Using cellulose polymorphs for enhanced hydrogen production from photocatalytic reforming.
Chang, Colby; Skillen, Nathan; Nagarajan, Sanjay; Ralphs, Kathryn; Irvine, John T.S.; Lawton, Linda; Robertson, Peter K.J.
John T.S. Irvine
Professor Linda Lawton email@example.com
Professor & Lead of the Environmental Engineering Research Group
Peter K.J. Robertson
Efficient energy production and waste valorisation are the most challenging fields in photocatalysis. Reported here is enhanced hydrogen production from cellulose, achieved through the conversion of cellulose I to II via a simple pretreatment step.
CHANG, C., SKILLEN, N., NAGARAJAN, S., RALPHS, K., IRVINE, J.T.S., LAWTON, L. and ROBERTSON, P.K.J. 2019. Using cellulose polymorphs for enhanced hydrogen production from photocatalytic reforming. Sustainable energy and fuels [online], 3(8), pages 1971-1975. Available from: https://doi.org/10.1039/c9se00377k
|Journal Article Type||Article|
|Acceptance Date||Jul 3, 2019|
|Online Publication Date||Jul 9, 2019|
|Publication Date||Aug 1, 2019|
|Deposit Date||Sep 3, 2019|
|Publicly Available Date||Jul 10, 2020|
|Journal||Sustainable energy and fuels|
|Publisher||Royal Society of Chemistry|
|Peer Reviewed||Peer Reviewed|
|Keywords||Celllose; Energy productions; Photocatalytic reforming; Pre-treatment; Hydrogen production; Wastes|
CHANG 2019 Using cellulose
Publisher Licence URL
You might also like
Processes influencing the destruction of Microcystin-LR by TiO2 photocatalysis.
Destruction of cyanobacterial toxins by semiconductor photocatalysis.