Research Interests

[1] Wang Zhongde, Tian Sihang, Niu Junjian, Kong Wei, Lin Jianying, Hao Xiaogang, Guan Guoqing. An electrochemically switched ion exchange process with self-electrical-energy recuperation for desalination[J]. Separation and Purification Technology, 2020.

[2] Wang Zhongde, Du Juan, Yan Wenjun, Zhang Wei, Niu Junjian, Wu Ailian, Hao Xiaogang, Guan Guoqing. A potential-responsive affinity-controlling 2-2'- dithio dibenzoic acid/polyaniline hybrid film with high ion exchange capability and selectivity to cadmium ions[J]. Electrochimica Acta, 2019, 319: 615-624.

[3] Wang Zhongde, Kong Wei, Si Lianxi, Niu Junjian, Liu Ye, Yin Longping, Tian Zhigang.Robu stand thermally stable butterfly-Like Co(OH)2/ Hexadecyltrimet hoxysilane superhydrophobic mesh filters prepared by electrodeposition for highly efficient oil/water separation[J]. Industrial & Engineering Chemistry Research, 2019, 58(22): 9576-9584.

[4] Wang Zhongde, Song Weitao, Yan Wenjun, Zhang Wei, Liu Ye, Hao Xiaogang, Guan Guoqing. Ni3S2/Ni@S/C composite: Facile synthesis and high performace as the anode for Na-ion batteries[J]. Materials Letters, 2019, 238: 81-84.

[5] Wang Zhongde, Wu Zhijun, Wang Meijuan, An Xiaowei, Li H. Continuous sepa ration and recovery of caesium by electromagnetic coupling regeneration process with an electroactive magnetic Fe3O4@cupric hexacyanoferrate[J]. Journal of Applied Electrochemistry, 2018, 48(1):49-60.

[6] Wang Zhongde, Liu Ye, Wu Zhijun, Guan Guoqing, Zhang Ding, Zheng Huayan, Xu Shoudong, Liu Shibin, Hao Xiaogang. A string of nickel hexacyanoferrate nanocubes coaxially grown on a CNT@bipolar conducting polymer as a high- performance cathode material for sodium-ion batteries[J]. Nanoscale, 2017, 9(2): 823-831.

[7] Wang Zhongde, Xiao Caiming, Wu Zhijun, Wang Yuting, Du Xiao, Kong Wei, Pan Dahai, Guan Guoqing, Hao Xiaogang. A novel 3D porous modified material with cage-like structure: fabrication and its demulsification effect for efficient oil/water separation[J]. Journal of Materials Chemistry. A, 2017, 5(12): 5895-5904.

[8] Wang Zhongde, Guo Shoujing, Wu Zhijun, Fan Huiling, Guan Guoqing, Hao Xiaogang. A smart potential-responsive ion exchange nanomaterial with superpa ramagnetism for cesium ion separation and recovery[J]. Separation and Putific ation Technology, 2017, 187: 199-206.

[9] Wang Zhongde, Ma Yang, Hao Xiaogang, Huang Wei, Guan Guoqing, Abudula Abuliti. Enhancement of heavy metals removal efficiency from liquid wastes by using potential-triggered proton self-exchange effects[J]. Electrochimica Acta, 2014, 130(4): 40-45.

[10] Wang Zhongde, Ma Yang, Hao Xiaogang, Huang Wei, Guan Guoqing, Abudula Abuliti, Zhang Hui; A novel electroactive hybrid film electrode with proton buffer effect for detecting hydrogen peroxide and uric acid[J]. JOURNAL OF MATERIALS CHEMISTRY A,2014,2(36): 15035-15043.

[11] Wang Zhongde, Feng Yanting, Hao Xiaogang, Huang Wei, Feng Xianshe; A novel potential-responsive ion exchange film system for heavy metal removal[J]. JOURNAL OF MATERIALS CHEMISTRY A,2014,2(26):10263-10272.

[12] Wang Zhongde, Feng Yanting, Hao Xiaogang, Huang Wei, Guan Guoqing, Abudula Abuliti; An intelligent displacement pumping film system: A new concept for enhancing heavy metal ion removal efficiency from liquid waste[J]. JOURNAL OF HAZARDOUS MATERIALS,2014,274:436-442.

[13] Wang Zhongde, Wang Yanhong, Hao Xiaogang, Liu Shibin, Guan Guoqing, Abudula Abuliti; An all cis-polyaniline nanotube film: Facile synthesis and applications[J]. ELECTROCHIMICA ACTA,2013,99:38-45.

[14] Wang Zhongde, Sun Shoubin, Hao Xiaogang, Ma Xuli, Guan Guoding, Zhang Zhonglin, Liu Shibin; A facile electrosynthesis method for the controllable preparation of electroactive nickel hexacyanoferrate/polyaniline hybrid films for H2O2 detection[J]. SENSORS AND ACTUATORS B-CHEMICAL, 2012, 171: 1073-1080.

[15] Wang Zhongde, Hao Xiaogang, Zhang Zhonglin, Liu Shibin, Liang Zhenhai, Guan Guoqing; One-step unipolar pulse electrodeposition of nickel hexacyanof errate/chitosan/carbon nanotubes film and its application in hydrogen peroxide sensor[J]. SENSORS AND ACTUATORS B-CHEMICAL,2012, 162(1):353- 360.

[16] Niu Junjian, Yan Wenjun, Zhang Wei, Hao Xiaogang, Wang Zhongde, Guan Guoqing. Potential-responsive ions-selectively capture effect for efficient removal of copper ions from wastewater[J]. Electrochimica Acta, 2020, 330.

[17] Niu Junjian, Yan Wenjun, Du Juan, Hao Xiaogang, Wang Fengbin, Wang Zhongde, Guan Guoqing; An electrically switched ion exchange film with molecular coupling synergistically-driven ability for recovery of Ag+ ions from wastewater[J]. CHEMICAL ENGINEERING JOURNAL.2020,389

[18] Zhang Xiang, Niu Junjian, Hao Xiaogang, Wang Zhongde, Guan Guoqing, Abudula, Abuliti. A novel electrochemically switched ion exchange system for phenol recovery and regeneration of NaOH from sodium phenolate waste water[J]. Separation and Purification Technology, 2020, 248:117125.

[19] Song Xi, Li Xuan, Chen Zehong, Wang Zhongde. A simple synthesized N-doped FeS2 /Fe3O4@C nanocomposite as anode for sodium ion batteries[J]. Materials Letters, 2020.

[20] Liu Ye, Yan Wenjun, Zhang Wei, Kong Wei, Wang Zhongde, Hao Xiaogang, Guan Guoqing. 2D Sandwich-Like α-Zirconium Phosphate/Polypyrrole:Moderat e Catalytic Activity and True Sulfur Confinement for High-Performance Lithium -Sulfur Batteries[J]. Chemsuschem. 2019. 11.

[21] Liu Ye, Guo Shoujing, Zhang Wei, Kong Wei, Wang Zhongde, Yan Wenjun, Fan Huiling, Hao Xiaogang, Guan Guoqing. Three-dimensional interconnected coba lt sulfide foam: Controllable synthesis and application in supercapacitor[J]. Electrochimica Acta, 2019, 317(551-561).

[22] Li Qing, Yan Wenjun, Liu Ye, Du, Haiyan, Wang Zhongde, Hao Xiaogang, Guan Guoqing. One-step electrodeposition of cauliflower-like CozNiySx@polyp yrrole electrocatalysts on carbon fiber paper for hydrogen evolution reaction[J]. International Journal of Hydrogen Energy, 2019, 44(26): 12931-12940.

[23] Liu Ye, Yan Wenjun, An Xiaowei, Du Xiao, Wang Zhongde, Fan Huiling, Liu Shibin, Hao Xiaogang, Guan Guoqing. A polypyrrole hollow nanosphere with ultra-thin wrinkled shell: Synergistic trapping of sulfur in Lithium-Sulfur batteries with excellent elasticity and buffer capability[J]. Electrochimica Acta, 2018, 271: 67-76.

[24] Yue Xiyan, Huang Ning, Jiang Zhongqing, Tian Xiaoning, Wang Zhongde, Hao Xiaogang, Jiang ZhongJie. Nitrogen-rich graphene hollow microspheres as anode materials for sodium-ion batteries with super-high cycling and rate perfor mance[J]. Carbon, 2018, 130: 574-583.

[25] Wu Zhijun, Wang Meijuan, An Xiaowei, Du Juan, Fan Huiling, Lin Naiming, Wang Zhongde, Hao Xiaogang, Guan Guoqing. Intelligent nanospheres with potential-triggered undamaged regeneration ability and superparamagnetism for selective separation of cesium ion[J]. Chemical Engineering Journal, 2017, 325: 229-238.

[26] Wang Meijuan, Yan Wenjun, Kong Wei, Wu Zhijun, An Xiaowei, Wang Zhong de, Hao Xiaogang, Guan Guoqing. An electroactive and regenerable Fe3O4@Pol ypyrrole nanocomposite:Fabrication and its defluorination in an electroma gnetic coupling system[J]. Industrial & Engineering Chemistry Research, 2017, 56(44): 12738-12744.

[27] Xiao Caiming, Si Lianxi, Liu Yiming, Guan Guoqing, Wu Dihua, Wang Zhong de, Hao Xiaogang. Ultrastable coaxial cable-like superhydrophobic mesh with self-adaption effect: facile synthesis and oil/water separation application[J]. Journal of Materials Chemistry. A, 2016. 4(21): 8080-8090.

[28] Yang Huan, Liu Ye, Wang Zhongde, Liu Yiming, Du Haiyan, Hao Xiaogang. A highly oriented poly(3,4-ethylenedioxythiophene) film: Facile synthesis and app lication for supercapacitor[J]. Journal of Applied Polymer Science, 2016, 133(20).

[29] Ma Xuli, Si Lianxi, Li Xiumin, Du Haiyan, Hao Xiaogang, Wang Zhongde, Abudula Abuliti, Guan Guoqing. Reaction kinetics study of all cis-polyaniline nanotube film modified electrode for fast ascorbic acid detecting[J]. Journal of Chemical Engineering of Japan, 2016, 49(10):937-942.

[30] Wu Zhijun, Xie Zhengkun, Yoshida Akihiro, Wang Jing, Yu Tao, Wang Zhongde, Hao Xiaogang, Abudula Abuliti, Guan Guoqing. Nickel phosphate nanorod- enhanced polyethylene oxide-based composite polymer electrolytes for solid-state lithium batteries[J]. JOURNAL OF COLLOID AND INTERFACE SCIENCE,2020,565:110-118.

[31] Wu Zhijun, Xie Zhengkun, Yoshida Akihiro, An Xiaowei, Wang Zhongde, Hao Xiaogang, Abudula Abuliti, Guan Guoqing; Novel SeS2 doped Li2S-P2S5 solid electrolyte with high ionic conductivity for all-solid-state lithium sulfur batteries [J]. CHEMICAL ENGINEERING JOURNAL,2020,380.

[32] An Xiaowei, Li Shasha, Yoshida Akihiro, Yu Tao, Wang Zhongde, Hao Xiao gang, Abudula Abuliti, Guan Guoqing; Bi-Doped SnO nanosheets supported on Cu foam for electrochemical reduction of CO2 to HCOOH[J]. APPLIED MA TERIALS & INTERFACES,2019, 11(45):42114-42122.

[33] Xie Zhengkun, Wu Zhiju, An Xiaowei, Yoshida Akihiro, Wang Zhongde, Hao Xiaogang, Abudula Abuliti, Guan Guoqing; Bifunctional ionic liquid and conducting ceramic co-assisted solid polymer electrolyte membrane for quasi-solid-state lithium metal batteries[J]. JOURNAL OF MEMBRANE SCIENCE, 2019,516:122-129.

[34] Wu Zhijun, Xie Zhengkun, Yoshida Akihiro, Wang Zhongde, Hao Xiaogang, Abudula Abuliti, Guan Guoqing; Utmost limits of various solid electrolytes in all-solid-state lithium batteries: A critical review[J]. RENEWABLE&SUSTAIN ABLE ENERGY REVIEWS ,2019,109:367-385.

[35] An Xiaowei, Li Shasha,Yoshida Akihiro, Wang Zhongde, Hao Xiaogang, Abudula Abuliti, Guan Guoqing; Electrodeposition of Tin-Based electrocatalysts with different surface tin species distributions for electrochemical reduction of CO2 to HCOOH[J]. ACS SUSTAINABLE CHEMISTRY&ENGINEERI NG,2019,7(10):9360-9368.

[36] Du Xiao, Zhang Di, Ma Xuli, Qiao Wenlei, Wang Zhongde, Hao Xiaogang, Guan Guoqing; Electrochemical redox induced rapid uptake/release of Pb(II) ions with high selectivity using a novel porous electroactive HZSM-@PANI/PSS composite film[J]. ELECTROCHIMICA ACTA,2018,282:384-394.

[37] Phanthong Patchiya, Reubroycharoen Prasert, Kongparakul Suwadee, Samart Chanatip, Wang Zhongde, Hao Xiaogang, Abudula Abulit, Guan Guoqing; Fabrication and evaluation of nanocellulose sponge for oil/water separation[J]. CARBOHYDRATE POLYMERS,2018,190:184-189.

[38] Wang Junli, Li Xiumin, Zheng Junlan, Cao Ji, Hao Xiaogang, Wang Zhongde, Abudula Abuliti, Guan Guoqing. Non-precious molybdenum-based catalyst derived from biomass: CO-free hydrogen production from formic acid at low temperature[J]. ENERGY CONVERSION AND MANAGEMENT, 2018, 164: 122-131.

[39] Li Shasha, Wang Zhongde, Jia Jinlan, Hou Caiying, Hao Xiaogan, Zhang Hui; Preparation of hydroxyl and (3-aminopropyl) triethoxysilane functionalized multiwall carbon nanotubes for use as conductive fillers in the polyurethane composite[J]. POLYMER COMPOSITES,2018,39(4):1212-1222.

[40] Du Xiao, Ma Xuli, Zhang Pengle, Zheng Junlan, Wang Zhongde, Gao Fengfeng, Hao Xiaogang, Liu Shibin, Guan Guoqing; A novel electric-field-accelerated ion-sieve membrane system coupling potential-oscillation for alkali metal ions separation[J]. ELECTROCHIMICA ACTA,2017,258:718-726.

[41] Wang Jian, Wang Longjiang, Fan Huiling, Wang Hui, Hu Yongfeng, Wang Zhongde; Highly porous copper oxide sorbent for H2S capture at ambient temperature[J]. FUEL,2017,209:329-338.

[42] Li Xiumin, Li Chuncheng, Yoshida Akihiro, Hao Xiaogang, Zuo Zhijun, Wang Zhongde, Abudula Abuliti, Guan Guoqing; Facile fabrication of CuO microcube@Fe-Co3O4 nanosheet array as a high-performance electrocatalyst for the oxygen evolution reaction[J]. JOURNAL OF MATERIALS CHEMISTRY A,2017,5(41):21740-21749.

[43] Li Xiumin, Du Xiao, Ma Xuli, Wang Zhongde, Hao Xiaogang, Abudula Abuliti, Yoshida Akihiro, Guan Guoqing; CuO nanowire@Co3O4 ultrathin nanosheet core-shell arrays: An effective catalyst for oxygen evolution reaction[J]. ELECTROCHIMICA ACTA ,2017, 250:77-83.

[44] Li Xiumin, Hao Xiaogang, Wang Zhongde, Abudula Abuliti, Guan Guoqing; In-situ intercalation of NiFe LDH materials: An efficient approach to improve electrocatalytic activity and stability for water splitting[J]. JOURNAL OF POWER SOURCES ,2017,347:193-200.

[45] Khaerudini Deni S, Guan Guoqing, Zhang Peng, Xiaoketi Pairuzha, Hao Xiaogang, Wang Zhongde, Kasai Yutaka, Abudula Abuliti; (Bi0.15La0.27Sr0.53) (Co0.25Fe0.75)O3-delta perovskite: A novel cathode material for intermediate temperature solid oxide fuel cells[J]. JOURNAL OF POWER SOURCES, 2016, 334:137-145.

[46] Du Xiao, Zhang Quan, Qiao Wenlei, Sun Xiaolong, Ma Xuli, Hao Xiaogang, Wang Zhongde, Abudula Abuliti, Guan Guoqing; Controlled self-assembly of oligomers-grafted fibrous polyaniline/single zirconium phosphate nanosheet hybrids with potential-responsive ion exchange properties[J]. CHEMICAL ENGINEERING JOURNAL, 2016,302：516-525.

[47] Cao Ji, Ma Yufei, Guan, Guoqing, Hao Xiaogang, Ma Xuli, Wang Zhongde, Kusakabe Katsuki, Abudula Abuliti; Reaction intermediate species during the steam reforming of methanol over metal modified molybdenum carbide catalysts[J]. APPLIED CATALYSIS B-ENVIRONMENTAL,2016,189:12-18.

[48] Zhang Pengle, Zheng Junlan, Wang Zhongde, Du Xiao, Gao Fengfeng, Hao Xiaogang, Guan Guoqing, Li Chuncheng, Liu Shibin; An in Situ Potential- Enhanced Ion Transport System Based on FeHCF-PPy/PSS Membrane for the Removal of Ca2+ and Mg2+ from Dilute Aqueous Solution[J]. INDUSTRIAL & ENGINEERING CHEMISTRY RESEARCH, 2016,55(21):6194-6203.

[49] Du Xiao, Hao Xiaogang, Wang Zhongde, Guan Guoqing; Electroactive ion exchange materials: current status in synthesis, applications and future prospects[J]. JOURNAL OF MATERIALS CHEMISTRY A, 2016,4(17):6236- 6258.

[50] Du Xiao, Guan Guoqing, Li Xiumin, Jagadale, Ma Xuli Wang Zhongde, Hao Xiaogang, Abudula Abuliti; A novel electroactive lambda-MnO2/PPy/PSS core- shell nanorod coated electrode for selective recovery of lithium ions at low concentration[J]. JOURNAL OF MATERIALS CHEMISTRY A,2016, 4(36): 13989-13996.

[51] Phanthong Patchiya, Guan Guoqing, Karnjanakom Surachai, Hao Xiaogang, Wang Zhongde, Kusakabe Katsuki, Abudula Abuliti; Amphiphobic nanocellu lose-modified paper: fabrication and evaluation[J]. RSC ADVANCES, 2016,6 (16):13328-13324.

[52] Li Chuncheng, Zhang Xinru, Hao Xiaogang, Wang Minmin, Ding Chuan, Wang Zhongde, Wang Yinan, Guan Guoqing, Abudula Abuliti; Efficient recovery of high-purity aniline from aqueous solutions using pervaporation-fractional condensation system[J]. AICHE JOURNAL,2015,61(12):4445-4455.

[53] Khaerudini Deni S, Guan Guoqing, Zhang Peng, Hao Xiaogang, Wang Zhongde, Xue Chunfeng, Kasai Yutaka, Abudula Abuliti;Performance assessment of Bi0.3Sr0.7Co0.3Fe0.7O3-delta-LSCF composite as cathode for intermediate- temperature solid oxide fuel cells with La0.8Sr0.2Ga0.8Mg0.2O3-delta electrolyte[J]. JOURNAL OF POWER SOURCES,2015,298:269-279.

[54] Rizkiana Jenny, Guan Guoqing, Widayatno Wahyu Bambang, Hao Xiaogang, Wang Zhongde, Zhang Zhonglin, Abudula Abuliti; Oil production from mild pyrolysis of low-rank coal in molten salts media[J]. APPLIED ENERGY ,2015, 154:944-950.

[55] Khaerudini Deni S, Guan Guoging, Zhang Peng, Hao Xiaogang, Wang Zhongde, Kasai Yutaka, Sasagawa Kazuhiko, Abudula Abuliti; Evaluation of (Bi0.4Sr0.6) (x)Co0.3Fe0.7O3-delta (x=0.7, 0.8, 0.9, 1.0, 1.1) perovskite-type oxide as potential cathode for intermediate-temperature solid oxide fuel cells[J]. INTERNATION AL JOURNAL OF HYDROGEN ENERGY, 2015, 40(34): 11011-11021.

[56] Du Xiao, Sun Xiaolong, Zhang Hao, Wang Zhongde, Hao Xiaogang, Guan Guoqing, Abudula Abuliti; A Facile Potential-Induced In-Situ Ion Removal Trick: Fabrication of High-Selective Ion-Imprinted Film for Trivalent Yttrium Ion Separation[J]. ELECTROCHIMICA ACTA,2015,176:1313-1323.

[57] Huang Guan, He Enyun, Wang Zhongde, Fan Huilin, Ju Shangguan, Croiset Eric, Chen Zhongwei; Synthesis and Characterization of gamma-Fe2O3 for H2S Removal at Low Temperature[J]. INDUSTRIAL & ENGINEERING CHEMIS TRY RESEARCH,2015,54(34):8469-8478.

[58] Zhang Quan, Du Xiao, Ma Xuli, Hao Xiaogang, Guan Guoqing, Wang Zhongde, Xue Chunfeng, Zhang Zhonglin, Zuo Zhijun; Facile preparation of electroactive amorphous alpha-ZrP/PANI hybrid film for potential-triggered adsorption of Pb2+ ions[J]. JOURNAL OF HAZARDOUS MATERIALS,2015,289:91-100.

[59] Ma Yufei, Guan Guoqing, Phanthong Patchiya, Li Xiumin, Cao Ji, Hao Xiaogang, Wang Zhongde, Abudula Abuliti; Steam reforming of methanol for hydrogen production over nanostructured wire-like molybdenum carbide catalyst[J].INTE RNATIONAL JOURNAL OF HYDROGEN ENERGY, 2014, 39(33):18803-18 811.

[60] Widayatno Wahyu Bambang, Guan Guoqing, Rizkiana Jenny, Hao Xiaogang, Wang Zhongde, Samart Chanatip, Abudula Abuliti; Steam reforming of tar deri ved from Fallopia Japonica stem over its own chars prepared at different conditi ons[J]. FUEL,2014,132:204-210.

[61] Kaewpanha Malinee, Guan Guoqing, Hao Xiaogang, Wang Zhongde, Kasai Yutaka, Kusakabe Katsuki, Abudula Abuliti; Steam co-gasification of brown seaweed and land-based biomass[J]. FUEL PROCESSING TECHNOLOGY, 2014,120:106-112.

[62] Li Xiumin, Du Xiao, Wang Zhongde, Hao Xiaogang, Guan Guoqing, Zhang Hui, Abuliti Abudula, Ma Guozhang; Electroactive NiHCF/PANI hybrid films prepa red by pulse potentiostatic method and its performance for H2O2 detection[J]. JOURNAL OF ELECTROANALYTICAL CHEMISTRY, 2014, 717:69-77.

[63] Wang Yanhong, Xue Chunfeng, Li Xiumin, Du Xiao, Wang Zhongde, Ma Guozhang, Hao Xiaogang; Facile Preparation of alpha-Zirconium Phosphate/Pol yaniline Hybrid Film for Detecting Potassium Ion in a Wide Linear Range[J]. ELECTROANALYSIS, 2014,26(2):416-423.

[64] Ma Yufei, Guan Guoqing, Shi Chuan, Zhu Aimin, Hao Xiaogang, Wang Zhong de, Kusakabe Katsuki, Abudula Abuliti; Low-temperature steam reformin g of methanol to produce hydrogen over various metal-doped molybdenum carbi de catalysts[J]. INTERNATIONAL JOURNAL OF HYDROGEN ENERGY,2014, 39(1):258-266.

[65] Kaewpanha Malinee, Guan Guoqing, Hao Xiaogang, Wang Zhongde, Kasai Yutaka, Kakuta Seiji, Kusakabe Kastuki, Abudula Abuliti; Steam reforming of tar derived from the steam pyrolysis of biomass over metal catalyst supported on zeolite[J]. JOURNAL OF THE TAIWAN INSTITUTE OF CHEMICAL ENG INEERS,2013,44(6):1022-1026.

[66] Du Xiao, Hao Xiaogang, Wang Zhongde, Ma Xuli, Guan Guoqing, Abuliti, Abudula, Ma Guozhang, Liu Shibin; Highly stable polypyrrole film prepared by unipolar pulse electro-polymerization method as electrode for electrochemical supercapacitor[J]. SYNTHETIC METALS,2013,175:138-145.

[67] Guan Guoqing, Kaewpanha Malinee, Hao Xiaogang, Wang Zhongde, Cheng Yongpan, Kasai Yutaka, Abudula Abuliti; Promoting effect of potassium addition to calcined scallop shell supported catalysts for the decomposition of tar derived from different biomass resources[J]. FUEL,2013,109:241-247.

[68] Sun Bin, Hao Xiaogang, Wang Zhongde, Zhang Zhonglin, Liu Shibin, Guan Guoqing; Continuous Separation of Cesium Based on NiHCF/PTCF Electrode by Electrochemically Switched Ion Exchange[J]. CHINESE JOURNAL OF CHEMICAL ENGINEERING,2012,20(5):837-842.

[69] Sun Bin, Hao XiaoGang, Wang ZhongDe, Guan GuoQing, Zhang ZhongLin, Li YiBin, Liu ShiBin; Separation of low concentration of cesium ion from wastewater by electrochemically switched ion exchange method: Experimental adsorption kinetics analysis[J]. JOURNAL OF HAZARDOUS MATERIALS, 2012,233:177-183.

[70] Li Yue, Zhao Kai, Du Xiao, Wang Zhongde, Hao Xiaogang, Liu Shibin, Guan Guoqing;Capacitance behaviors of nanorod polyaniline films controllably synthe sized by using a novel unipolar pulse electro-polymerization method[J]. SYNTH ETIC METALS,2012,162(1-2):107-113.

[71] Hao Xiaogang, Yan Tao, Wang Zhongde, Liu Shibin, Liang Zhenhai, Shen Ying hua, Pritzker Mark; Unipolar pulse electrodeposition of nickel hexacyanoferrate thin films with controllable structure on platinum substrates[J]. THIN SOLID FILMS,2012,520(7):2438-2448.

2.Paper

Wang Zhongde, Hao Xiaogang, Du Xiao; Electrically controlled ion exchange techno logy and its Application [M]. Chemical Industry Press,2017

3.Patent

[1] Wang Zhongde; Liu Ye; Yang Qingsuo; Niu Junjian; Lin Naiming, A method for electronically controlled reduction of elemental sulfur to remove heavy metal ions in wastewater, Authorized, 2016.03.09, China, ZL201610979609.7

[2] Wang Zhongde; Wu Zhijun; Wang Meijuan; Du Juan; Lin Naiming; Hao Xiaogang, Electromagnetic coupling and electronically controlled ion exchange treatment of metal ion wastewater, Authorized, 2016.10.18, China, ZL 201610904138.3

[3] Wang Zhongde; Wu Zhijun; Wang Meijuan; Lin Jianying; Liu Ye; Zhang Zhonglin; Hao Xiaogang, Three-dimensional ordered macroporous magnetic electrically controlled ion exchange functional particles and their preparation method, Authorized, 2018.09.18, China, ZL 201610666387.3

[4] Wang Zhongde; Liu Ye; Yang Qingsuo; Lin Naiming; Tian Sihang; Yu Xuejia; Tian Wei, Preparation of conductive polymer sulfur-fixing materials and their applications in water treatment, Authorization, 2018.12.25, China, ZL20161097 9990.7

[5] Wang Zhongde; Liu Ye; Yue Xiyan; Guo Shoujing; Li Qing; Song Weitao; Hao Xiaogang, Preparation method of a composite material as a cathode material for lithium-sulfur batteries, Authorized, 2019.2.22, China, ZL 201610979610.X

[6] Wang Zhongde; Hao Xiaogang; Wang Yanhong; Han Nianchen; Zhang Zhonglin; Ma Xuli; Liu Shibin, Single cis-conformation polyaniline conductive polymer material and its preparation method, Authorized, 2014.07.09, China, ZL 201210 420329.4

[7] Wang Zhongde; Liu Yiming; Han Nianchen; Hao Xiaogang; Zhang Zhonglin; Ma Xuli; Liu Shibin, A manganese dioxide/iron oxide nanocomposite and its preparation method and application, authorized, 2015.08.19, China, ZL 2012104 02073.4.

[8] Hao Xiaogang; Wang Zhongde; Yang Yanyan; Zhang Zhonglin; Liu Shibin, A method for measuring the electroactive area of a three-dimensional porous membrane electrode, authorized, 2011.05.04, China, ZL200910175271.X

[9] Hao Xiaogang; Wang Zhongde; Du Xiao; Ma Xuli; Zhang Zhonglin; Liu Shibin, A method for determining the relative content of insoluble and soluble structures of nickel ferricyanide, Authorized, 2014.06.04, China, ZL 201110284760.6

[10] Hao Xiaogang; Wang Zhongde; Yang Yanyan; Zhang Zhonglin; Liu Shibin, A method for measuring the electroactive area of a three-dimensional porous membrane electrode, authorized, 2011.05.04, China, ZL200910175271.X

[11] Hao Xiaogang; Zheng Junlan; Sun Bin; Zhang Zhonglin; Han Nianchen; Ma Xuli; Wang Zhongde, An electronically controlled ion selective permeation membrane separation process, authorized, 2013.09.25, China, ZL20021022934 9.3

[12] Hao Xiaogang; Hou Hongchuan; Wang Zhongde; Zhang Zhonglin; Fan Caimei; Liu Shibin; Liang Zhenhai, A method for separating and recovering crystalline phenol from dilute solution containing phenol, authorized, 2012.12.12, China, ZL201110245756.9

[13] Hao Xiaogang; Wang Yonghong; Liang Guoqin; Zhang Hao; Wang Zhongde; Zhang Xinru, A preparation method of ion imprinted polymer film, authorized, 2014.06.11, China, ZL20310089641.4.

[14] Hao Xiaogang; Ling Lixia; Wang Zhongde; Sun Shoubin; Zhang Zhonglin; Ma Xuli; Liu Shibin, Preparation method of a cubic nanoparticle polyaniline/nickel ferricyanide hybrid material, authorized, 2015.03.11, China, ZL201210180918.X

[15] Hao Xiaogang; Du Xiao; Han Nianchen; Guan Guoqing; Wang Zhongde; Zhang Zhonglin; Liu Shibin, A preparation method of electroactive polypyrrole membrane, authorized, 2015.09.02, China, ZL201210304718.0

[16] Hao Xiaogang; Ma Xuli; Wang Zhongde; Zhang Zhonglin; Li Hui; Liu Shibin; Sun Yanping, Method for electrochemically controlled separation of phenol in solution, Authorized, 2012.04.11, China, ZL200810079318.8.

[17] Hao Xiaogang; Han Nianchen; Sun Bin; Guan Guoqing; Li Yibing; Ma Xuli; Zhang Zhonglin; Wang Zhongde; Liu Shibin, An electronically controlled ion exchange process for recovering metal ions in dilute solutions, authorized, 2013.06.12, China, ZL201210059799.2.

[18] Hao Xiaogang; Ma Xuli; Wang Zhongde; Zhang Zhonglin; Li Yongguo; Liu Shibin; Sun Yanping, Preparation method of monopolar pulse electrodeposition of single-structure ferricyanide film, authorized, 2010.12.08, China, ZL 200810079438.8.

[19] Hao Xiaogang; Li Yue; Zhao Kai; Wang Zhongde; Zhang Zhonglin; Liu Shibin; Fan Caimei; Shen Yinghua, A method for preparing nanofiber polyaniline, authorized, 2012.01.25, China, ZL201010279986.2.

4. Projects

(1) National Natural Science Foundation of China, 21878206, Construction of a self-electric regenerative electronically controlled ion exchange system and multi- scale interfacial mass transfer in the process of one-step extraction of lithium and bromine from brine, 2019/01-2022/12, in Research, host.

(2) The Ministry of Science and Technology Sino-Japanese Government Cooperation Project, 2017YFE0129200, the key technology for the efficient recovery of ion resources by the self-electric regenerative electronically controlled ion exchange in tegrated system, 2019/08-2022/07, under research, host. (sub-project leader)

(3) Special key projects for local development guided by the central government, China United Northwest Institute-Xi’an Jiaotong University Energy Environment and Building Energy Conservation Joint R&D Center Construction Project, 2019/05-2022 /05, under research, host.

(4) Enterprise cooperation projects, infrared spectroscopy analysis and temperature- quality change analysis of industrial solid waste samples, and metal ion concentration type and content analysis test of industrial liquid fee samples, 2018/12-2018/12, host.

(5) Key project of Shanxi Provincial Department of Science and Technology, 201805D211040, electronically controlled ion exchange technology to achieve zero discharge of wastewater and its industrial demonstration, 2018/12-2021/12, under research, host.

(6) General Program of National Natural Science Foundation of China, 21576184, Preparation of Potential Response Type Super-affinity Heavy Metal Ion Exchange Magnetic Nanomaterials and Mesoscale Coupling Mass Transfer Mechanism, 2016/01-2019/12, host.

(7) Shanxi Province Returning Fund: Preparation and application of PEVA electrically controlled heavy metal ion separation membrane, 2015/07-2018/06, host.

(8) Taiyuan University of Technology Outstanding Youth Fund, 2014YQ019, Prepar ation of electroactive heavy metal ion exchange membrane and coupled mass transfer mechanism, 2015/01-2015/12, host.

(9) National Natural Science Foundation of China Youth Science Fund Project, 21306123, Preparation and coupling mass transfer machine of volume pumping intell igent electronically controlled heavy metal ion exchange membrane, 2014/01-2016/12, host.

(10) The Sino-Japanese government cooperation project of the Ministry of Science and Technology, 2013DFG60060, the key technology and process integration of the efficient grading utilization of low-rank coal based on mild pyrolysis, 2013/04- 2016/04, host. (the backbone of the project).

(11) Outstanding young academic leader in colleges and universities in Shanxi Provin ce, in 2015, chemical engineering.

(12) Shanxi Provincial Fund, 2013021012-1, Electrochemical method combined with reversible broken chain transfer graft polymerization to construct a fluorine-containi ng superhydrophobic surface, 2013/01-2015/12, participation.

(13) Japan Society for the Promotion of Science Project (JSPS), 24651066, the development of a new three-dimensional carbon-based electroactive membrane and its application in the continuous electrical control of separation of metal ions, 2013/01-2014/12, completed, participate.

(14) Shanxi Provincial Fund, 201201020-5, Preparation of three-dimensional porous nanostructure organic/inorganic hybrid electro-controlled ion exchange functional membrane and supercapacitor, 2012/01-2014/12, completed and participated.

5. Honors

Winner of excellent doctoral thesis in Shanxi Province; Academic leader of outstanding youth in colleges and universities of Shanxi Province; 131 leading talents of colleges and universities of Shanxi Province; young talents of Shanxi Province.

6. Other

In 2014, he participated in the social practice activities of "Three Going to the Countryside" in the summer vacation.