解秀波

姓名：解秀波

职称：教授

职务：院长助理、系主任

电话：15054555676

邮箱：xiuboxie@ytu.edu.cn

办公地点：工程实训中心407

教育背景

2014/09–2019/06，北京航空航天大学，材料科学与工程学院，博士学位

2010/09–2014/06，烟台大学，环境与材料工程学院，学士学位

工作履历

2019/07–至今，烟台大学，环境与材料工程学院，讲师，副教授，校内拔尖人才，系主任，院长助理

2020/05–2020/10，中科院高能物理研究所，访问学者

学术兼职

《Rare Metals》、《International Journal of Minerals Metallurgy and Materials》、《Carbon Neutralization》、《Tungsten》和《陶瓷学报》青年编委，入选2023、2024年版“全球前2%顶尖科学家榜单”

研究领域

材料学

纳米材料

储氢材料、吸波材料及电极材料

科研项目及获奖情况

主持或参与完成国家自然科学基金项目、山东省自然科学基金项目，以及企事业单位委托项目等10余项

[1]国家自然科学基金项目《Al₃V/AlV₃间原位转变对连续壳层镁纳米储氢颗粒的界面演变作用机制》，主持，2022.01-2024.12；

[2]山东省自然科学基金面上项目《多元催化核壳型镁基纳米储氢材料的可控制备与储氢机理研究》ZR2020QE011，主持，2021-01至2023-12；

[3]企业委托项目，主持，2024.09-2025.09;

[4]企业委托项目(高效电磁波吸收材料研发技术委托项目)，主持，2023.05-2024.05;

[5]山东省中小企业质量提升计划(玻璃微管在储氢领域应用研究)，技术负责人，2025.01-2026.12;

[6]烟台大学本科教学改革研究项目，主持，2023.09-2025.08

[7]烟台大学研究生教学改革研究项目，主持，2024.01-2025.12

指导学生获奖情况：

第十八届“挑战杯”全国大学生课外学术科技作品竞赛国家级三等奖、省级特等奖；

第五届中国复合材料大赛全国总决赛三等奖；

“建行杯”第十六届全国大学生节能减排社会实践与科技竞赛国家级三等奖；

第七届“光威杯”中国复合材料学会大学生科技创新竞赛国赛优胜奖

第九届山东省大学生“互联网+“创新创业大赛省级金奖；

第十届山东省科技创新大赛二等奖；

山东省大学生节能减排社会实践与科技竞赛省级三等奖。

指导学生获批大学生创新创新训练计划项目国家级4项，其中1项为重点项目，省级2项，校级2项；烟台大学实验室开放基金2项；指导烟台大学校级优秀本科毕业论文3人次，山东省优秀硕士学位论文1篇，山东省研究生科技创新成果奖1项，烟台大学研究生创新基金2项。

代表性学术成果

论文（在国内外学术刊物及会议上发表学术论文70余篇）：

2024

1.Z.Y. Dai, P. Wu, L.R. Xiao, H. Kimura, C.X. Hou, X.Q. Sun, W. Du,X.B. Xie*, Non-stoichiometric Ni₃ZnC_0.7carbide loading on melamine sponge-derived carbon for hydrogen storage performance improvement of MgH₂.Rare Metals, 2024, DOI : 10.1007/s12598-024-02943-y.

2.B. Zhang,X.B. Xie*, Y. Wang, C. Hou, X. Sun, Y. Zhang, X. Yang, R. Yu, W. Du, In situ formation of multiple catalysts for enhancing the hydrogen storage of MgH₂by adding porous Ni₃ZnC_0.7/Ni loaded carbon nanotubes microspheres,Journal of Magnesium and Alloys2024, 12, 1227-1238.

3.Z.Y. Dai, B. Zhang, H. Kimura, L.R. Xiao, R.H. Liu, C. Ni, C.X. Hou, X.Q. Sun, Y.P. Zhang, X.Y. Yang, R.H. Yu, W. Du*,X.B. Xie*, Vermiform Ni@CNT derived from one-pot calcination of Ni-MOF precursor for improving hydrogen storage of MgH₂.Transactions of Nonferrous Metals Society of China2024, 34, 2629−2644.

4.L.R.Xiao, C. Chen, S. Wang, Z.Y. Dai, H. Kimura, C. Ni, C.X. Hou, X.Q. Sun, W. Du,X.B. Xie*, Effects of Ti and Nb based Transition element from single to multiple compound oxides and carbon-based composite additives on Mg-MgH₂hydrogen storage material.Tungsten2024, Accepted.

5.L.R. Xiao, Y.K. Wang, H. Kimura, H.S. Sun, X.Q. Sun, C.X. Hou, B.L. Wang, Y.P. Zhang, X.Y. Yang, R.H. Yu, C. Ni,X.B. Xie*, W. Du*, Synergetic dielectric and magnetic losses of melamine sponge-loaded puffed-rice biomass carbon and Ni₃ZnC_0.7for optimal effective microwave absorption.Journal of Colloid and Interface Science2024, 653, 570-580.

6.R.L. Liu, Y.K. Wang, P. Wang, H. Kimura, B.L. Wang, C.X. Hou, X.Q. Sun, W. Du,X.B. Xie*, In Situ Loading of Ni₃ZnC_0.7Nanoparticles with Carbon Nanotubes to 3D Melamine Sponge Derived Hollow Carbon Skeleton toward Superior Microwave Absorption and Thermal Resistance.Small2024 DOI:10.1002/smll.202402438

7.X.B.Xie*,H.S.Wang, H.Kimura, C.Ni, W.Du, G.L.Wu*,NiCoZn/C@melamine sponge-derived carbon composites with high-performance electromagnetic wave absorption.International Journal of Minerals, Metallurgy and Materials.2024,31, 2274-2286.

8.X.B.Xie*(Co-first author), J.J.Zhang¹,X.Y.Du, H.Kimura, C.Ni, C.X.Hou, Y.P.Zhang, X.Q.Sun, X.Y.Yang, W.Du, Morphology evolution of bacterial cellulose carbon and loaded with MnO₂microspheres for high performance supercapacitors.Journal of Alloys and Compounds2024, 994, 174713.

9.Q.Y. Li, L.Y. Liu, H. Kimura, X.Y. Zhang, X.Y. Liu,X.B. Xie, X.Q. Sun, C.Y. Xu, W. Du*, C.X. Hou*, Restricted growth of molybdenum carbide nanoparticles in hierarchically porous nitrogen-doped carbon matrix for boosting electromagnetic wave absorption performance.Journal of Colloid and Interface Science2024, 655,634-642.

10.X.Y. Du, Y.P. Ma,X.B. Xie, H.Y. Jiang, X.Q. Sun, X.Y. Yang, Y.P. Zhang, C.X. Hou*, W. Du*, Preparation of two-dimensional porous nitrogen‑oxygen co-doped recycled yeast cell wall derived‑carbon matrix for high-performance zinc ion supercapacitors.Journal of Energy Storage2024, 82,110428.

11.P. Ding, M.Y. Li, W.W. Chen, H. Kimura,X.B. Xie, C.X. Hou, X.Q. Sun, X.Y. Yang, H.Y. Jiang, W. Du*, Y.P. Zhang*, Plasma-assisted synthesis of ultra-fine NiCo₂O₄/NiCo-layered double hydroxides nanoparticles-decorated electrospun carbon nanofibers with enhanced electrochemical performance.Journal of Colloid and Interface Science2024, 676, 826-836.

12.B.L. Wang, C. Ni*,X.B. Xie, M.C. Ding, C.W. Li*, Carbon nanotubes-encapsulated Co/Co₇Fe₃nanocomposites: Achieving wideband electromagnetic wave absorption at ultrathin-thickness by regulating magnetic phase ratio.Chemical Engineering Journal2024, 494, 153076.

13.X.Y. Du, C.X. Hou*, H. Kimura, J.Y. Song, X.Y. Yang,X.B. Xie, H.Y. Jiang, XY. Zhang, X.Q. Sun, Y.P. Zhang, S. Gao, W. Du*, Restricted and epitaxial growth of MnO_2-xnano-flowers in/out carbon nanofibers for long-term cycling stability supercapacitor electrodes.Journal of Colloid and Interface Science2024, 673, 92-103.

2023

1.Y.P. Qi, Y.X. Yang, H.L. Sun, Y.H. Zhang, Y.K. Ma, C. Ni*, X.Y. Zhang, B.L. Wang, R.H. Yu, W. Du*,X.B. Xie*, Three-dimensional melamine sponge hollow carbon/Ni₃ZnC_0.7/carbon nanotubes with tunable high-performance microwave absorption performance. Synthetic Metals 2023, 295, 117351.

2.B. Zhang, R.H. Liu, H. Kimura, Y.M. Dou, Z.Y. Dai, L.R. Xiao, C. Ni, C.X. Hou, X.Q. Sun, R.H. Yu, W. Du*,X.B. Xie*, Phase Transformation and Performance of Mg-Based Hydrogen Storage Material by Adding ZnO Nanoparticles.Nanomaterials2023, 13, 1321.

3.X.B. Xie*, B. Zhang, H. Kimura, C. Ni, RH. Yu, Wei Du*, Morphology evolution of bimetallic Ni/Zn-MOFs and derived Ni₃ZnC_0.7/Ni/ZnO used to destabilize MgH₂.Chemical Engineering Journal2023, 464, 142630.

4.Y.P. Qi, Y.T. Qin, H. Kimura, Y.K. Wang, Y.X. Yang, C. Ni*, X.Y. Yu, C.G. Huang, J.P. Tian, R.H. Liu, W. Du*,X.B. Xie*, Co/CoO/Lotus Seedpod Nanoporous Carbon Composites Reduced from Co₃O₄for High-Performance Microwave Absorbers.ACS Applied Nano Materials, 2023, 6, 4681−4692.

5.B.L. Wang, C.W. Li, C. Ni,X.B. Xie*, Facile synthesis of heterogeneous Co/MnO@C nanocapsules with dual-cores: Achieving strong and broadband microwave absorption by magnetic-dielectric synergy.Applied Surface Science2023, 614, 156228.

6.J. Zhang, B. Zhang,X. Xie*, C. Ni, C. Hou, X. Sun, X. Yang, Y. Zhang, H. Kimura, W. Du, Recent advances of nanoconfinement in Mg related hydrogen storage materials: A minor review,International Journal of Minerals, Metallurgy and Materials30 (2023) 14-24.

7.X.B. Xie*, Y.K. Wang, X.Q. Sun, H.S. Wang, R.H. Yu, W. Du, H.J. Wu, Optimizing impedance matching by a dual-carbon Co-regulation strategy of Co₃O₄@rGO/celery stalks derived carbon composites for excellent microwave absorption.Journal of Materials Science & Technology2023, 133, 1-11.

8.J.J. Zhang, X.Y. Du, H. Kimura, C.X. Hou, X.Q. Sun, X.Y. Yang, Y.P. Zhang,X.B. Xie*, W. Du*, MnO₂nanoflowers loaded on three-dimensional interconnected bacterial cellulose-derived honeycomb-like carbon for high-performance supercapacitors.Applied Surface Science2023, 623, 157095

9.X.Q. Sun, Y.K. Wang, H. Kimura, C. Ni, C.X. Hou, B.L. Wang, Y.P. Zhang, X.Y. Yang, R.H. Yu, Wei Du*,X.B. Xie*, Thermal stability of Ni₃ZnC_0.7: As tunable additive for biomass-derived carbon sheet composites with efficient microwave absorption.Journal of Colloid and Interface Science2023, 642, 447-461.

10.Z.Y. Dai, L.R. Xiao, B. Zhang, H. Kimura,X.B. Xie*, C. Ni, X.Q. Sun, W. Du, Recent progress of the effect of Co/Ni/Fe-based containing catalysts addition on hydrogen storage of Mg.Journal of Materials Science2023, 58, 46-62.

11.Y.S. Wang, Y.X. Zhang, H. Kimura, J.Q. Wang, C.X. Hou,X.B. Xie, X.Q. Sun, Y.P. Zhang, W.Du*, X.Y. Yang*, Nitrogen-doped expanded graphite derived from spent graphite induce uniform growth of lithium peroxide for high-performance Li-oxygen battery.Journal of Cleaner Production2023, 414, 137703

12.M.Chen, H. Kimura, X. Yang, H.H. Huang, C.X. Hou,X.B. Xie, F.C. Meng, X.Q. Sun, P. Ren, W. Du*, X.Y. Yang*, Carbon reduction assist structured preparation stable three-dimensional V₆O₁₃for durable aqueous zinc-ion batteries.Journal of Power Sources2023, 580, 233332.

13.X.Y. Du, C.X. Hou*, H. Kimura,X.B. Xie, H.Y. Jiang, X.Q. Sun, X.Y. Yang, Y.P. Zhang, W. Du*, Energy- and cost-efficient CaCO₃-assisted nanoarchitectonics of recycled wheat flour-derived carbon matrix decorated with MnO₂nanoparticles for high-performance supercapacitor.Journal of Energy Storage2023, 72, 108355.

14.F.S. Li, Z.Y. Bi, H. Kimura, H.Y. Li, L.Y. Liu,X.B. Xie, X.Y. Zhang, J. Wang, X.Q. Sun, Z.J. Ma, W. Du*, C.X. Hou*, Energy- and cost-efficient salt-assisted synthesis of nitrogen-doped porous carbon matrix decorated with nickel nanoparticles for superior electromagnetic wave absorption.Advanced Composites and Hybrid Materials2023, 133, 6.

15.F.S. Li, Q.Y. Li, H. Kimura,X.B. Xie, X.Y. Zhang, N.N. Wu, X.Q. Sun, B.B. Xu, H. Algadi, R.A. Pashameah, A.K. Alanazi, E. Alzahrani, H.D. Li, W. Du*, Z.H. Guo*, C.X. Hou*, Morphology controllable urchin-shaped bimetallic nickel-cobalt oxide/carbon composites with enhanced electromagnetic wave absorption performance.Journal of Materials Science & Technology2023, 148, 250-259.

16.C.X. Hou*, W.Y. Yang, H. Kimura,X.B. Xie, X.Y. Zhang, X.Q. Sun, Z.P. Yu, X.Y. Yang, Y.P. Zhang, B. Wang, B.B. Xu, D. Sridhar, H. Algadi, Z.H. Guo*, W. Du*, Boosted lithium storage performance by local build-in electric field derived by oxygen vacancies in 3D holey N-doped carbon structure decorated with molybdenum dioxide.Journal of Materials Science & Technology2023, 142, 185-195.

17.Y.P. Ma, C.X. Hou*, H. Kimura,X.B. Xie, H.Y. Jiang, X.Q. Sun, X.Y. Yang, Y.P. Zhang, W. Du*, Recent advances in the application of carbon-based electrode materials for high-performance zinc ion capacitors: a mini review.Advanced Composites and Hybrid Materials2023, 6, 59.

18.Y.P. Zhang, P. Ding, W.B. Wu, H. Kimura, Y.H. Shen, D. Wu,X.B. Xie, C.X. Hou, X.Q. Sun, X.Y. Yang, W. Du*, Facile synthesis of reduced graphene oxide@Co₃O₄composites derived from assisted liquid-phase plasma electrolysis for high-performance hybrid supercapacitors.Applied Surface Science2023, 609, 155188.

2022

1.X.B. Xie, B.L. Wang*, Y.K. Wang, C. Ni, X.Q. Sun, W. Du, Spinel structured MFe₂O₄(M = Fe, Co, Ni, Mn, Zn) and their composites for microwave absorption: A review.Chemical Engineering Journal2022, 428, 131160.

2.D. Wu,X.B. Xie*, J.J. Zhang, Y.P. Ma, C.X. Hou, X.Q. Sun, X.Y. Yang, Y.P. Zhang, H. Kimura, W. Du*, Embedding NiS nanoflakes in electrospun carbon fibers containing NiS nanoparticles for hybrid supercapacitors.Chemical Engineering Journal446 (2022) 137262.

3.X.B. Xie, C.X. Hou, D. Wu, XQ. Sun, X.Y. Yang, Y.P. Zhang, R.H. Yu, S.Z. Zhang, H. Kimura, W. Du*, Facile synthesis of various Co₃O₄/bio-activated carbon electrodes for hybrid capacitor device application.Journal of Alloys and Compounds891 (2022) 161967.

4.Z.H. Lin,X.B. Xie*, D. Wu, X.Y. Feng, M.N. Chen, X.X. Jia, Y. Sun, Y.T. Qin, YP. Qi, W. Du*, N-doped celery-based biomass carbon with tunable Co₃O₄loading for enhanced-performance solid-state supercapacitor.New Journal of Chemistry,46 (2022) 6921-6931, DOI:10.1039/D1NJ05298E.

5.D. Wu¹,X.B. Xie¹(Co-first author), Y.P. Ma, J.J. Zhang, C.X. Hou, X.Q. Sun, X.Y. Yang, Y.P. Zhang, H. Kimura, W. Du*, Morphology controlled hierarchical NiS/carbon hexahedrons derived from nitrilotriacetic acid-assembly strategy for high-performance hybrid supercapacitors,Chemical Engineering Journal433 (2022) 133673.Highly cited paper

6.Y.P. Zhang, H.L. Wei, H. Kimura, D. Wu,X.B. Xie, X.Y. Yang, C.X. Hou, X.Q. Sun, W. Du*, Facile synthesis, microstructure and electrochemical performance of peanut shell derived porous activated carbon/Co₃O₄composite for hybrid supercapacitors.Ceramics International2022, 48, 34576-34583.

7.Q.F. Ban*, Y. Li, Y.S. Qin, Y.C. Zheng,X.B. Xie, Z. Yu, J. Kong*, Hierarchical engineering of Large-caliber carbon Nanotube/Mesoporous Carbon/Fe₃C nanoparticle hybrid nanocomposite towards Ultra-lightweight electromagnetic microwave absorber.Journal of Colloid and Interface Science2022, 616, 618-630.

8.C.C. Dang, Q. Mu,X.B. Xie, X.Q. Sun, X.Y. Yang, Y.P. Zhang, S. Maganti, M. Huang, Q.L. Jiang, I. Seok, W. Du*, C.X. Hou*, Recent progress in cathode catalyst for nonaqueous lithium oxygen batteries: a review.Advanced Composites and Hybrid Materials2022, 5, 606-626.Highly cited paper

9.Y.P. Zhang, X.Q. Tai, J.Y. Zhou, T.G. Zhai, L.Y. Xu, C.X. Diao,X.B. Xie, C.X. Hou, X.Q. Sun, X.T. Zhang, Z.H. Li, W. Du, Enhanced high-temperature thermal conductivity of the reduced graphene oxide@SiO₂composites synthesised by liquid phase deposition.Ceramics International2022, 48, 8481-8488.

10.Y.J. Zhai, W.Y. Yang, X.B. Xie, X.Q. Sun, J. Wang, X.Y. Yang, N. Naik, H. Kimura, W. Du*, Z.H. Guo*, C.X. Hou*, Co₃O₄nanoparticle-dotted hierarchical-assembled carbon nanosheet framework catalysts with the formation/decomposition mechanisms of Li₂O₂for smart lithium-oxygen batteries.Inorg. Chem. Front.,2022,9, 1115-1124.

2021

1.Y.T. Qin, C. Ni,X. B. Xie*, J.J. Zhang, B.L. Wang, H.T. Wu, X.Q. Sun, H. Kimura, R.H. Yu, W. Du, Multiple reflection and scattering effects of the lotus seedpod-based activated carbon decorated with Co₃O₄microwave absorbent.Journal of Colloid and Interface Science2021, 602, 344-354

2.X.B. Xie, D. Wu, X.M. Feng, C. Ni, X.Q. Sun, H. Kimura, W. Du*, A novel (α-β)NiS/Ni₃S₄-rGO electrode material for supercapacitors.Colloid and Interface Science Communications2021, 43, 100453.

3.X.B.Xie*, B.Zhang, Q.Wang, X.H.Zhao, D.Wu, H.T.Wu,X.Q.Sun,C.X.Hou, X.Y.Yang, R.H.Yu, S.Z.Zhang, V.Murugadoss, W.Du*. Efficient microwave absorber and supercapacitors derived from puffed-rice-based biomass carbon: Effects of activating temperature.Journal of Colloid and Interface Science594 (2021) 290-303.Highly cited paper

4.C.X. Hou*, W.Y. Yang,X.B. Xie, X.Q. Sun, J. Wang, N. Naik, D. Pan, X.M. Mai, Z.H. Guo, F. Dang, W. Du*, Agaric-like anodes of porous carbon decorated with MoO₂nanoparticles for stable ultralong cycling lifespan and high-rate lithium/sodium storage.Journal of Colloid and Interface Science2021, 596, 396-407.Highly cited paper

5.Xiubo Xie*; Yanting Qin; Yukun Wang; Yuxuan Wang; Xiangyang Feng; Mengna Chen; Qingfu Ban; Kimura Hideo; Wei Du*, Wide microwave absorption bandwidth of the puffed-rice-based carbon obtained at 950 °C,J. Mater. Sci.: Mater. Electron.2022, Accepted.

6.Y.P. Ma,X.B. Xie, W.Y. Yang, Z.P. Yu, X.Q. Sun, Y.P. Zhang, X.Y. Yang, H. Kimura, C.X. Hou*, Z.H. Guo*, W. Du*, Recent advances in transition metal oxides with different dimensions as electrodes for high-performance supercapacitors.Advanced Composites and Hybrid Materials2021, 4, 906-924.Highly cited paper

7.M.M. Yu, M. Zhang, J. Sun, F. Liu, Y.J. Wang, G.Z. Ding,X.B. Xie, L. Liu, X.J. Zhao*, H.H. Li, Facile Electrochemical Method for the Fabrication of Stable Corrosion-Resistant Superhydrophobic Surfaces on Zr-Based Bulk Metallic Glasses.Molecules2021, 26(6), 1558.

8.C.X. Hou*, G.H. Fan,X.B. Xie, X.Y. Zhang, X.Q. Sun, Y.P. Zhang, B. Wang, W. Du*, R.H. Fan, TiN/Al₂O₃binary ceramics for negative permittivity metacomposites at kHz frequencies.Journal of Alloys and Compounds2021, 855, 157499

2020

1.X.B. Xie*, C.X. Hou, C.G. Chen, X.Q. Sun, Y. Pang, Y.P. Zhang, R.H. Yu*, B. Wang, Wei Du*, First-principles studies in Mg-based hydrogen storage Materials: A review.Energy, 2020, 211, 118959.

2.X.B. Xie*, D. Wu, H.T. Wu, C.X. Hou, X.Q. Sun, Y.P. Zhang, R.H. Yu, S.Z. Zhang, B. Wang, W. Du*, Dielectric parameters of activated carbon derived fromrosewood and corncob.J. Mater. Sci.: Mater. Electron.DOI:10.1007/s10854-020-04358-8.

3.X.B. Xie*, C. Ni, Z.H. Lin, D. Wu, X.Q. Sun, Y.P. Zhang, B. Wang, W. Du*, Phase and morphology evolution of high dielectric CoO/Co₃O₄particles with Co₃O₄nanoneedles on surface for excellent microwave absorption application.Chem. Eng. J.2020, 396, 125205.Highly cited paper

4.C. Ni, D. Wu,X. B. Xie*, B. L. Wang, H. L. Wei, Y. P. Zhang, X. J. Zhao, L. Liu, B. Wang and W. Du*, Microwave absorption properties of microporous CoNi@(NiO-CoO) nanoparticles through dealloying.J. Magn. Magn. Mater.2020, 503, 166631.

5.X.B. Xie*, C. Ni, B.L. Wang, Y.P. Zhang, X.J. Zhao, L. Liu, B. Wang, W. Du*, Recent advances in hydrogen generation process via hydrolysis of Mg-based materials: A short review.J. Alloys. Compd.2020, 816, 152634.

6.X.B. Xie, Y.C. Li, M. Chen, M.M. Hu, Y.X. Feng, J.X. Shang, T. Liu*, Catalytic Effects of Decorating AlV₃Nanocatalyst on Hydrogen Storage Performance of Mg@Mg₁₇Al₁₂Nanocomposite: Experimental and Theoretical Study.ACS Sustain. Chem. Eng.2020, 8, 4920-4930.

7.X.B. Xie*, C. Ni, H.Y. Yu*, W. Du, X.Q. Sun, D.B. Sun, Facile fabrication of Co@C nanoparticles with different carbon-shell thicknesses: high-performance microwave absorber and efficient catalyst for the reduction of 4-nitrophenol.CrysEngComm, 2020, 22, 4591-4601.

8.Wang, B.; Liao, H.;Xie, X.B.; Wu, Q. Liu, T. Bead-like Cobalt NanoparticlesCoated with Dielectric SiO₂and Carbon Shells for High-Performance MicrowaveAbsorber.J. Colloid Interface Sci.2020, 578, 346-357.

9.Y.P.Zhang,Y.Shen,X.B.Xie,W.Du*,L.T.Kang,Y.Wang,X.Q.Sun,Z.H.Li,B.Wang,One-step synthesis of the reduced graphene oxide@NiO composites for supercapacitor electrodes by electrode-assisted plasma.Mater. Des.2020, 196, 109111.

10.D. Wu,X.B. Xie,Y.P. Zhang, D.M. Zhang,W. Du*, X.Y. Zhang*, B. Wang,MnO₂/Carbon Composites for Supercapacitor: Synthesis and Electrochemical Performance.Frontiers In Materials2020, 7, 2

11.M.M. Hu,X.B. Xie, M. Chen, C.X. Zhu, T. Liu*, TiCX-decorated Mg nanoparticles confined in carbon shell: Preparation and catalytic mechanism for hydrogen storage.J. Alloys Compd.2020, 817, 152813

2019

1.M.Chen, M.M.Hu,X.B.Xie,T.Liu, High loading nanoconfinement of V-decorated Mg with 1 nm carbon shells: hydrogen storage properties and catalytic mechanism.Nanoscale,2019,11:10045-10055.

2.X.B. Xie, M. Chen, M.M. Hu, B. L. Wang, R.H. Yu, T.Liu*, Recent advances in magnesium-based hydrogen storage materials with multiple catalysts.Inter. J. Hydrogen Energy, 2019, 44, 10694-10712.

2018

1.X.B. Xie, M. Chen, M.M. Hu, T. Liu*, Recoverable Ni₂Al₃nanoparticles and their catalytic effects on Mg-based nanocomposite during hydrogen absorption and desorption cycling. Inter.J. Hydrogen Energy, 2018, 43, 21856-21863.

2。X.B. Xie,M. Chen, P. Liu, J.X. Shang, T. Liu*, Synergistic catalytic effects of the Ni and V nanoparticles on the hydrogen storage properties of Mg-Ni-V nanocomposite.Chem. Eng. J.2018, 347, 145-155.

3. M. Chen, X.B. Xie, P. Liu, T. Liu*, Facile fabrication of ultrathin carbon layer encapsulated air-stable Mg nanoparticles with enhanced hydrogen storage properties.Chem. Eng. J.2018, 337, 161-168.

2017

1.X.B. Xie,X. J. Ma, P. Liu, J.X. Shang, X.G. Li, T. Liu*, Formation of Multiple-Phase Catalysts for the Hydrogen Storage of Mg Nanoparticles by Adding Flowerlike NiS.ACS Appl. Mater. Interfaces2017, 9, 5937-5946.

2.X.B. Xie,X. J. Ma, P. Liu, J.X. Shang, T. Liu*, High hydrogen desorption properties of Mg-based nanocomposite at moderate temperatures: The effects of multiple catalysts in situ formed by adding nickel sulfides/graphene.J. Power Sources, 2017, 311, 112-118.

3.X.J.Ma,X.B.Xie, P.Liu, L.Xu, T.Liu,Catalytic Effect of Ti Hydride and Nb Nanoparticles for Improving Hydrogenation and Dehydrogenation Kinetics of Mg-based Nanocomposite.Prog. Nat. Sci.: Mater. Inter.,2017, 27: 99-104.

4.H.H.Du, C.Zhou,X.B.Xie,H.Li, W.Qi, Y.Wu, T.Liu,Pseudocapacitance of nanoporous Ni@NiO nanoparticles on Ni foam substrate: Influence of the annealing temperature.Inter. J. Hydrogen Energy,2017, 42: 15236-15245.

5.Y.Pang,X.B.Xie,D.Li, W.S.Chou, T.Liu,Microporous Ni@NiO nanoparticles prepared by chemically dealloying Al₃Ni₂@Al nanoparticles as a high microwave absorption material.J. Magn. Magn. Mater.2017, 426: 211-216.

6.X.J. Ma,X.B. Xie, P. Liu, L. Xu, T. Liu, Synergic catalytic effect of Ti hydride and Nb nanoparticles for improving hydrogenation and dehydrogenation kinetics of Mg-based nanocomposite.Prog. Nat. Sci. Mater. Inter.2017, 27, 99-104.

7.P.Liu, X.J.Ma,X.B.Xie, L.Xu, X.G.Li, T.Liu,Catalytic effect of (Ti_0.85Zr_0.15)_1.05Mn_1.2Cr_0.6V_0.1Cu_0.1on hydrogen storage properties of ultrafine Mg particles.RSC Adv.,2017, 7: 34538–34547.

8.X.J.Ma, L.Xu,X.B.Xie, T.Liu, X.G.Li,Smart Grid,2017, 3: 225-230.

2016

1. T. Liu*,X.B. Xie,Y. Pang, S. Kobayashi, Co/C nanoparticles with low graphitization degree: a high performance microwave-absorbing material.J. Mater. Chem. C2016, 4, 1727-1735.Highly cited paper

2. X.B. Xie,Y. Pang, S. Kobayashi, T. Liu*, The synergistic effects of carbon coating and micropore structure on the microwave absorption properties of Co/CoO nanoparticles.Phys. Chem. Chem. Phys.2016,18, 30507-30514.

3.T.Liu, Y.Pang,X.B.Xie,W.Qi, Y.Wu,S.Kobayashi, J.Zheng, X.G.Li,Synthesis of microporous Ni/NiO nanoparticles with enhanced microwave absorption properties.J. Alloys Compd,2016, 667: 287-296.

专利（授权专利5项）：

[1]解秀波;王玉坤;杜伟;张冰;孙学勤。一种含碳纳米纤维的海绵衍生碳/镍锌复合碳化物材料及制备方法。CN202210608439.7，授权

[2]解秀波;张冰;王玉坤;侯传信;杜伟。一种双金属碳化物M₃ZnC_x粉体材料及制备方法及应用。CN202210499121.X，授权。

[3]解秀波;代子寅;刘天培;张梦琪;马业坤;倪翠;侯传信;孙学勤;张玉平;杨晓阳。一种通过控制保护气压力调控MOF形貌的方法。CN202211621945.6，一审意见返回。

[4]解秀波;葛承宇;张冰;王玉坤;倪翠;秦燕婷;祁玉鹏;杜伟;侯传信;张玉平;孙学勤;杨晓阳。一种氢气和碳共同还原Co₃O₄制备CoO/Co搭载莲蓬生物质碳材料的方法及应用。CN202310163774.5。一审意见返回

[5]解秀波;肖立嵘;宋建鑫;杜伟;刘伟;代子寅;侯传信。一种放射性储氢材料催化剂、镁基储氢合金材料及制备方法。202310856972X，授权。

[6]张玉平;魏弘历;吴丹;杜伟;解秀波。制备石墨烯/氧化镍复合材料新方法。ZL202010007862.2，授权

[7]侯传信;李付山；杜伟；刘峣；解秀波；孙学勤；杨晓阳。一种三维立方空心框架NiCo₂O₄@C吸波材料及其制备方法。CN202210715672.5。

[8]侯传信;杨雯月;杜伟;解秀波;彭丹妮。一种二氧化钼限域生长并修饰三维多孔碳复合电极材料及制备方法。CN202210625598.8。

[9]侯传信;牟琴;杜伟;解秀波;孙学勤;毕子悦。一种超自组装血红细胞状硫化钴/磷、氮掺杂碳锂离子电池负极复合材料及制备方法。CN202210707526.8。

[10]杨晓阳;陈明;杜伟;侯传信;解秀波;孙学勤;张玉平。一种通过溶剂热-碳还原法制备V₆O₁₃纳米花球材料的方法。CN202210637276.5，授权。

专著

1.HuaiyuShao,XiuboXie,JiandingLi,BoLi,TongLiu,andXingguoLi,NanostructuredMg-basedHydrogenStorageMaterials:SynthesisandProperties,HydrogenStorageTechnologies,Wiley-Scrivenerpublishing,USA,August2018.ISBN: 9781119459880.

2.Xiubo Xie*, Yukun Wang, Xueqin Sun, Chuanxin Hou, Wei Du*,Magnetic Nanoferrites and Related Carbon-containing Composites: Synthesis, Opportunities & Future Aspects. Elsevier, UK. 2023, 1-14. ISBN:978-0-323-96115-8