Xiujie Huang

Date:2023-09-01Source: Hits:

CURRICULUM VITAE

PERSONAL DATA

      Name: Xiujie Huang

Work Address: Northeast Forestry University

26 Hexing Road, Xiangfang Distract

Heilongjiang Province, 150040

Email:shanmu1128@163.com

Tel. & Fax:18826128770

Education

2008.09-2012.06 Undergraduate, Light Chemical Engineering, Northeast Forestry University

2012.09-2015.06 Master, Pulp and Paper Engineering, Northeast Forestry University

2015.09-2018.06 Phd, Biomass Science and Engineering, South China University of Technology

Professional Experience

2018.09-present AssociateProfessor,College of Material Science and Engineering, Northeast Forestry University

Research Interests

Paper-based functional materials

Funded Research

National Nature Science Foundation of China, “Mechanism of selective steam etching on the embedding structure and electrochemical performance of carbonized-paper composite electrode”, RMB 300,000,2022-2024.

Young Elite Scientists Sponsorship Program by CAST, “Functional platform of paper-based materials constructed by hyperbranched polymer”, RMB 450,000,2018-2021.

China Postdoctoral Science Foundation, “Regulation mechanism of sensitivity of paper-based electrochemical biosensor based on fiber arrangement conformation”, RMB 80,000,2019-2021.

Recent Publications

1. Huang, X., Luo, B., Liu, C., Zhong, L., Ye, D., & Wang, X. (2021). Quaternized chitosan-assisted in situ synthesized CuS/cellulose nanofibers conductive paper for flexible electrode. Nano Research, 14, 2390-2397.

2. Wang, Q., Xiang, Y., Li, X., Zhang, W.,Huang, X.*, & Qian, X. (2021). Stable construction of layered reduced grapheme oxide/copper sulfide composites on cellulose fibers with hyperbranched polyamide-amine for efficient photocatalytic degradation of organic dyes. Industrial Crops and Products, 170, 113695.

3. Li, X., Xiang, Y.,Huang, X.*, & Qian, X. (2022). Supramolecular hydrogen-bonded organic networks grown on cellulose fibers for efficient proton conduction. Cellulose, 29(11), 6247-6259.

4. Zhang, T., Xiang, Y., Su, Y., Zhang, Y.,Huang, X.*, & Qian, X. (2022). Anchoring of copper sulfide on cellulose fibers with polydopamine for efficient and recyclable photocatalytic degradation of organic dyes. Industrial Crops and Products, 187, 115357.

5. Zhang, W., Xiang, Y., Li, X.,Huang, X.*, & Qian, X. (2022). Construction of oxygen vacancy mediated direct Z scheme Bi2WO6/SrTiO3hybrid on cellulose fibers for high-performance and recyclable photocatalytic paper. Journal of Colloid and Interface Science, 622, 40-49.

6. Shi, Y., Liu, Y., Zhang, J.,Huang, X.*, & Qian, X. (2023). In-situ etching activation towards flexible carbonized paper-supported electrode with transition-metal oxides embedded into carbonized cellulose fibers. Industrial Crops and Products, 201, 116894.

7. Shi, Y., Liu, Y.,Huang, X.*, & Qian, X. (2023). Carbonized paper-supported electrode with covalent organic framework layers on carbonized cellulose fibers for supercapacitor application. Materials Today Chemistry, 31, 101617.

8. Zhang, J., Shi, Y.,Huang, X.*, & Qian, X. (2023). Stable construction of covalent organic framework/copper sulfide heterojunction on cellulose fibers with hyperbranched polyamide-amine for efficient photocatalytic degradation of organic dyes. Cellulose, 30(3), 1773-1789.

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