Opto-electrochemical variation with gel polymer electrolytes in transparent electrochemical capacitors for ionotronics
Journal Article
Kumar, C., Sebastian, A. K., Markapudi, P. R., Beg, M., Sundaram, S., Hussain, A., & Manjakkal, L. (2024)
Opto-electrochemical variation with gel polymer electrolytes in transparent electrochemical capacitors for ionotronics. Applied Physics Letters, 124(11), Article 111603. https://doi.org/10.1063/5.0190801
Advanced flexible ionotronic devices have found excellent applications in the next generation of electronic skin (e-skin) development for smart wearables, robotics, and prosth...
Electrochemical Capacitors based on Organic Semiconductors and Metal Oxides
Presentation / Conference
Kanathedath, J., Nair, R., Peringath, A. R., Sasikumar, A., Paul, F., Beg, M., & Manjakkal, L. (2024, February)
Electrochemical Capacitors based on Organic Semiconductors and Metal Oxides. Poster presented at The 10th annual Innovations in Large-Area Electronics Conference (innoLAE 2024), Cambridge
Eco-friendly Water Hyacinth Cellulose Nanofiber Separator for Flexible Paper Energy Storage Devices
Presentation / Conference
Beg, M., Sam, V., Paul, F., O’Rourke, D., Sun, D. D., Goh, K., …Yu, H. (2024, February)
Eco-friendly Water Hyacinth Cellulose Nanofiber Separator for Flexible Paper Energy Storage Devices. Poster presented at The 10th annual Innovations in Large-Area Electronics Conference (innoLAE 2024), Cambridge
Screen Printed RuO2 Films for Energy Storage and Electrochemical Sensors
Presentation / Conference
Paul, F., Sam, V., Uppuluri, K., Beg, M., & Manjakkal, L. (2024, February)
Screen Printed RuO2 Films for Energy Storage and Electrochemical Sensors. Poster presented at The 10th annual Innovations in Large-Area Electronics Conference (innoLAE 2024), Cambridge
Paper Supercapacitor Developed Using a Manganese Dioxide/Carbon Black Composite and a Water Hyacinth Cellulose Nanofiber-Based Bilayer Separator
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 materials & interfaces, 15(44), 51100-51109. https://doi.org/10.1021/acsami.3c11005
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 separat...
Processing and characterisation of water hyacinth cellulose nanofibres-based aluminium-ion battery separators
Conference Proceeding
Beg, M., Sun, D., Popescu, C., Alcock, K. M., Onyianta, A. J., O'Rourke, D., …Yu, H. (2021)
Processing and characterisation of water hyacinth cellulose nanofibres-based aluminium-ion battery separators. In 2021 26th International Conference on Automation and Computing (ICAC). https://doi.org/10.23919/icac50006.2021.9594191
Water hyacinth is an invasive plant that can be converted to high value cellulose nanofibers. This study presents battery separators prepared from water hyacinth cellulose nan...