Application and Prospect of Nanocellulose Materials in Functional Membrane Technology

Ningjing Ji

Article ID: 4022
Vol 6, Issue 6, 2023

VIEWS - 71 (Abstract) 50 (PDF)

Abstract


As an emerging nanofiber material, nanocellulose not only retains the properties of cellulose itself, but also has the properties of
nanomaterials, with excellent mechanical and mechanical properties and practicality. The characteristics of nanocellulose materials, includ_x005fing high specific surface area, tunable properties and biocompatibility, as well as the diversity of preparation methods, are introduced in the
section of properties and preparation methods. The applications of nanocellulose materials in functional membrane technologies such as
microfiltration and reverse osmosis membranes are then discussed. The importance of research directions such as multi-scale structure design
and multifunctional composite membrane development is emphasized. However, the application of nanocellulose materials still faces some
challenges, such as persistence of anti-pollution properties, material stability and durability. Solutions are proposed for these challenges, such
as the development of self-cleaning materials, high temperature resistant materials, etc. The application of nanocellulose materials in the field
of functional membrane technology is promising, and their properties and preparation methods make them a strong candidate for functional
membrane materials.

Keywords


Nanocellulose; Functional Membrane Technology; Preparation; Application; Outlook

Full Text:

PDF


References


1. [1] Wei J, SHAO ZQ. Research progress on the application of nanocellulose materials in functional membrane materials[J]. Materials

2. Herald,2021,35(1):01203-01211.

3. [2] Liu F, Tao K, Du XD, Huang Y, Xue LX. Development overview and application progress of functional membrane materials[J].

4. Chemical Production and Technology, 2012, Vol.19, No.6.

5. [3] Shi T, Li YG, Lu QL, Liu ZJ, Chen LJ. Progress in the application of nanocellulose in textile materials[J]. Progress and Re_x005fview,2023, No.1.

6. [4] Huo Y. Structural design and functionalization application of nanocellulose-based gel materials[D]. Tianjin:Tianjin University of

7. Science and Technology, 2022.

8. [5] Zhao XC. Bacterial nanocellulose spinning formation and properties[D]. Shanghai: Donghua University, 2022.




DOI: https://doi.org/10.18686/ijmss.v6i6.4022

Refbacks

  • There are currently no refbacks.




Creative Commons License

This site is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.