删除或更新信息,请邮件至freekaoyan#163.com(#换成@)

中国计量大学材料与化学学院导师教师师资介绍简介-彭晓领

本站小编 Free考研考试/2021-04-15

彭晓领
sex
1
title
副教授
department
材料与化学学院
college

college2

degree
博士
recruit":0,"firstDiscipline1

secondaryDiscipline1

firstDiscipline2
电子信息
secondaryDiscipline2

executive

officePhone
**
mobilePhone

emailAddress
pxlqingliu@cjlu.edu.
businessAddress
方圆南楼407-2
individualResume
男,博士,副教授,在中国计量学院材料科学与工程学院从事科研教学工作。\r目前主要从事磁性材料、复合材料的研究,研究成果先后在Scripta Materialia, Journal of Magnetism and Magnetic Materials, Journal of Alloys and Compounds等学术期刊上发表。\r主持国家自然科学基金、浙江省自然科学基金、浙江省科技厅公益项目、博士后科学基金、硅材料国家重点实验室开放课题等科技项目。出版教材1本,发表SCI论文40余篇,已授权和公开国家发明专利30余项。
researchTopic
交变磁场中非磁性介质梯度复合材料的制备与表征,\tLY16E030004,浙江省自然科学基金;\r运动磁场驱动磁性颗粒制备ZrO2/Ni功能梯度材料研究,**,国家自然科学基金;\r基于山核桃蒲壳绿色生产活性炭关键技术研究与示范,2012C31022,浙江省科技厅;\r
awards
高性能低功耗软磁复合材料研究和产业化,浙江省技术发明一等奖,参与
researchProject
基于运动磁场的功能梯度材料制备研究,,博后基金\r磁场诱导制备ZrO2/Ni复合材料研究,Y,教育厅项目\rC掺杂ZnO稀磁半导体的结构和磁性机理研究,SKL2011-5,硅材料国家重点实验室开放项目
publications
专著:\r1、 磁学基础与磁性材料,2006,浙江大学出版社\r论文:\r1.\tZhang T, Peng X, Li J, Yang Y, Xu J, Wang P, et al. Structural, magnetic and electromagnetic properties of SrFe12O19 ferrite with particles aligned in a magnetic field. J Alloy Compd. 2017;690:936-41.\r2.\tXu J, Liu F, Peng X, Li J, Yang Y, Jin D, et al. Hydrothermal Synthesis of NiCo2O4/Activated Carbon Composites for Supercapacitor with Enhanced Cycle Performance. Chemistryselect. 2017;2(18):5189-95.\r3.\tXu J, Hong B, Jin H, Jin D, Peng X, Wang X. Magnetically separable CoFe2O4/CoxFey/activated carbon composites for Cd(II) removal from wastewater. Applied Organometallic Chemistry. 2017;31(8).\r4.\tLi X, Li D, Xu J, Jin H, Jin D, Peng X, et al. Mesoporous-structure enhanced gas-sensing properties of nickel oxides nanowires. Mater Res Bull. 2017;89:280-5.\r5.\tLi X, Li D, Xu J, Jin H, Jin D, Peng X, et al. Calcination-temperature-dependent gas-sensing properties of mesoporous nickel oxides nanowires as ethanol sensors. Powder Technol. 2017;318:40-5.\r6.\tLi J, Peng X, Yang Y, Ge H, Wang D, Du Y. FeSiAl soft magnetic composites with NiZn ferrite coating produced via solvothermal method. AIP Adv. 2017;7(5).\r7.\tLi J, Peng X, Yang Y, Ge H. Preparation and characterization of MnZn/FeSiAl soft magnetic composites. J Magn Magn Mater. 2017;426:132-6.\r8.\tChen X, Wang P, Xu J, Han Y, Jin H, Jin D, et al. Magnetic separation and adsorptive performance for methylene blue of mesoporous NiFe2O4/SBA-15 nanocomposites. Adv Powder Technol. 2017;28(9):2087-93.\r9.\tZhang T, Peng X, Li J, Yang Y, Xu J, Wang P, et al. Platelet-like hexagonal SrFe12O19 particles: Hydrothermal synthesis and their orientation in a magnetic field. J Magn Magn Mater. 2016;412:102-6.\r10.\tYang D, Qiu W, Xu J, Wang P, Jin D, Peng X, et al. Facilely Synthesized NiCo2O4/CNTs Nanocomposites for Surpercapacitors with Enhanced Performance. International Journal of Electrochemical Science. 2016;11(8):7262-8.\r11.\tQiu W, Yang D, Xu J, Hong B, Jin H, Jin D, et al. Efficient removal of Cr(VI) by magnetically separable CoFe2O4/activated carbon composite. J Alloy Compd. 2016;678:179-84.\r12.\tLi J, Yuan W, Peng X, Yang Y, Xu J, Wang X, et al. Synthesis of fine alpha ''-Fe16N2 powders by low-temperature nitridation of alpha-Fe from magnetite nanoparticles. AIP Adv. 2016;6(12).\r13.\tLi D, Zhang Y, Xu J, Jin H, Jin D, Hong B, et al. Nanocasting synthesis and gas-sensing behavior of hematite nanowires. Physica E-Low-Dimensional Systems & Nanostructures. 2016;84:395-400.\r14.\tLi D, Zhang B, Xu J, Han Y, Jin H, Jin D, et al. Wide bandgap mesoporous hematite nanowire bundles as a sensitive and rapid response ethanol sensor. Nanotechnology. 2016;27(18).\r15.\tFang F, Hong B, Ling L, Xu J, Jin H, Jin D, et al. Strange critical behaviors of ferromagnetic to paramagnetic transition in La0.5Ca0.5MnO3 nanowires bundles. Rsc Adv. 2016;6(27):22411-8.\r16.\tZhou L, Peng X, Wang X, Jin D, Jin H, Ge H. Preparation and Characterization of Graphene/Fe3O4 Composites by Solvothermal Method. J Nanosci Nanotechnol. 2015;15(6):4380-4.\r17.\tZhou L, Peng X, Wang X, Ge H, Zhang J, Xu Y. Preparation and Characterization of Manganese-Zinc Ferrites by a Solvothermal Method. Rare Metal Mat Eng. 2015;44(5):1062-6.\r18.\tYang D, Qiu W, Xu J, Han Y, Jin H, Jin D, et al. Surface modification and electrochemical properties of activated carbons for supercapacitor electrodes. Mod Phys Lett B. 2015;29.\r19.\tWang P, Xu J, Zhang B, Li J, Jin H, Jin D, et al. Adsorptive performance for methylene blue of magnetic Ni@activated carbon nanocomposites. Functional Materials Letters. 2015;8(2).\r20.\tMa T, Hu S, Bai G, Yan M, Lu Y, Li H, et al. Structural origin for the local strong anisotropy in melt-spun Fe-Ga-Tb: Tetragonal nanoparticles. Applied Physics Letters. 2015;106(11).\r21.\tJin D, Yang X, Zhang M, Hong B, Jin H, Peng X, et al. A novel high surface area spherical carbon from cassava starch. Mater Lett. 2015;139:262-4.\r22.\tDeng N, Zhou L, Peng X, Wang X, Ge H. Preparation and Characterization of Nickel-Zinc Ferrites by a Solvothermal Method. Rare Metal Mat Eng. 2015;44(9):2126-31.\r23.\tDeng N, Li J, Hong B, Jin D, Peng X, Wang X, et al. Nanocasting synthesis of co-doped In2O3: a 3D diluted magnetic semiconductor composed of nanospheres. J Nanopart Res. 2015;17(4).\r24.\tXu J, Xin P, Gao Y, Hong B, Jin H, Jin D, et al. Magnetic properties and methylene blue adsorptive performance of CoFe2O4/activated carbon nanocomposites. Mater Chem Phys. 2014;147(3):915-9.\r25.\tWang P, Xu J, Han Y, Hong B, Jin H, Jin D, et al. Magnetic CoFe2O4/carbon nanotubes composites: fabrication, microstructure and magnetic response. Mod Phys Lett B. 2014;28(12).\r26.\tZhou L, Peng X, Wang X, Ge H. Fabrication of Functionally Graded Materials by a Changing Magnetic Field Driving Magnetic Components along Field Direction. Rare Metal Mat Eng. 2012;41:490-2.\r27.\tXu J, Wang X, Huang B, Jin H, Hong B, Peng X, et al. Synthesis of High-Purity Carbon Nanotubes Bundles from CCVD Method. Rare Metal Mat Eng. 2012;41:197-200.\r28.\tWang P, Chen M, Zhang M, Ke X, Wang L, Huang B, et al. Synthesis of Co3O4 Nanowires from Mesoporous Hard Template. Rare Metal Mat Eng. 2012;41:224-6.\r29.\tLi Q, Huang B, Chen M, Zhang M, Wang L, Huang Z, et al. Synthesis and Magnetic Properties of Novel SBA-15 Mesoporous Nanocomposites. Rare Metal Mat Eng. 2012;41:396-9.\r30.\tJin H, Wang C, Hong B, Ling L, Gu X, Jin D, et al. Formation of FexOy hollow nanospheres inside cage type mesoporous materials: a nanocasting pathway. Rsc Adv. 2012;2(32):12108-11.\r31.\tJin H, Gu X, Hong B, Lin L, Wang C, Jin D, et al. Fabrication of Mesoporous Co3O4 from LP-FDU-12 via Nanocasting Route and Effect of Wall/Pore Size on Their Magnetic Properties. J Phys Chem C. 2012;116(24):13374-81.\r32.\tJin D, Hu G, Jin H, Wang X, Hong B, Peng X, et al. Synthesis of Sulfated Zirconia by Grafting on Mesoporous SBA-15 by Sol-Gel Method. Rare Metal Mat Eng. 2012;41:379-82.\r33.\tHu G, Jin H, Wang X, Hong B, Peng X, Ge H, et al. Photocatalytic Performance of Cesium Salts of Heteropolytungstate. Rare Metal Mat Eng. 2012;41:639-42.\r34.\tHu G, Jin H, Wang X, Hong B, Peng X, Ge H, et al. Synthesis and Characterization of ZSM-5 Zeolite in Mesoporous Carbon. Rare Metal Mat Eng. 2012;41:343-5.\r35.\tHan Y, Ke X, He W, Huang B, Zhang M, Wang L, et al. Static Magnetic Properties of the Complex Dopant of Gd Combined Zn/Mn Substituted Barium M-type Hexaferrites. Rare Metal Mat Eng. 2012;41:501-5.\r36.\tGu X, Jin H, Hong B, Wang X, Jin D, Peng X, et al. Stacking of Single-Crystal Co3O4 Nano-Spheres into Mesoporous Micro-Particles: Synthesis and Magnetic Properties. Rare Metal Mat Eng. 2012;41:359-61.\r37.\tZhang P, Ge H, Pan M, Wu Q, Yang H, Jiao Z, et al. Study on Coercivity Mechanism of the Sintered NdFeB Magnets by Zr Addition. In: Zhu G, editor. Materials Science and Engineering, Pts 1-2. Advanced Materials Research. . p. 751-6.\r38.\tPeng X, Yang X, Wei H, Yue R, Ge H. Theoretical modeling and Simulations of magnetic fluids in gradient magnetic fields. In: Jiao S, Jiang ZY, Bu JL, editors. Advances in Superalloys, Pts 1 and 2. Advanced Materials Research. . p. 1510-3.\r39.\tPeng X, Wei H, Yang X, Yue R, Ge H. Influence of the magnetic interaction among particles on distributions of magnetic fluids using computer Simulations. In: Bu JL, Jiang ZY, Jiao S, editors. Advances in Composites, Pts 1 and 2. Advanced Materials Research. . p. 1595-8.\r40.\tYan M, Peng X, Ma T. Microstructures of Ni-ZrO2 functionally graded materials fabricated via slip casting under gradient magnetic fields. J Alloy Compd. 2009;479(1-2):750-4.\r41.\tPeng X, Yan M, Ge H. Effects of Magnetic Field Gradient on Particle Distributions of Suspension Comprised of both Magnetic and Nonmagnetic Particles using Two-dimensional Monte Carlo Simulations. In: Yin YS, Wang X, editors. Multi-Functional Materials and Structures Ii, Pts 1 and 2. Advanced Materials Research. 79-822009. p. 1301-+.\r42.\tPeng X, Min Y, Ma T, Yan M. Two-dimensional Monte Carlo simulations of a suspension comprised of magnetic and nonmagnetic particles in gradient magnetic fields. J Magn Magn Mater. 2009;321(19):3250-5.\r43.\tPeng X, Min Y, Ma T, Luo W, Yan M. Two-dimensional Monte Carlo simulations of structures of a suspension comprised of magnetic and nonmagnetic particles in uniform magnetic fields. J Magn Magn Mater. 2009;321(9):1221-6.\r\r专利:\r\t\r20** \t一种完全取向软磁复合材料的制备方法\r20** \t一种各向异性软磁复合材料的制备方法\r20** \t一种高取向锶铁氧体的制备方法\r20** \t一种高矫顽力锶铁氧体的制备方法\r20** \t一种氮化铁磁粉的低温等离子氮化制备方法\r20** \t一种氮化铁磁性材料的制备方法\r20** \t一种氮化铁磁粉的机械球磨制备方法\r20** \t一种扁平化氮化铁磁粉及其制备方法\r20** \t一种永磁材料的制备方法\r20** \t取向磁性薄膜的制备方法\r20** \t一种氮化铁薄膜的制备方法\r20** \t一种氮化铁纳米线及其制备方法\r20** \t一种软磁复合材料及其制备方法\r20** \tα-Fe/γ′-Fe4b>N软磁复合材料的低温原位制备方法\r20** \t一种旋转磁场装置\r20** \t一种梯度材料制备用多级运动磁场装置\r20** \t交变磁场中聚合物基复合材料的注射成型制备方法\r20** \t交变磁场中金属/陶瓷梯度材料的凝胶注模制备方法\r20** \t交变磁场中金属/陶瓷梯度材料的压滤成型制备方法\r5X\t交变磁场中金属增强复合材料的挤出成型制备方法\r20** \t交变磁场中金属/陶瓷梯度材料的注浆成型制备方法\r20** \t一种高效磁力清扫车\r20** \t一种磁力清扫车\r20** \t一种磁粉芯的原位制备方法\r2X\t一种复合磁粉芯及其制备方法\r20** \t一种铁氧体复合磁粉芯及其制备方法
others

correlation
researchDirection1
磁性材料
researchDirection2

researchDirection3

researchDirection4
相关话题/中国计量大学 材料