Remove Houston Remove Universal Remove Water
article thumbnail

University of Houston team demonstrates new efficient solar water-splitting catalyst for hydrogen production

Green Car Congress

Researchers from the University of Houston (UH) have developed a cobalt(II) oxide (CoO) nanocrystalline catalyst that can carry out overall water splitting with a solar-to-hydrogen efficiency of around 5%. They report on their work in a paper in the journal Nature Nanotechnology.

Houston 268
article thumbnail

Agilent Technologies and University of Houston collaborate to advance petroleum research

Green Car Congress

and the University of Houston will work together to further understanding of the geology and composition of crude oil. This collaboration with a premier energy university reaffirms our commitment, as the market leader in instruments for this industry, to continue to develop new technologies and applications for our customers.

Houston 218
article thumbnail

New robust triple-layer bifunctional catalyst for water splitting with earth-abundant materials

Green Car Congress

A new robust and highly active bifunctional catalyst developed by Rice University and the University of Houston splits water into hydrogen and oxygen without the need for expensive metals such as platinum. Credit: Desmond Schipper/Rice University). A paper on the work is published in the journal Nano Energy.

Water 150
article thumbnail

Univ. Houston, Caltech team develops new earth-abundant, cost-effective catalyst for water-splitting

Green Car Congress

A team of researchers from the University of Houston and the California Institute of Technology has developed an active and durable earth-abundant transition metal dichalcogenide-based hybrid catalyst for water-splitting that exhibits high hydrogen evolution activity approaching the state-of-the-art platinum catalysts.

Houston 150
article thumbnail

Researchers create efficient, simple-to-manufacture photoanode for solar water-splitting

Green Car Congress

Researchers at Rice University and the University of Houston created an efficient, simple-to-manufacture core/shell photoanode with a highly active oxygen evolution electrocatalyst shell (FeMnP) and semiconductor core (rutile TiO 2 ) for the photoelectrochemical oxygen evolution reaction (PEC-OER) for solar water splitting.

Water 170
article thumbnail

This Rice University Professor Developed Cancer-Detection Technology

Cars That Think

Richards-Kortum is a professor of bioengineering at Rice University , in Houston, and codirector of the Rice360 Institute for Global Health Technologies , which is developing affordable medical equipment for underresourced hospitals. in 1990, she joined the University of Texas at Austin as a professor of biomedical engineering.

Universal 136
article thumbnail

US/China team develops robust, stable Ni/Fe OER catalyst for water-splitting at low overpotentials

Green Car Congress

A team from the University of Houston and Hunan Normal University in China has developed an active and durable oxygen evolution reaction (OER) catalyst for water splitting that meets commercial crtieria for current densities at low overpotentials. V for current densities of 200-400 mA cm -2.

Water 170