A new study, undertaken by a group of chemistry researchers and led by Associate Professor Greg Metha at the University of Adelaide, has produced small metallic specks that kindle hope for generating clean hydrogen energy efficiently and cost- effectively.
A new membrane developed by University of Amsterdam placed researcher, Hessel Castricum, proved to be versatile in segregating gas and liquid mixtures energy efficiently.
A team of researchers from Georgia Tech, the New Jersey Institute of Technology and Oak Ridge National Laboratory have formulated a self-cleaning carbon removal method by utilizing barium oxide nano particles, which will enable direct powering of solid oxide fuel cells by coal gas at a low level temperature of 750°C.
The official launch of the BioSolar Cells research program that took place in Wageningen, Netherlands on 17th June opened with a seminar on ‘Solar power for the BioBased Economy’.
In their attempt to develop cost effective, light and long lasting fuel cells powered by formic acid the researchers at the Institute of Physical Chemistry of the Polish Academy of Sciences (IPC PAS) in Warsaw have developed a new catalyst.
Anne Louise Koefoed, a researcher at BI Norwegian Business School, stressed the need to find alternatives for fossil fuel through low emission and zero emission technologies. However, such processes are time consuming and expensive.
Aldrich Materials Science, a strategic technology initiative of Sigma-Aldrich Corporation (NASDAQ: SIAL) today announced it has signed an agreement to collaborate on the scale-up and commercialization of next generation hydrogen-storage materials with Ilika plc (AIM:IKA), an advanced cleantech materials discovery company. Both companies believe this enterprise will become a vital component of the energy industry's efforts to develop consumer-friendly hydrogen storage materials for fuel cell and clean combustion technology.
GexCon, a Bergen, Norway based company, has remodeled the FLACS (FLame ACceleration Simulator), previously formulated for natural gas modeling, to describe the dispersal of hydrogen. Experiments have proved that the simulator can precisely forecast the consequences of hydrogen dispersal.
A study report published in Nature Chemistry explains a research conducted by the researchers from the Universitat Politècnica de Catalunya, the University of Auckland (New Zealand) and the University of Aberdeen (Scotland), in using ethanol and sunlight to produce hydrogen, which can be subsequently used as an energy source. The study is considered to be a big leap in the use of hydrogen to substitute fossil fuels.
A new research approach attempted by Stefan Schneider and his colleagues at the Air Force Laboratory USA (Edwards Air Force Base), and published in the journal Angewandte Chemie, introduces a range of exclusive hydrogen-rich ionic liquids that can self combust when associated with hydrogen peroxide.
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