Enhanced Wastewater Remediation Using Mesoporous Activated Wheat Straw Biochars: A Dye Removal Perspective

Priyanka, Priyanka; Vashisht, Devika; Ibhadon, Alex O.; Mehta, Surinder K.; Taylor, Martin J.

doi:10.1021/acssusresmgt.3c00109

All Outputs (2)

Investigation of Monovalent Li and Divalent Ni Doping in Co3O4 for Enhanced Hydroelectric Cell Performance (2024)
Journal Article
Kashyap, R., Chauhan, A., Kaur, G., Ram Chaudhary, G., Taylor, M. J., & Sharma, R. K. (2024). Investigation of Monovalent Li and Divalent Ni Doping in Co3O4 for Enhanced Hydroelectric Cell Performance. Physica B: Condensed Matter, 688, Article 416150. https://doi.org/10.1016/j.physb.2024.416150

The hydroelectric cell (HEC) produces green power at room temperature using non-photocatalytic water splitting. To achieve this goal, pure Ni (Nickel) and lithium (Li) substituted in cobalt oxide (Co3O4), a mesoporous oxygen-deficient material, is in... Read More about Investigation of Monovalent Li and Divalent Ni Doping in Co3O4 for Enhanced Hydroelectric Cell Performance.

Enhanced Wastewater Remediation Using Mesoporous Activated Wheat Straw Biochars: A Dye Removal Perspective (2024)
Journal Article
Priyanka, P., Vashisht, D., Ibhadon, A. O., Mehta, S. K., & Taylor, M. J. (in press). Enhanced Wastewater Remediation Using Mesoporous Activated Wheat Straw Biochars: A Dye Removal Perspective. ACS Sustainable Resource Management, https://doi.org/10.1021/acssusresmgt.3c00109

The escalating contamination of water bodies by synthetic dyes necessitates innovative and ecoconscious strategies for wastewater treatment. In this study, activated biochars BC-800 (1:0.25), BC-800 (1:0.5), and BC-800 (1:1) from wheat straw were syn... Read More about Enhanced Wastewater Remediation Using Mesoporous Activated Wheat Straw Biochars: A Dye Removal Perspective.