J. Mater. Sci.2018, DOI: 10.1007/s10853-018-2895-y.
Y. X. Li, J. Y. Wang*, R. G. Liu, X. N. Zhao, X. J. Wang,X. F. Zhang*, G. W. Qin, Dependence of gigahertz microwave absorption on the mass fraction of Co@C nanocapsules in composite.J. Alloy. Compd.2017,724, 1023-1029.
Y. X. Li, Z. Mao, R. G. Liu, X. N. Zhao, Y. H. Zhang, G. W. Qin,X. F. Zhang*, Ultralight Fe@C nanocapsules/sponge composite with reversibly tunable microwave absorption performances.Nanotechnology2017,28, 325702.
W. T. Zhang, X. F. Liu, X. N. Zhao,X. F. Zhang*, Controllable delivery of peptides by superparamagnetic Fe3O4/slica nanoparticle vehicles.Mater. Lett.2017,201, 177-180.
J. Y. Wang, Z. H. Wang, R. G. Liu, Y. X. Li, X. N. Zhao,X. F. Zhang*, Heterogeneous interfacial polarization in Fe@ZnO nanocomposites induces high-frequency microwave absorption,Mater. Lett.2017,209, 276-279.
X. F. Zhang*, Y. Rao, J. J. Guo, G. W. Qin*, Multiple-phase carbon-coated FeSn2/Sn nanocomposites for high-frequency microwave absorption.Carbon2016,96, 972-979.
X. F. Zhang*, Y. X. Li, R. G. Liu, Y. Rao, H. W. Rong, G. W. Qin*, High-magnetization FeCo nanochains with ultrathin interfacial gaps for broadband electromagnetic wave absorption at gigahertz.ACS Appl. Mater. Inter.2016,8, 3494-3498.
J. J. Guo*, Z. Mao, X. L. Yan, R. Su, P. F. Guan*, B. S. Xu,X. F. Zhang*, G. W. Qin, S. J. Pennycook, Ultrasmall tungsten carbide catalysts stabilized in graphitic layers for high-performance oxygen reduction reaction.Nano Energy2016,28, 261-268.
X. F. Zhang*, J. Guo, P. Guan*, G. Qin*, S. J. Pennycook, Gigahertz dielectric polarization of substitutional single niobium atoms in defective graphitic layers.Phys. Rev. Lett.2015,115, 147601.
X. F. Zhang*, Y. Liu, G. Qin*, Break Snoek limit via superparamagnetic coupling in Fe3O4@Silica multiple-Core@Shell nanoparticles.Appl. Phys. Lett.2015,106, 033105.
X. F. Zhang*, G. P. Zhou, Broadband asymmetric electromagnetic wave absorption tailored by impedance gradation: To construct diode-like absorbers.Mater. Lett.2015,149, 29.
X. F. Zhang*, J. J. Guo, G. W Qin*, Assembled Micro-Nano Particles with Multiple Interface Polarizations for Electromagnetic Absorption at Gigahertz.Appl. Phys. Lett.2014,104, 252404.
回国前
X. F. Zhang, J. J. Guo, P. F. Guan, C. J. Liu, H. Huang, X.L. Dong*, S. J. Pennycook, M. F. Chisholm*, Catalytically active single-atom niobium in graphitic layers.Nature Commun.2013,4, 1924.
X. F. Zhang, P. Guan, L. Malic, M. Trudeau, F. Rosei, T. Veres*, Nanoporous twinned PtPd with highly catalytic activity and stability.J. Mater. Chem. A2015,3, 2050.
X. F. Zhang*, P. Guan, J. Guo, Dumbbell-like Fe3O4-Au nanoparticles for ultrabroadband electromagnetic losses by heterogeneous interfacial polarizations.Part. Part. Syst. Char.2013,30, 842-846.
X. F. Zhang*, H. Huang, X. L. Dong, Core/shell metal/heterogeneous oxide nanocapsules: the empirical formation law and controllable electromagnetic losses.J. Phys. Chem. C2013,117, 8563-8569.
X. F. Zhang, S. Mansouri, L. Clime, H. Q. Ly, L. H. Yahia, T. Veres*, Fe3O4-silica core-shell nanoporous particles for high-capacity pH-triggered drug delivery.J. Mater. Chem.2012,22, 14450-14457.
X. F. Zhang*, P. F. Guan, X. L. Dong, Direct observation of low-temp catalytic decomposition of H3BO3shell in core/shell Ni/H3BO3nanoparticles.Appl. Phys. A2012,108, 487.
P. F. Guan,X. F. Zhang*, J. J. Guo. Assembled Fe3O4nanoparticles on graphene for enhanced electromagnetic wave losses.Appl. Phys. Lett.2012,101, 153108.
X. F. Zhang, S. Mansouri, D. A. Mbeh, L. H. Yahia, E. Sacher, T. Veres*. Nitric oxide delivery by core/shell superparamagnetic nanoparticle vehicles with enhanced biocompatibility.Langmuir2012,28, 12879-12885.
X. F. Zhang*, P. F. Guan, J Medwig, X. L. Dong*. High dielectric losses in stabilized γ-iron/graphite nanocomposites.Appl. Phys. A2012,106, 589.
X. F. Zhang, L. Clime, H. Roberge, F. Normandin, L. H. Yahia, E. Sacher, T. Veres*, pH-triggered doxorubicin delivery based on hollow nanoporous silica nanoparticles with free-standing superparamagnetic Fe3O4cores.J. Phys. Chem. C2011,115, 1436.
X. F. Zhang, L. Clime, H. Roberge, T. Veres*, Multi-functional Fe3O4-Au/porous silica@fluorescein core/shell nanopartilces with the enhanced fluorescence quantum yield.J. Phys. Chem. C2010,114, 18313.
X. F. Zhang*, T. Fujita, D. Pan, J. S.Yu, T. Sakurai, M. W. Chen, Influences of grain size and grain boundary segregation on mechanical behavior of nanocrystalline Ni.Mater. Sci. Eng. A2010,527, 2297.
X. F. Zhang, S. Chen, H. Wang, S. Hsieh*, C. Wu, H. Chou, S. Hsieh, Role of neel and brownian relaxation mechanisms for water based Fe3O4nanoparticle ferrofluids in hyperthermia.Biomed. Eng.2010,22, 393.
X. F. Zhang*, P. F. Guan, X. L. Dong*, Multidielectric polarizations in the core/shell Co/graphite nanoparticles.Appl. Phys. Lett.2011,96, 22311.
X. F. Zhang*, P. F. Guan, X. L. Dong*, Transform between the permeability and permittivity in the close-packed Ni nanoparticles.Appl. Phys. Lett.2010,97, 033107.
X. F. Zhang, X. L. Dong*, H. Huang, D. K. Wang, B. Lv, J. P. Lei, High permittivity from defective carbon-coated Cu nanocapsules.Nanotechnology2007,18, 275701.
X. F. Zhang, X. L. Dong*, H. Huang, B. Lv, X. G. Zhu, J. P. Lei, S. Ma, W. Liu, Z. D. Zhang, Synthesis, structure and magnetic properties of SiO2-coated Fe nanocapsules.Mater. Sci. Eng. A2007,211, 454-455.
X. F. Zhang, X. L. Dong*, H. Huang, B. Lv, J. P. Lei, C. J. Choi, Microstructure and microwave absorption properties of carbon-coated iron nanocapsules.J. Phys. D Appl. Phys. 2007,40, 5383.
X. F. Zhang, X. L. Dong*, H. Huang, B. Lv, J. P. Lei, S. Ma, W. Liu, Z. D. Zhang, Synthesis, structure and magnetic properties of B2O3/H3BO3-coated Fe nanoparticles.Mater. Sci. Eng. B2007,143, 76.
X. F. Zhang, X. L. Dong*, H. Huang, B. Lv, X. G. Zhu, J. P. Lei, S. Ma, W. Liu, Z. D. Zhang, Synthesis, growth mechanism and magnetic properties of SiO2-coated Co nanocapsules.Acta Materialia.2007,55, 3727.
X. F. Zhang, X. L. Dong*, H. Huang, Y. Y. Liu, W. N. Wang, X. G. Zhu, B. Lv, J. P. Lei. Microwave absorption properties of the carbon-coated nickel nanocapsules.Appl. Phys. Lett.2006,89, 053115.
二、已申请专利:
Lidija Malic,Xuefeng Zhang, Teodor Veres, Microparticles and Apparatus for Smart Ink Production, PCT/CA2015/051373.
Xuefeng Zhang, Teodor Veres, Magnetic Nanoparticles and Uses Thereof, PCT/CA2011/000684.
张雪峰,李逸兴,赵晓宁,李剑飞,周丽平,齐琦琦.一种可外力调控的复合型微波吸收体及制备方法. 201710381944.1
张雪峰,赵晓宁,刘晓芳,李逸兴,毛哲,孙尚书.一种基于包覆型复合材料的吸波贴片及其制备方法. 201710377625.3
张雪峰,王洁英.填充磁性金属的介电材料复合型微波吸收体及制备方法. 201810810948.1
张鉴、邓萌萌、张雪峰,一种SU8微针阵列贴片的制备方法,发明专利,申请号:201810332191.x
张鉴、邓萌萌、张雪峰,一种硅基微针阵列贴片的制备方法,发明专利,申请号:201810332180.1
张鉴、姚小莉、张雪峰,一种自支撑金属纳米孔薄膜的制备方法,发明专利,申请号:201810333250.5
石振、张雪峰,一种长期稳固耐用的疏水涂层及其制备方法、应用,发明专利,申请号:201810853742.7