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Air-based photoelectrochemical cell capturing water molecules from ambient air for hydrogen production

(2014) RSC ADVANCES. 4(55). p.29286-29290
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Abstract
A system is demonstrated that autonomously produces hydrogen gas using sunlight and outside air as the only inputs. Oxygen and hydrogen formation reactions occur on either side of a monolithic "solar membrane" inserted in a two-compartment photoelectrochemical cell. A surface film of Nafion (R) serves as a solid electrolyte. This proof of concept invites further development of air-based cells.
Keywords
ATOMIC LAYER DEPOSITION, MEMBRANE FUEL-CELLS, TIO2, CARBON NANOTUBES, PHOTOCATALYTIC DECOMPOSITION, CATALYST, NANOSTRUCTURES, INTERFACE, DEVICES, VAPOR

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Citation

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Chicago
Ronge, J, Shaoren Deng, SP Sree, T Bosserez, SW Verbruggen, NK Singh, Jolien Dendooven, et al. 2014. “Air-based Photoelectrochemical Cell Capturing Water Molecules from Ambient Air for Hydrogen Production.” Rsc Advances 4 (55): 29286–29290.
APA
Ronge, J., Deng, S., Sree, S., Bosserez, T., Verbruggen, S., Singh, N., Dendooven, J., et al. (2014). Air-based photoelectrochemical cell capturing water molecules from ambient air for hydrogen production. RSC ADVANCES, 4(55), 29286–29290.
Vancouver
1.
Ronge J, Deng S, Sree S, Bosserez T, Verbruggen S, Singh N, et al. Air-based photoelectrochemical cell capturing water molecules from ambient air for hydrogen production. RSC ADVANCES. 2014;4(55):29286–90.
MLA
Ronge, J, Shaoren Deng, SP Sree, et al. “Air-based Photoelectrochemical Cell Capturing Water Molecules from Ambient Air for Hydrogen Production.” RSC ADVANCES 4.55 (2014): 29286–29290. Print.
@article{5810731,
  abstract     = {A system is demonstrated that autonomously produces hydrogen gas using sunlight and outside air as the only inputs. Oxygen and hydrogen formation reactions occur on either side of a monolithic "solar membrane" inserted in a two-compartment photoelectrochemical cell. A surface film of Nafion (R) serves as a solid electrolyte. This proof of concept invites further development of air-based cells.},
  author       = {Ronge, J and Deng, Shaoren and Sree, SP and Bosserez, T and Verbruggen, SW and Singh, NK and Dendooven, Jolien and Roeffaers, MBJ and Taulelle, F and De Volder, M and Detavernier, Christophe and Martens, JA},
  issn         = {2046-2069},
  journal      = {RSC ADVANCES},
  keywords     = {ATOMIC LAYER DEPOSITION,MEMBRANE FUEL-CELLS,TIO2,CARBON NANOTUBES,PHOTOCATALYTIC DECOMPOSITION,CATALYST,NANOSTRUCTURES,INTERFACE,DEVICES,VAPOR},
  language     = {eng},
  number       = {55},
  pages        = {29286--29290},
  title        = {Air-based photoelectrochemical cell capturing water molecules from ambient air for hydrogen production},
  url          = {http://dx.doi.org/10.1039/c4ra05371k},
  volume       = {4},
  year         = {2014},
}

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