索习东，山西忻州人。博士。主要从事水性聚氨酯涂料、聚氨酯粘合剂、先进炭材料与器件的教学和研究工作。2020年获中国科学院山西煤炭化学研究所材料加工工程博士学位。现就职于忻州师范学院化学系，主讲《物理化学》《胶体与界面化学》专业课程。

主持项目：

[1] 碳纤维表面、界面结构调控及其光热转换和阻盐性能研究，山西省科技厅，2022，8万，主持。

[2] 纤维素基气凝胶微结构调控及其光热转换性能影响研究，山西省教育厅，2021，2万，主持。

[3] 界面性质对纤维素碳气凝胶光热转换性能的影响研究，忻州师范学院，2020，2.5万，主持。

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[2] Jie Yang, Xidong Suo,* Xiaorong Chen, et al. Water-light induced self-blacking system constituted by quinoa cellulose and graphene oxide for high performance of salt-rejecting solar desalination[J]. Advanced Sustainable systems, 2022, 202100350.

[3] Hongtao Qiao, Baowei Zhao, Xidong Suo*, et al. The Biochar Derived from Carp for High-Efficiency Solar Steam Generation and Water Purification[J]. Global Challenges, 2022, 6, 2100083.

[4] Xidong Suo,* Jie Yang,* Yanrong Zhang, et al. Hollow Carbon Fiber Decorated by Nano Structure Surface for High-Efficiency Water Steam Generation[J]. Advanced Sustainable systems, 2021, 202100122.

[5] Xidong Suo, Zhuo Cao, Yuxiu Yu, Liu Yaodong*, Self-Stiffening Behavior Induced by the Polymer Interface in Polyacrylonitrile and thermoplastic polyurethanes composite films[J]. Composites Science and Technology. 2020, 198, 108256.

[6] Xidong Suo, Yuxiu Yu, Zhuo Cao, Liu Yaodong*, Effect of Interlayer Interactions on the Dynamic Self-Stiffening Behaviors of Graphene Oxide Based Films[J]. Advanced materials interface, 2020, 200499.

[7] Huiqing Wei, Xidong Suo（共同一作）, ChunxiangLu*, Yaodong Liu*. Comparison of the thermal stabilization behaviors of dry-Jet gel spun and dry-Jet wet spun polyacrylonitrile fibers[J]. Journal of applied polymer science, 2019, 137, 48671.

[8] Li Xiaopeng, Suo Xidong, Liu Yaodong*, Li Yonghong*. Effect of gelation time on the microstructures: mechanical properties and yclization reactions of dry-jet gel-spun polyacrylonitrile fibers[J]. New carbon materials, 2019, 34(1):9-18.

[9] Zhuo Cao, Weijie Li, Xidong Suo, Yaodong Liu*, Chunxiang Lu*. Structures and cyclization behaviors of gel-spun cellulose/polyacrylonitrile composite fbers[J]. Polymer testing, 2020, 81, 106276.

[10] Hao Jian Huiqing Wei, Xidong Suo, ChunxiangLu*, Yaodong Liu*. Highly isotactic (> 60%) polyacrylonitrile-based carbon fber: Precursor synthesis, fber spinning, stabilization and carbonization Comparison of the thermal stabilization behaviors of dry-Jet gel spun and dry-Jet wet spun polyacrylonitrile fibers[J]. Polymer, 157 (2018) 139–150.