Published in:Energy & Environmental SciencePublication date:2010-01-01
Degradation and stability is a key issue for nanostructured dye solar cells. This paper gives a comprehensive review on the issues involved.
Published in:Physical Chemistry Chemical PhysicsPublication date:2014-01-01
Published in:Solar EnergyPublication date:2012-01-01
Published in:Renewable and Sustainable Energy ReviewsPublication date:2011-10-01
Published in:Catalysis TodayPublication date:2016-01-01
Catalyst stability in nano-structured dye solar cells (DSC) and nano-composite fuel cells (NFC) is one of themost important factor that determine t...
Published in:CarbonPublication date:2011-02-01
Published in:Journal of Electroanalytical ChemistryPublication date:2011-04-01
The purpose of this study was to identify stable metal based counter electrodes (CE) for dye solar cells (DSC). Previous studies have shown that st...
Published in:Journal of Electroanalytical ChemistryPublication date:2012-01-01
Published in:Journal of The Electrochemical SocietyPublication date:2012-12-19
Published in:Journal of The Electrochemical SocietyPublication date:2012-01-01
Published in:International Journal of Hydrogen EnergyPublication date:2016-05-01
Ceramic low-temperature fuel cell is a promising clean energy technology. Electrodes are key components in the fuel cell. Here two different synthe...
Published in:Applied Surface SciencePublication date:2015-11-01
A hydrochloric acid treatment was performed to modify the surface of TiO2 nanotube arrays for improving the photovoltaic performance of dye-sensiti...
Published in:Journal of the American Chemical SocietyPublication date:2014-05-21
Published in:International Journal of Energy ResearchPublication date:2016-08-08
A hybrid lithium-ion battery model for system-level analyses
An advanced lithium-ion battery model for system-level analyses such as electric vehicle fleet simulation or distributed energy storage application...
Published in:The Journal of Physical Chemistry CPublication date:2016-12-15
In the LiI electrolyte of DSSC competing interactions between lithium cation and the solvent MPN and the additives TBP, NMBI, and GuSCN were identi...
Published in:Renewable and Sustainable Energy ReviewsPublication date:2017-09-01
Degradation is often neglected in search for better solar cell materials, but is equally important than a high efficiency. Here we provide the late...
Published in:Rapid Communications in Mass SpectrometryPublication date:2015-10-29
Dye purity in dye-sensitized solar cells
Published in:The Journal of Physical Chemistry CPublication date:2011-08-11
Published in:physica status solidi (a)Publication date:2011-07-06
Published in:Materials Science and Engineering BPublication date:2009-03-01
Published in:Solid State PhenomenaPublication date:2009-10-01
Published in:Journal of Materials Science Materials in ElectronicsPublication date:2008-02-23
Published in:Applied Physics LettersPublication date:2008-01-14
Published in:Materials Today EnergyPublication date:2017-09-01
Low ionic conductivity and slow reaction kinetics often limit the performance of a ceramic nanocomposite fuel cell (CNFC). Here, we report a novel ...
Published in:Frontiers of Chemical Science and EngineeringPublication date:2017-06-03
A comparative analysis of perovskite structured cathode materials, La0.65Sr0.35MnO3 (LSM), La0.8Sr0.2CoO3 (LSC), La0.6Sr0.4FeO3 (LSF) and La0.6Sr0....
Published in:International Journal of Hydrogen EnergyPublication date:2017-08-01
Published in:International Journal of Hydrogen EnergyPublication date:2018-04-01
A multi-oxide material LiNiCuZn-oxide was prepared through a slurry method as an anodefor ceramic nanocomposite fuel cell (CNFC). The CNFCs using t...
Published in:Wiley Interdisciplinary Reviews Energy and EnvironmentPublication date:2018-05-22
Ceramic fuel cells, such as solid oxide fuel cells, convert the chemical energy of a fuel directly to electricity. To make these to a commercial su...