Resource Taiwan Universal Water 
Green Car Congress
APRIL 13, 2017
Researchers at KAUST have developed and used a novel way of increasing the chemical reactivity of a two-dimensional molybdenum disulfide material to produce a cheap and effective catalyst for water splitting to produce hydrogen. A monolayer of molybdenum disulfide is only reactive for reducing water to hydrogen at its edge.
Green Car Congress
DECEMBER 20, 2021
Graphene oxide (GO), a water-soluble derivative of graphite, can be assembled to form a membrane that can be used for hydrogen purification. When exposed to humidity, the negatively charged sheets repel each other even more, allowing water molecules to accumulate in the spaces between the GO sheets, which eventually dissolves the membrane.
Green Car Congress
SEPTEMBER 30, 2012
It would also reduce global carbon emissions from vehicles by an additional 260 million tonnes per year by 2050—equivalent to the current annual emissions of Taiwan. Here, the catholyte comes into contact with air and the electron, proton and oxygen from the air react to form water, which exits the regenerator as vapor.
Green Car Congress
AUGUST 22, 2014
Researchers at Stanford University, with colleagues at Oak Ridge National Laboratory and other institutions, have developed a nickel-based electrocatalyst for low-cost water-splitting for hydrogen production with performance close to that of much more expensive commercial platinum electrocatalysts. Pennycook, University of Tennessee.
Cars That Think
SEPTEMBER 23, 2023
In a hangar at the University of Edinburgh, a triangular steel contraption sits beside a giant tank of water. Inside the tank, a technician in a yellow dinghy adjusts equipment so that the triangled structure can be hoisted into the water to see how it deals with simulated waves and currents. s next frontier.
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