解秀波，博士研究生， 烟台大学环境与材料工程学院副教授/材料学系主任。研究方向：高性能储氢材料的制备及性能调控；纳米金属氧化物、硫化物及碳基复合吸波材料的制备和性能表征；超级电容器电极材料制备及表征。以第一作者及通讯作者在ACS Applied Material & Interface, Chemical Engineering Journal,   Journal of Power Sources，Nanoscale, ACS Sustainable Chemistry &   Engineering, Energy等杂志发表学术论文28篇，其中中科院一区论文15篇，合作发表论文25篇，其中入选ESI高被引论文5篇，热点论文2篇，被引次数超1700次，h指数为22。

个人学习及工作经历

1. 2019年07月-至今 烟台大学环境与材料工程学院 教师

2. 2020年05月-2020年10月 中科院高能物理研究所 访问学者

3. 2014年09月-2019年07月 北京航空航天大学材料科学与工程学院 博士

4. 2010年09月-2014年07月 烟台大学环境与材料工程学院 学士

近五年主持（或参与）教学、科研项目

1. 烟台大学，烟台大学青年拔尖人才校内启动基金，2019-07-01至2024-07-01，100万元，主持，在研；

2. 国家自然科学基金委员会，青年基金项目，2022-01-01至2024-12-31，30万，主持，在研；

3. 山东省科技厅，青年基金，2021-01-01至2023-12-31，15万，主持，在研；

4. 山东省科技厅，面上基金，2023-01-01至2025-12-31，10万，主要参与人，在研；

5. 国家教育部，大学生创新创业训练计划项目（国家重点），2021-09至2022-07， 主持，结题；

6. 2020.01-2020.12 山东省一流学科执行项目，主持，结题。

7. 2015.01-2017.08 全球能源互联网研究院-电网用储氢合金系列项目，主要参与人，结题； 2016.01-2018.12 国家自然科学基金，主要参与人，结题；

8. 2018.04-2019.05 北京航空航天大学博士卓越学术基金，主持，结题。

学术兼职

担任International Journal of   Minerals Metallurgy and Materials青年编委，Nanomaterialss, Materials International和Frontiers   In Materials 客座编辑, Chemical Engineering Journal,   Carbon, Journal of Colloid and Interface Science, Journal of Power Sources,   Journal of Cleaner Production, International of Hydrogen Energy, Journal of   Materials Science: Materials in Electronics等国际期刊审稿人。

学术专著

1. Huaiyu Shao, Xiubo Xie, Jianding Li, et   al. Hydrogen Storage Technologies, Mehmet Sankir and Nurdan Demirci Sankir   (eds.), Scrivener Publishing LLC, Chapter 3, pp 89-116.

2. Xiubo Xie*, Yukun Wang, Xueqin Sun, Chuanxin Hou, Wei Du*,   Magnetic Nanoferrites and Related Carbon-containing Composites: Synthesis,   Opportunities & Future Aspects. Elsevier, UK. Accepted.

专利

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。ZL202210608439.7

2.张玉平，魏弘历，吴丹，杜伟，解秀波。制备石墨烯/氧化镍复合材料的新方法。CN111172572A

1. B.L. Wang, 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 Science 2023, 614, 156228..

2. 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 Materials 30 (2023) 14-24.

3. 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 & Technology 2023,   133, 1-11

4. B. Zhang, X. 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 MgH2 by adding porous Ni3ZnC0.7/Ni loaded carbon nanotubes   microspheres, Journal of Magnesium and Alloys (2022). http://doi.org/10.1016/j.jma.2022.07.004

5. 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 Science 2022,   https://doi.org/10.1007/s10853-022-07971-6

6. XiuBo   Xie, Baolei Wang*,   Yukun Wang, Cui Ni, Xueqin Sun, Wei Du, Spinel structured MFe2O4   (M=Fe, Co, Ni, Mn, Zn) and their composites for microwave absorption: A   review. Chemical Engineering Journal 428 (2022) 131160. (JCR Q1, IF:13.273，被引39次)

7. Dan Wu, Xiubo Xie*, Jingjing Zhang,   Yongpeng Ma, Chuanxin Hou, Xueqin Sun, Xiaoyang Yang, Yuping Zhang, Hideo Kimura,   Wei Du*, Embedding NiS nanoflakes in electrospun carbon fibers   containing NiS nanoparticles for hybrid supercapacitors. Chemical Engineering Journal 446 (2022)   137262. (JCR Q1, IF:13.273）

8. XiuBo   Xie, Chuanxin Hou,   Dan Wu, Xueqin Sun, Xiaoyang Yang, Yuping Zhang, Ronghai Yu, Shangzhou Zhang,   Hideo Kimura, Wei Du*, Facile synthesis of various Co3O4/bio-activated   carbon electrodes for hybrid capacitor device application. Journal of Alloys   and Compounds 891 (2022) 161967. (JCR Q1, IF:5.316，被引39次)

9. Zihan Lin, Xiubo Xie*, Dan   Wu, Xiangyang Feng, Mengna Chen, Xuexue Jia, Yue Sun, Yanting Qin, Yupeng Qi,   Wei Du*, N-doped celery-based biomass carbon with tunable Co3O4   loading for enhanced-performance solid-state supercapacitor. New Journal   of Chemistry, 2022 46 (2022)   6921-6931, DOI:10.1039/D1NJ05298E. (JCR Q1, IF:3.591)

10. Dan Wu1, Xiubo Xie1(共一), Yongpeng Ma, Jingjing Zhang, Chuanxin Hou, Xueqin   Sun, Xiaoyang Yang, Yuping Zhang, Hideo Kimura, Wei Du*, Morphology   controlled hierarchical NiS/carbon hexahedrons derived from nitrilotriacetic   acid-assembly strategy for high-performance hybrid supercapacitors, Chemical   Engineering Journal 433 (2022) 133673. Highly cited paper

11. XiuBo Xie*, Bing Zhang, Qin Wang, Xinhong Zhao, Dan Wu, Haitao   Wu, Xueqin Sun, Chuanxin Hou, Xiaoyang Yang, Ronghai Yu, Shangzhou Zhang,   Vignesh Murugadoss, Wei Du*. Efficient microwave absorber and supercapacitors   derived from puffed-rice-based biomass carbon: Effects of activating   temperature. Journal of Colloid and Interface Science 594 (2021)   290-303. (高被引论文，JCR   Q1, IF:8.128，被引46次)  

12. Yanting Qin, Cui Ni, XiuBo Xie*,   Jingjing Zhang, Baolei Wang, Haitao Wu, Xueqin Sun, Hideo Kimura, Ronghai Yu,   Wei Du, Multiple reflection and scattering effects of the lotus seedpod-based   activated carbon decorated with Co3O4 microwave   absorbent. Journal of Colloid and Interface Science 602 (2021)   344-354. (JCR Q1, IF:8.128，被引5次)

13. XiuBo Xie, Dan Wu, Xiangmin Feng, Cui Ni, Xueqin Sun, Hideo   Kimura, Wei Du*, A novel (α-β)NiS/Ni3S4-rGO electrode   material for supercapacitors. Colloid and Interface Science Communications   43 (2021) 100453. (JCR Q1, IF:4.914，被引2次)

14. Xiubo Xie1*;   Yanting Qin1 ; 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.

15. 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. (JCR Q2, IF:2.717，被引29次)

16. 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. (JCR Q1, IF:4.650，被引44次)

17. 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, 211 (2020) 118959. (JCR   Q1, IF:6.082，被引32次)

18. 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 from rosewood and corncob. J. Mater. Sci.: Mater. Electron.   DOI:10.1007/s10854-020-04358-8. (JCR   Q2, IF:2.220，被引7次)

19. 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/Co3O4   particles with Co3O4 nanoneedles on surface for   excellent microwave absorption application. Chem. Eng. J. 396 (2020)   125205. (高被引论文，JCR Q1 IF:13.273，被引82次)  

20. X.B. Xie, Y.C. Li, M. Chen, M.M. Hu, Y.X. Feng, J.X. Shang,   T. Liu*, Catalytic Effects of Decorating AlV3 Nanocatalyst on Hydrogen   Storage Performance of Mg@Mg17Al12 Nanocomposite: Experimental and   Theoretical Study. ACS Sustain. Chem. Eng. 2020, 8, 4920-4930. (JCR Q1, IF:7.632，被引8次)

21. 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. (JCR Q2, IF:3.117，被引8次)

22. 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, 2018, 44, 10694-10712. (JCR Q2, IF:4.939，被引43次)

23. X.B. Xie, M. Chen, M.M. Hu, T. Liu*, Recoverable Ni2Al3   nanoparticles and their catalytic effects on Mg-based nanocomposite   during hydrogen absorption and desorption cycling. Inter. J. Hydrogen   Energy, 2019, 44, 10694-10712. (JCR   Q2, IF:4.939，被引7次)

24.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. (JCR   Q1 IF:13.273，被引41次)

25. 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. Interfaces 2017, 9, 5937-5946. (JCR Q1 IF:8.758，被引50次)

26. 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. (JCR   Q1 IF:8.247，被引33次)

27. 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.

28. 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. C   2016, 4, 1727- 1735. Highly cited paper