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Could Magnesium Enhance Tantalum s Quantum Potential?

Researchers at the DOE’s Brookhaven National Laboratory in the United States have found that a coating of magnesium enhances the characteristics of tantalum, a superconducting material with a lot of potential for creating qubits, the building blocks of quantum computers.

United statesPeter sushkoJunsik munYimei zhuAndrew walterMingzhao liuChenyu zhouMegan craigBrookhaven national laboratoryEnergy materials groupNational synchrotron light sourceInterface sciences catalysisStudy coJessica rotkiewicz brookhaven national laboratoryBrookhaven labDepartment at brookhaven

New research could boost a solar-powered fuel made by splitting water

E-Mail Hydrogen is an incredibly powerful fuel, and the ingredients are everywhere in plain old water. Researchers would love to be able to use it widely as a clean and sustainable energy source. One catch, however, is that a considerable amount of energy is required to split water and make hydrogen. Thus scientists have been working on fabricating materials for photoelectrodes that can use solar energy to split water, creating a solar fuel that can be stored for later use. Scientists with the University of Chicago, the University of Madison-Wisconsin and Brookhaven National Laboratory published a new breakthrough in making such photoelectrodes. Their research, reported in

United statesUniversity of wisconsinGiulia galliKyoung shin choiChenyu zhouWennie wangDongho leeNature energy onUniversity of madisonDepartment of energyNational science foundationNanomaterials at brookhaven national laboratoryOffice of scienceArgonne national laboratoryUniversity of chicagoUniversity of chicago research computing center

Grad Student Co-Authors Paper on Optimizing Solar Fuel Production |

Grad Student Co-Authors Paper on Optimizing Solar Fuel Production |
stonybrook.edu - get the latest breaking news, showbiz & celebrity photos, sport news & rumours, viral videos and top stories from stonybrook.edu Daily Mail and Mail on Sunday newspapers.

Mingzhao liuGiulia galliKyoung shin choiChenyu zhouNature energyCatalysis group of the centerCollege of engineeringUs department of energyUniversity of wisconsinArgonne national laboratoryUniversity of chicagoBrookhaven national laboratoryApplied sciencesInterface scienceCatalysis groupFunctional nanomaterials

New research could boost a solar-powered fuel made by splitting water

New research could boost a solar-powered fuel made by splitting water
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Mingzhao liuGiulia galliKyoung shin choiChenyu zhouWennie wangDongho leeNational science foundationNature energy on febNanomaterials at brookhaven national laboratoryUniversity of wisconsinDepartment of energy office scienceArgonne national laboratoryUniversity of chicagoUniversity of chicago research computing centerBrookhaven national laboratoryNature energy

Tuning Electrode Surfaces to Optimize Solar Fuel Production

share: Tuning Electrode Surfaces to Optimize Solar Fuel Production An electrode material with modified surface atoms generates more electrical current, which drives the sunlight-powered reactions that split water into oxygen and hydrogen a clean fuel February 18, 2021 Through a tight coupling of experiment and theory, scientists showed at the atomic level how changes in the surface composition of a photoelectrode play a critical role in photoelectrochemical performance. UPTON, NY Scientists have demonstrated that modifying the topmost layer of atoms on the surface of electrodes can have a remarkable impact on the activity of solar water splitting. As they reported in Nature Energy on Feb. 18, bismuth vanadate electrodes with more bismuth on the surface (relative to vanadium) generate higher amounts of electrical current when they absorb energy from sunlight. This photocurrent drives the chemical reactions that split water into oxygen and hydrogen. The hydrogen can be stored fo

United statesMingzhao liuGiulia galliKyoung shin choiChenyu zhouWennie wangDongho leeCatalysis group of the centerGalli groupNature energy on febNational science foundationUs department of energyUniversity of wisconsinStony brook universityCatalysis groupChoi group