Searched for: author%3A%22Smith%2C+W.A.%22
(1 - 2 of 2)
document
Valenti, M. (author), Venugopal, A. (author), Tordera, Daniel (author), Jonsson, P.M. (author), Biskos, G. (author), Schmidt-Ott, A. (author), Smith, W.A. (author)
The conversion of light to electrical and chemical energy has the potential to provide meaningful advances to many aspects of daily life, including the production of energy, water purification, and optical sensing. Recently, plasmonic nanoparticles (PNPs) have been increasingly used in artificial photosynthesis (e.g., water splitting) devices...
journal article 2017
document
Valenti, M. (author), Jonsson, M.P. (author), Biskos, G. (author), Schmidt-Ott, A. (author), Smith, W.A. (author)
Photoelectrochemical (PEC) water splitting is a promising technology that uses light absorbing semiconductors to convert solar energy directly into a chemical fuel (i.e., hydrogen). PEC water splitting has the potential to become a key technology in achieving a sustainable society, if high solar to fuel energy conversion efficiencies are...
journal article 2016