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The Clean Energy Compound That Could Change The World :: The Market Oracle ::

The Clean Energy Compound That Could Change The World :: The Market Oracle ::
marketoracle.co.uk - get the latest breaking news, showbiz & celebrity photos, sport news & rumours, viral videos and top stories from marketoracle.co.uk Daily Mail and Mail on Sunday newspapers.

United statesLisa pottsRene bhartiGary benningerLuisa morenoSamsung heavy industriesSpace administrationClean energy compound that couldMagna internationalWorld companies energy resourcesResearch ortech incTechnology government relations drNational aeronauticsFord motor companyCompany innovative research developmentSociety of plastics engineers

DTI to enhance plastic products standards

DTI to enhance plastic products standards
mb.com.ph - get the latest breaking news, showbiz & celebrity photos, sport news & rumours, viral videos and top stories from mb.com.ph Daily Mail and Mail on Sunday newspapers.

Mario estradaIndustriyang kimikaElsie davidPhilippine alliance forTesting divisionEnvironmental management bureauMaterials science divisionPackaging institute of the philippinesJg summit petrochemical corporationNational plan of action on marine litterTechnical committeePhilippine institute of chemical engineers pichSustainable development incUniversity of the philippines dilimanDepartment of environmentPhilippine national standards

Study Reveals Key Atomic-Scale Mechanism Involved in Crystal Growth

Study Reveals Key Atomic-Scale Mechanism Involved in Crystal Growth Written by AZoMMay 27 2021 With attractive shapes and vivid colors, a majority of crystals are undoubtedly the wonders of nature. A few crystals are also wonders of science, with revolutionary applications in optics and electronics. Therefore, identifying an optimal way to grow these crystals is crucial to more advancements. Schematic of microbeam surface X-ray scattering during growth of gallium nitride crystal at high temperature. Image Credit: Argonne National Laboratory. Researchers from the Argonne National Laboratory of the U.S. Department of Energy (DOE), together with three universities, have shed new light on the mechanism behind the growth of gallium nitride crystals at the atomic scale.

Guangxu juCarol thompsonDongwei xuWeronika walkoszG brian stephensonPeter zapolHuazhong university of scienceNature communicationsMaterials science divisionX ray sciences divisionLake forest collegeUs department of energyOffice of science user facilityOffice of basic energy sciencesArgonne national laboratoryNorthern illinois university

Going Beyond Qubits: New Study Demonstrates Key Components for a Qutrit-Based Quantum Computer

Going Beyond Qubits: New Study Demonstrates Key Components for a Qutrit-Based Quantum Computer A team led by physicists at Lawrence Berkeley National Laboratory (Berkeley Lab) and UC Berkeley has successfully observed the scrambling of quantum information, which is thought to underlie the behavior of black holes, using qutrits: information-storing quantum units that can represent three separate states at the same time. Their efforts also pave the way for building a quantum information processor based upon qutrits. The black hole information paradox The new study, recently published in the journal Physical Review X, makes use of a quantum circuit that is inspired by the longstanding physics question: What happens to information when it enters a black hole?

United statesStephen hawkingNorman yaoIrfan siddiqiMaterials sciencesNational science foundation graduate research fellowshipLawrence berkeley national laboratory labPerimeter institute for theoretical physicsLab computational researchBerkeley lab materials sciences divisionOffice of high energy physicsBerkeley lab advanced quantumLawrence berkeley national laboratoryBerkeley labMaterials sciences divisionAdvanced quantum testbed

Improved Desalination Process Also Removes Toxic Metals to Produce Clean Water

Date Time Improved Desalination Process Also Removes Toxic Metals to Produce Clean Water UC Berkeley chemists synthesized a flexible polymer membrane incorporating nanoparticles called “porous aromatic frameworks.” The membrane selectively absorbs nearly 100% of metals such as mercury, copper, or iron during desalination, more efficiently producing clean, safe water. The membrane can incorporate a single type of tuned nanoparticle if the metal is to be recovered – or several different types, each tuned to absorb a different metal or ionic compound if multiple contaminants need to be removed in one step. (Credit: Adam Uliana/UC Berkeley) Adapted from UC Berkeley news release by Robert Sanders

United statesNgoc buiAdam ulianaRobert sandersBerkeley lab molecular foundryUniversity of oklahomaLaboratory directed researchDepartment of energy office scienceBerkeley labBerkeley lab materials sciences divisionNational science foundationJeffrey longMaterials sciences divisionMolecular foundryAssistant professorJeff urban