教育经历：

1.哈尔滨工业大学，电化学工程专业，1979-1983，学士学位；

2.哈尔滨工业大学，应用化学专业，1983-1986，硕士学位；

3.燕山大学，材料学专业，1998-2002，博士学位；

工作经历：

1.燕山大学基础部，1986-1993，助理教师、讲师；

2.燕山大学材料学院，1993-1998，讲师、副教授；

3.燕山大学材料与化学工程学院，1998-2001，副教授；

4.燕山大学环境与化学工程学院，2001-今，副教授、教授、博导。

5.日本大阪府立大学访问学者、客员研究员，2006

6.澳大利亚Deakin大学访问学者，2014

本科生课程：电源工艺学 48学时

研究生课程：先进电池制造技术 16学时

1 锂离子电池关键活性物质材料研究

2 超级电容器关键活性物质材料研究

3 高效非贵金属电催化材料设计及其电化学性能研究

2018年论文

1Phosphorus-doped3D hierarchical porous carbon for high-performance supercapacitors: A balancedstrategy for pore structure and chemical composition

Carbon，127(2018) 557-567; SCI收录

23D interconnectedporous carbon nanosheets/carbon nanotubes as a polysulfide reservoir for highperformance lithium–sulfur batteries

Nanoscale, 2018, 10, 816，SCI收录

3Rationallydesigned ultrathin Ni-Al layered double hydroxide and graphene heterostructure forhigh-performance asymmetric supercapacitor

Journal of Alloys and Compounds 740 (2018) 1051e1059; SCI收录

4Disodiumcitrate-assisted hydrothermal synthesis of V2O5 nanowires for high performance supercapacitors

RSC Adv., 2018, 8, 3213–3217 ; SCI收录

2017年论文

1 Template-free synthesis ofultrathin porous carbon shell with excellent conductivity for high-ratesupercapacitors

Carbon，2017 ，111：419~427 ; SCI收录

2 Ni-MoS2 composite coatings asefficient hydrogen evolution reaction catalysts in alkaline solution

i n t er n a t i o n a l j o u r n a l o f h y d r o g e n e n e r g y，2017.4.8，42：11262~11269 SCI收录

3 Ni–reduced graphene oxidecomposite cathodes with new hierarchical morphologies for electrocatalytichydrogen generation in alkaline media

RSCAdvances，2017，7：704~711 ; SCI收录

4 Pyrrole as a promisingelectrolyte additive to trap polysulfides for lithium-sulfur batteries

Journalof Power Sources，2017.3.7，348：175~182 ; SCI收录

5 Ni nanoparticles supported ongraphene layers: An excellent 3D electrode for hydrogen evolution reaction inalkaline solution

Journal of Power Sources，2017.4.15，347：220~228 SCI收录

6Fabrication of High-Performance All-Solid-StateAsymmetric Supercapacitors Based on Stable alpha-MnO2@NiCo2O4 Core ShellHeterostructure and 3D-Nanocage N-Doped Porous Carbon

Acs Sustainable Chemistry & Engineering，2017.6，5（6）：4856~4868SCI收录

7Supercapacitance of nitrogen-sulfur-oxygen co-doped 3Dhierarchical porous carbon in aqueous and organic electrolyte

Journal of Power Sources，2017.8.15，359：556~567SCI收录

8The Effects of CeO2 Nanorods and CeO2 Nanoflakes on Ni-SAlloys in Hydrogen Evolution Reactions in Alkaline Solutions

Catalysts，2017.7，7（7）：1~10SCI收录

9Co3O4@MnO2 core shell arrays on nickel foam withexcellent electrochemical performance for aqueous asymmetric supercapacitor

Ionics，2017.7，23（7）：1637~1643SCI收录

10 超级电容器用MnO_2基纳米复合材料的进展

电池，2017.8.25：240~243

11 FacileSynthesis of Cobalt Nanoparticles Entirely Encapsulated in Slim Nitrogen-DopedCarbon Nanotubes as Oxygen Reduction Catalyst

ACS Sustainable Chemistry & Engineering，2017.3.22，5：3973~3981; SCI收录

12 Manganeseoxide electrode with excellent electrochemical performance for sodium ionbatteries by pre-intercalation of K and Na ions

Scientific RepoRts，2017.5.22，7（2219） ; SCI收录

13 A novelstructure of Ni-(MoS2/GO) composite coatings deposited on Ni foam undersupergravity field as efficient hydrogen evolution reaction catalysts inalkaline solution

Electrochimica Acta，2017.8.3，249：52~63 ;SCI收录

14 Coral-like-StructuredNi/C3N4 Composite Coating: An Active Electrocatalyst for Hydrogen EvolutionReaction in Alkaline Solution

ACS Sustainable Chemistry & Engineering，2017.8.14，5：7993~8003; SCI收录

15 Comparison of three nickel-based carbon composite catalysts forhydrogen evolution reaction in alkaline solution

i n t e r n a t i o n a l j o u r n a l o f h y d r o g e n e ne r g y，2017.8.12，42：22655~22662SCI收录

16 3Dhierarchical network NiCo2S4 nanoflakes grown on Ni foam as efficientbifunctional electrocatalysts for both hydrogen and oxygen evolution reactionin alkaline solution

i n t e r n a t i o n a l j o u r n a l o f h y d r o g e n e ne r g y，2017.9.9，42：25267~25276; SCI收录

17 Formationof Micron-Sized Nickel Cobalt Sulfide Solid Spheres with High Tap Density forEnhancing Pseudocapacitive Properties

ACS Sustainable Chemistry & Engineering，2017.10.11，5：9945~9954; SCI收录

18 The effect of cation mixing controlled by thermal treatmentduration on the electrochemical stability of lithium transition-metal oxides

Phys. Chem. Chem. Phys，2017，19：29886~29894 ; SCI收录

2016年论文

(1).Novel one-stepsynthesis of wool-ball-like Ni-carbon nanotubes composite cathodes withfavorable electrocatalytic activity for hydrogen evolution reaction in alkalinesolution，Journal of PowerSources，324 (2016) 86-96（SCI收录）

(2).A novel approach forthe preparation of Ni–CeO2 composite cathodes with enhanced electrocatalyticactivity，RSC Adv., 2016, 6,60806（SCI收录）

(3).A novel acetyleneblack/sulfur@graphene composite cathode with unique three-dimensional sandwichstructure for lithium-sulfur batteries，Electrochimica Acta 190 (2016) 426–433（SCI收录）

(4) Silicon Carbide-DerivedCarbon Prepared by Fused Salt Electrolysis and Electrochemical Performance，Journal of Nanomaterials，Volume 2016, Article ID **（SCI收录）

(5) Facile synthesis ofnitrogen-doped hierarchical porous lamellar carbon for high-performance supercapacitors，RSC Adv., 2016, 6, 3942（SCI收录）

(6) Enhancement of theRate Capability of LiFePO4 by a New Highly Graphitic Carbon-Coating Method，ACS APPLIED MATERIALS & INTERFACES，8，15225-15231（SCI收录）

(7) Construction ofHierarchical alpha-MnO2 Nanowires@Ultrathin delta-MnO2 Nanosheets Core-ShellNanostructure with Excellent Cycling Stability for High-Power AsymmetricSupercapacitor Electrodes，APPLIED MATERIALS & INTERFACES，8，9050-9058 （SCI收录）

(8) Two-dimensionalcobalt–manganese binary metal oxide porous nanosheets for high-performancesupercapacitors，J Solid StateElectrochem，DOI 10.1007/s10008-016-3316-2，Online

(9) High capacity andcycle stability Rechargeable Lithium–Sulfur batteries by sandwiched gel polymerelectrolyte，Electrochimica Acta，210 (2016) 71–78（SCI收录）

(10)Effects ofintermittent atomization on the properties of Al-doped ZnO thin films depositedby aerosol-assisted chemical vapor deposition，Thin Solid Films，605 (2016) 163–168（SCI收录）

(11)ImmobilizingPolysulfides with MXene-Functionalized Separators for Stable Lithium−Sulfur Batteries，ACSApplied Materials & Interfaces，2016, 8, 29427−29433（SCI收录）

(12)Study of NieS/CeO2composite material for hydrogen evolution reaction in alkaline solution，International Journal of Hydrogen Energy，41（2016）20485-20493（SCI收录）

2015年论文

(1).Preparation ofNi-CeO2 composite coatings with high catalytic activity for hydrogen evolutionreaction，Materials Letters，2015，160：34-37。（SCI收录）

(2) Cerium-doped porousK-birnessite manganese oxides microspheres as pseudocapacitor electrodematerial with improved electrochemical capacitance，Electrochimica Acta，2015，182：1070-1077。（SCI收录）

(3) Synthesis ofhierarchical conductive C/LiFePO4/carbon nanotubes composite with less antisitedefects for high power lithium-ion batteries，Electrochimica Acta，2015，178：504-510。（SCI收录）

(4) Synthesis ofLiFePO4@carbon nanotube core-shell nanowires with a high-energy efficientmethod for superior lithium ion battery cathodes，Journal of Power Sources，2015，291：209-214。（SCI收录）

(5) In Situ CatalyticSynthesis of High-Graphitized Carbon-Coated LiFePO4Nanoplates for SuperiorLi-Ion Battery Cathodes，ACS AppliedMaterials & Interfaces，2015，7（4）：2937-2943。（SCI收录）

(6) Polyaniline/MnO2Composite With High Performance as Supercapacitor Electrode via Pulse Electrodeposition，Polymer Composites，2015，36（1）：113-120。（SCI收录）

(7) Biotemplatedfabrication of a novel hierarchical porous C/LiFePO4/C composite for Li-ionbatteries，RSC Advances，2015，5（3）：1983-1988。 （SCI收录）

(8) Synthesis of nitrogen-dopedcarbon cellular foam with ultra-high rate capability for supercapacitors，RSC Advances，2015，5（14）：10296-10303。（SCI收录）

(9) Enhancement ofelectrochemical performance for LiFePO4 cathodes viahybrid coating withelectron conductor carbon and lithium ionconductor LaPO4，Electrochimica Acta，2015，156：77-85。（SCI收录）

(10) Novel nitrogen-dopedhierarchically porous coralloid carbon materialsas host matrixes forlithium–sulfur batteries，ElectrochimicaActa，2015，159：8-15。（SCI收录）

(11) Three-dimensional crisscrossporous manganese oxide/carboncomposite networks for high performance supercapacitorelectrodes，Electrochimica Acta，2015，161：32-39。（SCI收录）

(12) Preparation ofsize-selective Mn3O4 hexagonal nanoplates with superior electrochemicalproperties for pseudocapacitors，PhysicalChemistry Chemical Physics，2015，17（35）：23017-23025。（SCI收录）

2014年论文

(1) Ionic conductorcerous phosphate and carbon hybrid coating LiFePO4 with improvedelectrochemical properties for lithium ion batteries，Journal of Power Sources，2014，269：194-202。（SCI收录）

(2) Effect of carbonmaterial on Pd catalyst for formic acid electrooxidation reaction，Journal of Power Sources，2014，266：481-487。（SCI收录）

(3) Cupric ionsubstituted LiFePO4/C composites with enhanced electrochemical performance for Li-ionbatteries，Electrochimica Acta，2014，139：256-263。（SCI收录）

(4) Novel UltrathinNanoflake Assembled Porous MnO2/Carbon Strip Microspheres for Superior Pseudocapacitors，ACS Sustainable Chemistry & Engineering，2014，2（9）：2191-2197。（SCI收录）

(5) Tunable MorphologySynthesis of LiFePO4 Nanoparticles as Cathode Materials for Lithium IonBatteries，ACS Applied Materials& Interfaces，2014，6（12）：9236-9244。（SCI收录）

(6) ConstructingFe3O4@N-rich Carbon Core-Shell Microspheres as Anode for Lithium Ion Batterieswith Enhanced Electrochemical Performance，Electrochimica Acta，2014，130：679-688。（SCI收录）

(7) Ni(OH)(2)/Ni/graphenecomposites under supergravity field for supercapacitor application，Materials Letters，2014，122：273-276。（SCI收录）

(8) A new route forpreparation of titanium carbide derived carbon and its performance forsupercapacitors , MATERIALS LETTERS, 122: 78-81, 2014 （SCI收录）

(9) Electrodeposition ofNi(OH)(2)/Ni/graphene composites under supergravity field for supercapacitorapplication ,MATERIALS LETTERS, 122: 273-276, 2014 （SCI收录）

(10) First-PrincipleCalculation of LiFe1-xMoxPO4 as Cathode Material for Rechargeable Lithium Batteries, CHINESE JOURNAL OF INORGANIC CHEMISTRY, 30(3): 615-620, 2014. （SCI收录）

(11) Solvothermalsynthesis of LiFePO4 nanoplates with (010) plane and the uniform carbon coatedon their surface by esterification reaction , MATERIALS CHEMISTRY AND PHYSICS, 143(3): 969-976, 2014. （SCI收录）

(12) Pulsed electrodeposition of mesoporouscobalt-doped manganese dioxide as supercapacitor electrode material , IONICS,20 (2):243-249, 2014.（SCI收录）

(13) MnO2/graphite electrodeposited undersupergravity field for supercapacitors and its electrochemical properties ,IONICS,20(2): 295-299, 2014. （SCI收录）

(14) Effects of Nb-dopedon the structure and electrochemical performance of LiFePO4/C composites ,JOURNAL OF SOLID STATE CHEMISTRY, 210(1): 232-237, 2014. （SCI收录）

(15) Controllablesynthesis, morphology evolution and electrochemical properties of LiFePO4cathode materials for Li-ion batteries , PHYSICAL CHEMISTRY CHEMICALPHYSICS,16(17): 7728-7733, 2014. （SCI收录）

(16) Composites ofolive-like manganese oxalate on graphene sheets for supercapacitor electrodes ,IONICS,20 (1): 145-149, 2014. （SCI收录）

2013年论文

(1) The effect of dopingCo on the electrochemical properties of LiFePO4/C nanoplates synthesized bysolvothermal route , SOLID STATE IONICS, 253: 39-46, 2013. （SCI收录）

(2) Li3V2(PO4)(3)modified LiFePO4/C cathode materials with improved high-rate andlow-temperature properties ,IONICS, 19(12): 1861-1866, 2013. （SCI收录）

(3) Research Progress inNano-Structured MnO2 as Electrode Materials for Supercapacitors , ASIAN JOURNALOF CHEMISTRY, 25(13): 7065-7070, 2013. （SCI收录）

(4) Effect of nitrogen-doped acetylene carbon black supported Pdnanocatalyst on formic acid electrooxidation , JOURNAL OF POWER SOURCES, 239: 94-102, 2013. （SCI收录）

(5) Influence of solventson deposition mechanism of Al-doped ZnO films synthesized by cold wallaerosol-assisted chemical vapor deposition ,THIN SOLID FILMS, 542: 144-149, 2013. （SCI收录）

(6) Enhanced high rate and low temperature electrochemicalproperties of LiFePO4/C composites by doping samarium ion , JOURNAL OF SOLIDSTATE ELECTROCHEMISTRY, 17(9): 2409-2416, 2013. （SCI收录）

(7)Influence of surface modification byvanadium oxide and carbon on the electrochemical performance of LiFePO4/C ,IONICS,19(8): 1091-1097, 2013. （SCI收录）

(8) Preparation and Studyon Electrochemical Performance of High-Rate LiFePO4/C Cathode Material , ASIANJOURNAL OF CHEMISTRY,25(7): 3579-3582, 2013. （SCI收录）

(9) Effect of SubstrateTemperature on the AZO Films Grown by AACVD Technique , CHINESE JOURNAL OF INORGANICCHEMISTRY,29(4): 723-728, 2013. （SCI收录）

(10) A novel amperometricNO2 sensor based on nano-structured La0.75Sr0.25Cr0.5Mn0.5O3-delta-Ag compositesensing electrode prepared by impregnating method , MATERIALS LETTERS, 96: 206-209, 2013. （SCI收录）

(11) Electrochemicalperformance of Mo-doped LiFePO4/C composites prepared by two-step solid-statereaction, IONICS,19(3): 437-443, 2013. （SCI收录）

(12) Effect of dopingcobalt on the micro-morphology and electrochemical properties of birnessiteMnO2 , MATERIALS CHEMISTRY AND PHYSICS, 138(1): 108-113, 2013. （SCI收录）

(13)Preparation of ZnO-Zn2TiO4 SolComposite Films and Its Photocatalytic Activities , JOURNAL OF NANOMATERIALS, 428419, 2013. （SCI收录）

(14) Comparing theElectrochemical Performance of LiFePO4/C Modified by Mg Doping and MgO Coating, JOURNAL OF NANOMATERIALS, UNSP 687501, 2013 （SCI收录）

1. 镍基合金/纳米碳复合电极材料的构建及其电催化析氢性能研究，国家自然科学基金，2017-2020，60万元，项目负责人

2. 三维分级多孔碳/过渡金属硫化物复合材料的构建及其在锂硫电池中的催化机制研究，科技部国家重点实验室自主课题，2018-2019，25万元，项目负责人

3. 超重力电沉积镍基合金/纳米碳复合材料及其电催化析氢性能研究，科技部国家重点实验室自主课题，2017-2018，20万元，项目负责人

4. 氢氧化镍支持和诱导的可充二氧化锰电极材料的制备及其电化学性能，科技部国家重点实验室自主课题，2016-2017，30万元，项目负责人

5. 过渡金属氧化物/纳米碳复合材料的形貌控制、界面特征及电化学性能，科技部国家重点实验室自主课题，2015-2016，25万元，项目负责人

6. 掺杂多孔碳的化学成分与孔结构调控及其在锂硫电池中的性能研究，河北省自然科学基金，2018-2020，6万元，项目负责人

7. 三维网络交错的二氧化锰/碳纳米复合材料的制备与超电容性能，河北省自然科学基金，2012-2015，5万元，项目负责人

获河北省科技进步3等奖和黑龙江省教育厅科技进步1等奖。

中国电子电镀专家委员会副主任委员，中国化学与物理电源学会理事，《中国电镀》、《电镀与精饰》杂志编委，《Electrochimica Acta》、《ACS Applied Materials &Interfaces》、《Journal of Power Sources》、《ChemSusChem》等杂志审稿人，省级精品课“物理化学”的负责人，主编或主审专著与教材5部，其中主编《物理化学》教材为“十一五”国家级规划教材。