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郭东轩

发布时间:2024年04月07日  作者:化学与化学工程学院  点击:[]

郭东轩,博士,教授,能源化学工程系,毕业于哈尔滨理工大学。

工作内容:教学科研

人才称号:齐齐哈尔市高层次人才

通讯地址:齐齐哈尔市文化大街42号化学与化学工程学院日新大厦707室

电子邮件:DongxuanGuo92@gmail.com

研究领域:[1]石墨烯、纳米碳材料、过渡金属基多功能复合材料在催化、环境保护及能源领域的应用。

[2]电化学方面的研究工作,主要包括:超级电容器、电催化产氢、锂离子电池等。

招生学科:物理化学

教育及科研经历:

2012-2016年长春工业大学化工学院本科

2016-2020年哈尔滨理工大学材料科学与工程学院博士

2023年至今上海交通大学化学化工学院博士后

2020年至今齐齐哈尔大学化学与化学工程学院教授硕士生导师

2023年至今 佳木斯大学 材料科学与工程学院 教授 博士生导师(兼职)


荣誉和奖励


科研论文

2024

1.S. Na, D. Chai*, J. Li*, S. Chen, X. Yang, S. Fu, G. Sui,D. Guo*,Tuning the interface of MIMII(OH)F@MIMII1-xS (MⅠ: Ni, Co; MⅡ: Co, Fe) by atomic replacement strategy toward high performance overall water splitting. J. Colloid. Interf. Sci., 2024, 655, 145. (中科院一区)

2.H. Feng, Y. Wang,D. Guo*, D. Chai*, W. Zhang, Z. Zhang, G. Dong*,Electrocatalysis through Interface and Structural Engineering of Hollow/Porous NiSe/CoSe2Nanotubes for Overall Water Splitting.J. Alloys Compd, 2023,976,173092.(中科院二区)

3.H. Feng,D. Guo*, D. Chai*, W. Zhang, Z. Zhang, L. Bai, J. Xing, G. Dong*,Interface engineering and oxygen vacancy of hollow/porous Co-CoO heterojunction nanoframes for high-activity electrocatalysis overall water splitting. Int. J. Hydrogen Energ., 2024, 51, 732.(中科院二区)

4.X. Song, R. He,D. Guo*, D. Chu, H. Li, L. Tan*,Mo-doped Ni3S2nanosheet arrays for boostinghydrogen evolution activity and supercapacitor energy storage. Appl. Phys. Lett.,2023, 123, 251601.(中科院二区)

5.Y.Zhou,J.Gao, M.Jua, Y.Chen, H.Yuan, S.Li, J.Li,D.Guo*, M.Hong*, S.Yang*,Combustion growth of NiFe layered double hydroxide for efficient and durable oxygen evolution reaction.ACS Appl. Mater. Inter.,Accept. (中科院二区)

6.D.Chai, Y.Han, M.Qu,D.Guo*, W.Zhang, D.Chu*, G.Dong*, Interface engineering of N, P and S-doped hollow/porous Co3O4@Co3V2O8heterostructure nanocube for high-activity supercapacitor and oxygen evolution reaction.J. Energy Storage,2024,78, 110116.(中科院二区)

7.D.Chai, Y.Lan, Z.Wu, J.Lv,D.Guo*, G.Dong*, W.Zhang*,Highly sensitive colorimetric sensing for ascorbic acid utilizing Co3O4@MnO2hollow nanocubes as oxidase mimic.J. Mol. Struct.,2024,1304, 137697.(中科院二区)

8.W.Zhang, Y.Lan, D.Chai*, J.Lv, G.Dong*,D.Guo*, A novel “On-Off” colorimetric sensor for ascorbic acid and hydrogen peroxide based on peroxidase activity of CeO2/Co3O4hollow nanocubes.J. Mol. Struct.,2024,1302, 137507.(中科院二区)

9.W.Guo, J.Li, D.Chai,D.Guo*, G.Sui, Y.Li, D.Luo*,L.Tan*,Iron Active Center Coordination Reconstruction in Iron Carbide Modified on Porous Carbon for Superior Overall Water Splitting,Adv.Sci.,DOI: 10.1002/advs.202401455.(中科院一区)

10.W.Guo, D.Chai*, J.Li*, X.Yang, S.Fu, G.Sui, Y.Zhuang,D.Guo*,Strain Engineering for Electrocatalytic Overall Water Splitting,ChemPlusChem,DOI:10.1002/cplu.202300605.(中科院四区)

11.Y. Wu, J. Li, G. Sui,D. Guo*, D. Chu*, K. Liang*, D. Chai, Y. Li,Interface and doping engineering of V2C-MXene-based electrocatalysts forenhancedelectrocatalysis overall water splitting,Carbon Energy,Accept. (中科院一区)

12.H.Feng, Y.Han, Y.Wang, D.Chai,* J.Ran, W.Zhang, Z.Zhang, G.Dong,M.Qi,*D.Guo*,Advancing Overall Water Splitting via Phase-Engineered Amorphous/Crystalline Interface: A Novel Strategy to Accelerate Proton-Coupled Electron Transfer,J. Colloid. Interf. Sci.,Accept. (中科院一区)

2023

1.J.Tang, R.Xu, G.Sui*,D.Guo*, Z.Zhao, S.Fu, X.Yang, Y.Li, and J.Li*, Double-Shelled Porous g-C3N4Nanotubes Modified with Amorphous Cu-Doped FeOOH Nanoclusters as 0D/3D Non-Homogeneous Photo-Fenton Catalysts for Effective Removal of Organic Dyes. Small, 2023, DOI: 10.1002/smll.202208232. (中科院一区)

2.Y.Zhou,Y.Wu,D.Guo*, J.Li*, Y.Li, X.Yang, S.Fu, G.Sui, and D.Chai*,A Novel Strain Engineering Combined with Microscopic Pore Synergistic Modulated Strategy for Designing Lattice Tensile Strained Porous V2C-MXene for High-Performance Overall Water Splitting. ACS Appl. Mater. Inter., 2023,15, 12, 15797. (中科院一区)

3.C.Wang, W.Wang, W.Guo,D.Guo*, J.Li*, X.Yang, S.Fu, D.Chai*, G.Sui, Y.Li,Liquid Nitrogen Quenching Inducing Lattice Tensile Strain to Endow Nitrogen/Fluorine Co-Doping Fe3O4Nanocubes Assembled on Porous Carbon with Optimizing Hydrogen Evolution Reaction. J. Colloid. Interf. Sci., 2023, 638, 813. (中科院一区)

4.S.Liang, G.Sui*,D.Guo*, Z.Luo, R.Xu, H.Yao, J.Li*, C.Wang,g-C3N4-wrapped nickel doped zinc oxide/carbon core-double shell microspheres for high-performance photocatalytic hydrogen production. J. Colloid. Interf. Sci., 2023, 635, 83. (中科院一区)

5.Y. Zhou, Y. Wu,D. Guo*, J. Li*, G. Dong*, D. Chai, X. Yang, S. Fu, G. Sui, Sulfur vacancies modulated nickel-doped Co4S3hollow nanocubes/nitrogen-doped V2CTxMXene nanosheets composite for optimizing hydrogen evolution reaction. Mater. Chem. Front., 2023, 7, 306. (中科院二区)

6.W.Zhang, M.Qu, D.Chai*, Y.Han, G.Dong*, Z.Zhang, L.Bai,D.Guo*,A facile ion-conversion-exchange strategy for designing nitrogen-doped CoMoO4@Co3O4double-shell nanoboxs: A competitive candidate for supercapacitor and oxygen evolution reaction. J. Energy Storage, 2023, 57, 106170. (中科院二区)

7.H. Feng,D. Guo*, D. Chai, W. Zhang, Z. Zhang, L. Bai, J. Xing, G. Dong, Interface engineering combined with nitrogen and phosphorus co-doped synergistic optimization strategies for designing hollow/porous N, P-CoWO4@Co3O4heterojunction nanocubes for superior-performance supercapacitor and oxygen evolution reaction.J. Energy Storage, 2023, 73, 109224.(中科院二区)

8.Y. Zhou, Y. Wu,D. Guo*, J. Li, D. Chu*, S.Na, M. Yu, D. Li, G. Sui, D. Chai,Anchoring Metal-Organic Framework-Derived HollowCoV2O6Nanocubes onto V2CTx MXene Regulated by LatticeTensile Strain for Superior Overall Water Splitting. J. Alloys Compd, 2023, 963, 171133.(中科院二区)

9.X.Yang, Y.Wang, X.Yang, S.Fu, G.Sui, D.Chai*, J.Li*,D.Guo*,Lattice strain assisted with interface engineering for designing efficient CoSe2-CoO core-shell microspheres as promising electrocatalysts towards overall water splitting. Colloids and Surfaces A, 2023, 663, 131039. (中科院二区)

10.D.Chai*,Y.Han, W.Zhang, G.Dong*,Z.Zhang, L.Bai andD.Guo*,Ni nanoparticles assembled on the surface of biomass-derived porous carbon as competitive candidates for the hydrogen evolution reaction. CrystEngComm, 2023, Advance Article, https://doi.org/10.1039/D3CE00117B. (中科院三区)

11.Y. Zhou, Y. Wu,D. Guo*, J. Li, D. Chu*, S.Na, M. Yu, D. Li, G. Sui, D. Chai,Achieving Highly Efficient Overall Water Splitting by Mo-doped Cobalt Sulfide/Selenide Heterostructure Microsphere, Ionics, 2023, 29, 3673-3681.(中科院四区)

12.X. Yang, G. Sui,D. Guo*, D. Chu*, J. Li*, S. Na, M. Yu, D. Li,Tungsten-doped cobalt sulfide/selendie as high-efficient electrocatalyst for outstanding overall water splitting, Ionics, 2023, 29, 4115-4123.(中科院四区)

2022

1.C. Wang, G. Sui,D. Guo*, et al., Inverted design of oxygen vacancies modulated NiCo2O4and Co3O4microspheres with superior specific surface area as competitive bifunctional materials for supercapacitor and hydrogen evolution reaction. J. Energy Storage, 2022, 49, 104083. (中科院二区)

2.C. Wang, G. Sui,D. Guo*, et al., Oxygen vacancies-rich NiCo2O4-4xnanowires assembled on porous carbon derived from cigarette ash: a competitive candidate for hydrogen evolution reaction and supercapacitor. J. Energy Storage, 2022, 50, 104280. (中科院二区)

3.C. Wang, G. Sui,D. Guo*, et al., A facile selenic acid etching strategy for designing selenium-doped NiCo2O4/C nanoprisms with hollow/porous structure for advanced asymmetrical supercapacitor. J. Energy Storage, 2022, 50, 104714. (中科院二区)

4.W. Guo, D. Chai, J. Li, J. Lv, J. Wang,D. Guo*, G. Sui, et al., Oxygen vacancy rich and phosphate ions modulated hierarchical mesoporous NiCo2O4-CoO hollow nanocubes as efficient and stable electrodes for high-performance supercapacitor. J. Energy Storage, 2022, 52,104849. (中科院二区)

5.C. Wang, G. Sui,D. Guo*, et al., A novel self-activation strategy for designing oxygen vacancies-rich nickel ferrite and cobalt ferrite microspheres with large specific surface area for overall water splitting. Int. J. Hydrogen Energ., 2022, 47, 24343. (中科院二区)

6.C. Wang, G. Sui,D. Guo*, et al., Oxygen Vacancy-engineered Fe2O3 Porous Microspheres with Large Specific Surface Area for Hydrogen Evolution Reaction and Lithium-Sulfur Battery. Colloids and Surfaces A, 2022, 649, 129476. (中科院二区)

7.H. Yao, G. Jin,G. Sui, L. Li,D. Guo*, et al., ZIF-67-derived ZnIn2S4/NiCoP Z-scheme heterojunctions for enhanced visible-light-driven photocatalytic hydrogen production. Colloids and Surfaces A, 2022, 129991. (中科院二区)

2021

1.C. Wang, G. Sui,D. Guo*, et al., Structure-designed synthesis of hollow/porous carbon@cobalt phosphides/sulfides nanocuboids with superior specific surface area for optimizing supercapacitor storage properties and hydrogen evolution reaction. J. Colloid. Interf. Sci., 2021, 599, 577. (中科院一区)

2.C. Wang, G. Sui,D. Guo*, et al., Enhanced supercapacitive and hydrogen evolution reaction performance using hierarchically porous carbon derived from Viburnum Sargenti fruits. Ionics, 2021, 27, 1723. (中科院四区)

3.C. Wang, G. Sui,D. Guo*, et al., A facile and novel dual-templating approach to discarded cigarette ash-derived high oxygen-containing porous carbon materials with nitrogen external defects for enhanced supercapacitors and hydrogen evolution reaction. Ionics, 2021, 27, 4013. (中科院四区)

2020

1.D. Chu, A. Nashalian, Y. Zhou, X. Zhao,D. Guo,*et al., Low-cost and nature-friendly hierarchical porous carbon for enhanced capacitive electrochemical energy storage. ACS Appl. Energ. Mater., 2020, 3, 7246. (中科院二区)

2.D. Guo, X. Song, L. Zhang, et al., Recovery of uranium (VI) from aqueous solutions by the polyethyleneimine-functionalized reduced graphene oxide/molybdenum disulfide composition aerogels. J. Taiwan. Inst. Chem. E., 2020, 106, 198. (中科院二区)

3.D. Guo, C. Zhou, L. Tan, et al., Electrochemical ascorbic acid sensor of composite film based on Keggin-type Vanadium-substituted Polyoxometalates decorated with graphene and Ru (bpy)32+. Colloids and Surfaces A, 2020, 592, 124550. (中科院二区)

2019

1.D. Guo, X. Song, L. Tan, et al., A facile dissolved and reassembled strategy towards sandwich-like rGO@NiCoAl-LDHs with excellent supercapacitor performance. Chem. Eng. J., 2019, 56, 955.(ESI高被引论文中科院一区)

2.D. Guo, Y. Zhang, W. Sun, et al., A facile dual-ligand modulation tactic towards nickel-cobalt sulfides/phosphides/selenides as supercapacitor electrode with long-term durability and electrochemical activity. ACS Appl. Mater. Inter., 2019, 11, 41580. (中科院一区)

3.D. Guo, X. Song, L. Tan, et al., Hierarchical structured Ni3S2@rGO@NiAl-LDHs nanoarrays: A competitive electrode material for advanced asymmetrical supercapacitors. ACS Sustain. Chem. Eng., 2019, 7, 2803.(ESI高被引论文中科院一区)

4.D. Guo, X. Song, B. Li, et al., Freestanding hierarchical nickel molybdate@reduced graphene oxide@nickel aluminum layered double hydroxides nanoarrays assembled from well-aligned uniform nanosheets as binder-free electrode materials for high performance supercapacitors. J. Colloid. Interf. Sci., 2019, 544, 46. (中科院一区)

5.D. Guo, X. Song, B. Li, et al., Oxygen enriched carbon with hierarchical porous structure derived from biomass waste for high-performance symmetric supercapacitor with decent specific capacity. J. Electroanal. Chem., 2019, 855, 113349.(中科院三区)

2018

1.D. Guo, X. Song, L. Tan, et al., Metal-organic framework template-directed fabrication of well aligned pentagon-like hollow transition-metal sulfides as the anode and cathode for high-performance asymmetric supercapacitors. ACS Appl. Mater. Inter., 2018, 10, 42621. (中科院一区)

2.D. Guo, X. Song, F. Li, et al., Oriented synthesis of Co3O4core-shell microspheres for high-performance asymmetric supercapacitor. Colloids and Surfaces A, 2018, 546, 1. (中科院二区)

3.D. Guo, L. Zhang, X. Song, et al., NiCo2O4 nanosheets grown on interconnected honeycomb-like porous biomass carbon for high performance asymmetric supercapacitors. New J. Chem., 2018, 42, 8478. (中科院二区)

科研项目

1.晶格应变与微观孔隙协同调控MXene的构筑及钠离子电容器动力学与储能机理研究,项目负责人,国家自然科学基金青年基金,起止年月:2023.01-2025.12.

2.基于小尺寸应变型MXene的钠离子电容器性能研究,项目负责人,中央支持地方高校改革发展资金人才培养项目,起止年月:2022.01-2024.12.

3.基于柔性自支撑氧空位型的钴酸镍制备及超级电容器性能研究,项目负责人,黑龙江省教育厅基本科研业务费,起止年月:2021.01-2023.12.

4.TiB2-MBene的表界面调控及锌离子电容器动力学与储能机理研究,项目负责人,黑龙江省教育厅基本科研业务费,起止年月:2023.01-2025.12.

专利

1.郭东轩,杨修娜,柴东凤.一种高比表面积缺陷型铁基氧化物的制备方法,发明专利, ZL.202111210863.8,授权日期: 2023.12.

2.郭东轩,周瑜,柴东凤.一种缺陷型中空镍钴硒化物纳米立方体的制备方法,发明专利,ZL. 202111210880.1,授权日期: 2023.12.

专著或教材

1.注者1,注者2.专著或教材名称,出版社,出版年月(如2012.06).

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