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Outputs (5)

Facile synthesis: from Laminaria hyperborea to cellulose films and fibers (2023)
Journal Article
Dai, Y., Sun, D., Sundaram, S., Delbusso, A., O’Rourke, D., Dorris, M., & Edirisinghe, M. (2024). Facile synthesis: from Laminaria hyperborea to cellulose films and fibers. Cellulose, 31(1), 205-216. https://doi.org/10.1007/s10570-023-05606-w

Inverted nozzle-pressurized gyration was used as a processing methodology for regenerating cellulose extracted from Laminaria hyperborea for the first time. The viscoelasticity of cellulose/1-ethyl-3-methylimidazolium acetate (EMIM OAc) solutions exh... Read More about Facile synthesis: from Laminaria hyperborea to cellulose films and fibers.

Paper Supercapacitor Developed Using a Manganese Dioxide/Carbon Black Composite and a Water Hyacinth Cellulose Nanofiber-Based Bilayer Separator (2023)
Journal Article
Beg, M., Alcock, K. M., Titus Mavelil, A., O’Rourke, D., Sun, D., Goh, K., …Yu, H. (2023). Paper Supercapacitor Developed Using a Manganese Dioxide/Carbon Black Composite and a Water Hyacinth Cellulose Nanofiber-Based Bilayer Separator. ACS applied ma

Flexible and green energy storage devices have a wide range of applications in prospective electronics and connected devices. In this study, a new eco-friendly bilayer separator and primary and secondary paper supercapacitors based on manganese dioxi... Read More about Paper Supercapacitor Developed Using a Manganese Dioxide/Carbon Black Composite and a Water Hyacinth Cellulose Nanofiber-Based Bilayer Separator.

Phases study for AgNb(Ta,W)O3 lead-free antiferroelectric ceramics (2023)
Journal Article
Lu, Z., Zhu, Y., Sun, D., Wang, B., Wang, D., Day, S., & Wang, G. (2023). Phases study for AgNb(Ta,W)O3 lead-free antiferroelectric ceramics. Results in Engineering, 20, Article 101447. https://doi.org/10.1016/j.rineng.2023.101447

Uncovering lead-free materials with an exceptionally high recoverable energy density is vital for the creation of future pulse power capacitors. This study determined that introducing Tungsten (W) and Tantalum (Ta) into the Nb-site of AgNbO3 lead-fre... Read More about Phases study for AgNb(Ta,W)O3 lead-free antiferroelectric ceramics.

Electro-blown spinning: New insight into the effect of electric field and airflow hybridized forces on the production yield and characteristics of nanofiber membranes (2023)
Journal Article
Elnabawy, E., Sun, D., Shearer, N., & Shyha, I. (2023). Electro-blown spinning: New insight into the effect of electric field and airflow hybridized forces on the production yield and characteristics of nanofiber membranes. Journal of Science: Advanced Ma

Electro-blown spinning (EBS) is an emergent hybridized nanofibers formation technology. Recently, there has been a great interest in introducing this novel method for producing sub-micron, and nanofibers into several applications. For the first time,... Read More about Electro-blown spinning: New insight into the effect of electric field and airflow hybridized forces on the production yield and characteristics of nanofiber membranes.

Development and Characterization of Bio-Degradable Fibre from Living Organism-Microalgae (2023)
Presentation / Conference Contribution
Pervin, F., Olawumi, T. O., & Sun, D. (2023, February). Development and Characterization of Bio-Degradable Fibre from Living Organism-Microalgae. Paper presented at Future Textile Conference 2023, Bristol, UK

Biodegradable is a simple word but making it effective is a very complex term. This research aim is to develop and characterize biodegradable fiber from microalgae. This research objective is to test the fiber properties and ensure the usability and... Read More about Development and Characterization of Bio-Degradable Fibre from Living Organism-Microalgae.