#basic2breakthrough search results

Michael Levitt and co-laureates developed a method for fusing large-scale classical computing models with small-scale quantum models. Their Nobel-winning work has improved predictions of chemical processes. #Basic2Breakthrough science.osti.gov/About/Honors-a…

Donna Strickland co-developed chirped pulse amplification – ultrashort-pulse, high-intensity laser pulses that do not destroy the amplifying material. Millions of eye surgeries now use this precision laser technique. #Basic2Breakthrough @UWaterloo @UofR: nobelprize.org/womenwhochange…

Who will be the next @DOE Nobel laureate? John Goodenough developed layered oxides to make cathodes for lithium ion batteries – achieving safe, high-density storage in rechargeable batteries. @UTAustin @eeregov #Basic2Breakthrough: energy.gov/science/articl…

Gérard Mourou co-developed chirped pulse amplification – stretched, amplified, then compressed laser pulses that do not destroy the amplifying material. Millions of eye surgeries now use this precision technique. #Basic2Breakthrough #Nobel @Umich @UofR science.osti.gov/About/Honors-a…

Jennifer A. Doudna developed CRISPR/Cas9, using part of the bacterial immune system as a tool that could be used to cut DNA molecules as desired for new weapons in the fight against genetic diseases. #Nobel #Basic2Breakthrough @UCBerkeley @BerkeleyLab science.osti.gov/About/Honors-a…

Congrats to @TAMUChemistry's @SarbajitBanerj1 and the entire REMIND team on this incredible first for @TAMU that began years ago as an X-grant -- whoop! #Basic2Breakthrough #BeCurious

Solasia President and CEO Yoshihiro Arai notes in his company’s official announcement that #cancer affects one in two Japanese people and that darinaparsin/DARVIAS® ranks as Solasia’s third overall product and its first anti-tumor medicine – whoop! #Basic2Breakthrough #BeCurious

Donna Strickland co-developed chirped pulse amplification – ultrashort-pulse, high-intensity laser pulses that do not destroy the amplifying material. Millions of eye surgeries now use this precision laser technique. #Basic2Breakthrough @UWaterloo @UofR science.osti.gov/About/Honors-a…

Michael Levitt and co-Laureates developed a method for fusing large-scale classical computing models with small-scale quantum models. Their Nobel-winning work has improved predictions of chemical processes. #Basic2Breakthrough #Chemistry science.osti.gov/About/Honors-a…

Gérard Mourou co-developed chirped pulse amplification – stretched, amplified, then compressed laser pulses that do not destroy the amplifying material. Millions of eye surgeries now use this precision technique. #Basic2Breakthrough #Nobel @Umich @UofR science.osti.gov/About/Honors-a…

Who will be the next @ENERGY Nobel laureate? #DYK John Goodenough developed layered oxides to make cathodes for lithium ion batteries – achieving safe, high-density storage in rechargeable batteries. @UTAustin @eeregov #Basic2Breakthrough science.osti.gov/About/Honors-a…

Jennifer A. Doudna developed CRISPR/Cas9, using part of the bacterial immune system as a tool that could be used to cut DNA molecules as desired for new weapons in the fight against genetic diseases. #Nobel #Basic2Breakthrough @UCBerkeley @BerkeleyLab science.osti.gov/About/Honors-a…

Donna Strickland co-developed chirped pulse amplification – ultrashort-pulse, high-intensity laser pulses that do not destroy the amplifying material. Millions of eye surgeries now use this precision laser technique. #Basic2Breakthrough @UWaterloo @UofR science.osti.gov/About/Honors-a…

Who will be the next @ENERGY Nobel laureate? #DYK John Goodenough developed layered oxides to make cathodes for lithium ion batteries – achieving safe, high-density storage in rechargeable batteries. @UTAustin @eeregov #Basic2Breakthrough science.osti.gov/About/Honors-a…

Gérard Mourou co-developed chirped pulse amplification – stretched, amplified, then compressed laser pulses that do not destroy the amplifying material. Millions of eye surgeries now use this precision technique. #Basic2Breakthrough #Nobel @Umich @UofR science.osti.gov/About/Honors-a…

Jennifer A. Doudna developed CRISPR/Cas9, using part of the bacterial immune system as a tool that could be used to cut DNA molecules as desired for new weapons in the fight against genetic diseases. #Nobel #Basic2Breakthrough @UCBerkeley @BerkeleyLab science.osti.gov/About/Honors-a…

What do artificial intelligence, quantum information science, microelectronics, 5G, and low-carbon solutions have in common? They're all technologies of the future that rely on advances in discovery science supported by @ENERGY. #Basic2Breakthrough youtube.com/watch?v=v942xx…

Congrats to Dr. Ryder, Dr. Zhou and @TAMUChemistry doctoral students and Department of Energy Office of Science Graduate Student Research (SCGSR) Program Fellows Greg Day and Hannah Drake -- whoop! @doescience #Basic2Breakthrough #BeCurious

What does the "quantum revolution" really mean? @ORNL breaks down how their researchers are leading the way in four key areas of quantum research that will power the next generation of science and tech. #Basic2Breakthrough youtube.com/watch?v=Lx9F1Z…

Quantum physics is all about the small, but we're making large investments! @ENERGY announced $61 M for scientific infrastructure & research to advance quantum information science, create quantum devices, and develop a quantum internet. #Basic2Breakthrough energy.gov/articles/us-de…

Quantum computers may be able to help tackle some of science's toughest challenges, from understanding the catalysts that speed up chemical reactions to the particles that make up atoms. Learn about @Energy's quantum computing research: energy.gov/science/doe-ex… #Basic2Breakthrough

Donna Strickland co-developed chirped pulse amplification – ultrashort-pulse, high-intensity laser pulses that do not destroy the amplifying material. Millions of eye surgeries now use this precision laser technique. #Basic2Breakthrough @UWaterloo @UofR science.osti.gov/About/Honors-a…

Gérard Mourou co-developed chirped pulse amplification – stretched, amplified, then compressed laser pulses that do not destroy the amplifying material. Millions of eye surgeries now use this precision technique. #Basic2Breakthrough #Nobel @Umich @UofR science.osti.gov/About/Honors-a…

Tech that captures carbon dioxide can be part of our strategy to fight climate change. @Energy is providing $24 M for research to improve the energy efficiency & life of technologies that can capture carbon directly from the atmosphere. #Basic2Breakthrough energy.gov/articles/us-de…

Who's leading the quantum revolution? Check out what our National Quantum Information Science Research Centers led by @BerkeleyLab, @BrookhavenLab, @ORNL, @argonne & @Fermilab are doing to build the quantum workforce. #Basic2Breakthrough science.osti.gov/-/media/QIS/pd…

Jennifer A. Doudna developed CRISPR/Cas9, using part of the bacterial immune system as a tool that could be used to cut DNA molecules as desired for new weapons in the fight against genetic diseases. #Nobel #Basic2Breakthrough @UCBerkeley @BerkeleyLab science.osti.gov/About/Honors-a…

👀👏🏼quantum @doescience awards : nanoscale #QIS science.osti.gov/-/media/bes/pd… and #QuantumInternet science.osti.gov/-/media/ascr/p… & science.osti.gov/-/media/ascr/p… go @ENERGY #Basic2Breakthrough

Less than 10% of plastics are recycled in the U.S. @doescience's smartest minds are developing plastics that can easily be broken down and built back up again into new, high-quality products. 👀 See for yourself: bit.ly/3crPTPE #Basic2Breakthrough

5G can help us make more breakthroughs than ever in AI, automation, and quantum info science! @Energy is providing $6 M to @BrookhavenLab, @argonne, @BerkeleyLab, @PNNLab, & @LosAlamosNatLab to advance 5G for science. #Basic2Breakthrough energy.gov/science/articl…

To tackle climate change, gasoline use must ⬇️. Researchers used @doescience's powerful light sources to understand what chemical processes occur when biofuels run in engines - empowering this industry to make greener engines & fuels 🚘 bit.ly/3jys6mz #Basic2Breakthrough

Who will be the next @ENERGY Nobel laureate? #DYK John Goodenough developed layered oxides to make cathodes for lithium ion batteries – achieving safe, high-density storage in rechargeable batteries. @UTAustin @eeregov #Basic2Breakthrough science.osti.gov/About/Honors-a…

Michael Levitt and co-laureates developed a method for fusing large-scale classical computing models with small-scale quantum models. Their Nobel-winning work has improved predictions of chemical processes. #Basic2Breakthrough science.osti.gov/About/Honors-a…

Quantum physics is all about the small, but we're making large investments! @ENERGY announced $61 M for scientific infrastructure & research to advance quantum information science, create quantum devices, and develop a quantum internet. #Basic2Breakthrough energy.gov/articles/us-de…

5G can transmit up to 100 times more data compared to 4G, making it possible for our scientists to do more research than ever before. Find out how 5G will power research @Energy national laboratories. #Basic2Breakthrough energy.gov/science/articl…

Who will be the next @DOE Nobel laureate? John Goodenough developed layered oxides to make cathodes for lithium ion batteries – achieving safe, high-density storage in rechargeable batteries. @UTAustin @eeregov #Basic2Breakthrough: energy.gov/science/articl…