Research output per year
Research output per year
Personal profile
Research Interests
The structure and high value-added applications of natural polymer-based materials mainly include (1) crystal structure analysis of polysaccharides, dissolution and crystallization of polysaccharides; (2) nano-packaging materials, antibacterial materials, biosensors and other applications; (3) Targeted delivery of probiotics and design of nanodrug delivery systems; (4) Modification, assembly and application of monodisperse cellulose oligosaccharides; (5) Selective construction of nano-enzyme substrates
Education
2017.09-2021.07 Center for Plant Macromolecules Research, University of the Alps, Grenoble, France
2014.09-2017.06 Huazhong Agricultural University, Master
2010.09-2014.06 Huazhong Agricultural University, Bachelor
2014.09-2017.06 Huazhong Agricultural University, Master
2010.09-2014.06 Huazhong Agricultural University, Bachelor
Professional Experience
2021.09 - Now Assistant Professor, School of Materials, Beijing Institute of Technology
Research Achievement
1. Li W, Wu Y, Liang W, Li B, Liu S. Reduction of the water wettability of cellulose film through controlled heterogeneous modification[J]. ACS applied materials & interfaces. 2014;6(8):5726-5734.
2. Li W, Li X, Wang Q, Pan Y, Wang T, Wang H, et al. Antibacterial activity of nanofibrous mats coated with lysozyme-layered silicate composites via electrospraying[J]. Carbohydrate polymers, 2014;99:218-225.
3. Li W, Chen H, He Z, Han C, Liu S, Li Y. Influence of surfactant and oil composition on the stability and antibacterial activity of eugenol nanoemulsions[J]. LWT-Food Science and Technology, 2015;62:39-27.
4. Li W, Luo X, Song R, et al. Porous cellulose microgel particle: A fascinating host for the encapsulation, protection and delivery of Lactobacillus plantarum[J]. Journal of Agricultural and Food Chemistry,2016;64(17): 3430-3436.
5. Li W, Luo X, Zhu Y, Li B, Liu S. Probiotics in cellulose houses: enhanced viability and targeted delivery of Lactobacillus plantarum[J]. Food Hydrocolloids, 2017;62: 66-72.
6. Li W, Zhang L, Li Q, Wang S, Luo X, Deng H, Liu S. Porous structured cellulose microsphere acts as biosensor for glucose detection with “signal-and-color” output[J]. Carbohydrate Polymers, 2019;205: 295-301.
7. Li W, Liu L, Tian H, Luo X, Liu S. Encapsulation of Lactobacillus plantarum in cellulose based microgel with controlled release behavior and increased long-term storage stability[J]. Carbohydrate polymer. 2019; 223: 115065.
8. Li W, Ogawa Y, Perez J, et al. Fivefold Helical Cellulose Trapped in a Sulfuric Acid Framework[J]. Crystal Growth & Design, 2021. (Accepted)
9. 刘石林, 李唯, 吴悦寒等. 一种天然高分子基光固化树脂的制备方法[P],专利申请号:201310490314.X;
10. Li W, Wu Y, Luo X, Liu S. Bionanocomposites: Integrating biological processes for bio-inspired nanotechnologies, Chapter 5.2: Magnetic bionanocomposites: current trends, scope and applications. Editor: C. Aimé, T. Coradin. Wiley STM. p205-p234.
2. Li W, Li X, Wang Q, Pan Y, Wang T, Wang H, et al. Antibacterial activity of nanofibrous mats coated with lysozyme-layered silicate composites via electrospraying[J]. Carbohydrate polymers, 2014;99:218-225.
3. Li W, Chen H, He Z, Han C, Liu S, Li Y. Influence of surfactant and oil composition on the stability and antibacterial activity of eugenol nanoemulsions[J]. LWT-Food Science and Technology, 2015;62:39-27.
4. Li W, Luo X, Song R, et al. Porous cellulose microgel particle: A fascinating host for the encapsulation, protection and delivery of Lactobacillus plantarum[J]. Journal of Agricultural and Food Chemistry,2016;64(17): 3430-3436.
5. Li W, Luo X, Zhu Y, Li B, Liu S. Probiotics in cellulose houses: enhanced viability and targeted delivery of Lactobacillus plantarum[J]. Food Hydrocolloids, 2017;62: 66-72.
6. Li W, Zhang L, Li Q, Wang S, Luo X, Deng H, Liu S. Porous structured cellulose microsphere acts as biosensor for glucose detection with “signal-and-color” output[J]. Carbohydrate Polymers, 2019;205: 295-301.
7. Li W, Liu L, Tian H, Luo X, Liu S. Encapsulation of Lactobacillus plantarum in cellulose based microgel with controlled release behavior and increased long-term storage stability[J]. Carbohydrate polymer. 2019; 223: 115065.
8. Li W, Ogawa Y, Perez J, et al. Fivefold Helical Cellulose Trapped in a Sulfuric Acid Framework[J]. Crystal Growth & Design, 2021. (Accepted)
9. 刘石林, 李唯, 吴悦寒等. 一种天然高分子基光固化树脂的制备方法[P],专利申请号:201310490314.X;
10. Li W, Wu Y, Luo X, Liu S. Bionanocomposites: Integrating biological processes for bio-inspired nanotechnologies, Chapter 5.2: Magnetic bionanocomposites: current trends, scope and applications. Editor: C. Aimé, T. Coradin. Wiley STM. p205-p234.
Expertise related to UN Sustainable Development Goals
In 2015, UN member states agreed to 17 global Sustainable Development Goals (SDGs) to end poverty, protect the planet and ensure prosperity for all. This person’s work contributes towards the following SDG(s):
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Research output
- 30 Article
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A long lifetime and highly sensitive wearable microneedle sensor for the continuous real-time monitoring of glucose in interstitial fluid
Yin, S., Yu, Z., Song, N. N., Guo, Z., Li, W., Ma, J., Wang, X., Liu, J. & Liang, M., 15 Jan 2024, In: Biosensors and Bioelectronics. 244, 115822.Research output: Contribution to journal › Article › peer-review
9 Citations (Scopus) -
Poly-eugenol grafting from cellulose surface for robust antioxidation
Li, Y., Yuan, B., Yu, S., Xia, Z., Nishiyama, Y., Chen, P., Li, W. & Liang, M., Nov 2024, In: Food Hydrocolloids. 156, 110296.Research output: Contribution to journal › Article › peer-review
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Comparative analysis of molecular weight determination techniques for cellulose oligomers
Li, W., Mortha, G., Otsuka, I., Ogawa, Y. & Nishiyama, Y., Sept 2023, In: Cellulose. 30, 13, p. 8245-8258 14 p.Research output: Contribution to journal › Article › peer-review
1 Citation (Scopus) -
Vapour-induced phase transformation in ultrathin cellulose films
Liu, P., Li, W., Mei, Z., Zhu, T., Nishiyama, Y. & Wang, H., Sept 2023, In: Cellulose. 30, 13, p. 8161-8167 7 p.Research output: Contribution to journal › Article › peer-review
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Fivefold Helical Cellulose Trapped in a Sulfuric Acid Framework
Li, W., Ogawa, Y., Perez, J., Mazeau, K., Morfin, I. & Nishiyama, Y., 5 Jan 2022, In: Crystal Growth and Design. 22, 1, p. 20-25 6 p.Research output: Contribution to journal › Article › peer-review
Open Access5 Citations (Scopus)