Combining solar-harvesting materials with carbon-dioxide–consuming microbes could be an efficient way to generate clean fuels

07-Oct-2020

Semiconductive photocatalysts that efficiently absorb solar energy could help reduce the energy required to drive a bioelectrochemical process that converts CO2 emissions into valuable chemicals, KAUST researchers have shown. Recycling CO2 could simultaneously reduce carbon emissions into the ...

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A water-stable dopant enhances and stabilizes the performance of electron-transporting organic electrochemical transistors

18-Jun-2020

Doping is commonly used to improve performance in semiconducting devices but has not previously been successful for electron transporting or n-type, organic electronic materials. Now, an approach developed by KAUST uses a dopant, an additive that boosts the electronic performance and water ...

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30-Jul-2019

A single-molecule imaging technique, called protein-induced fluorescence enhancement (PIFE), has gained traction in recent years as a popular tool for observing DNA-protein interactions with nanometer precision. Yet, according to a new KAUST study, research laboratories have not been using the ...

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04-Jul-2019

Mixing microbes with carbon nanomaterials could help the transition to renewable energy. KAUST research shows microbes and nanomaterials can be used together to form a biohybrid material that performs well as an electrocatalyst. The material could be used in the solar-powered production of ...

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22-Feb-2016

Smart skin that can respond to external stimuli could have important applications in medicine and robotics. Using only items found in a typical household, researchers have created multi-sensor artificial skin that's capable of sensing pressure, temperature, humidity, proximity, pH, and air ...

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