A scalable solid-state nanoporous network with atomic-level interaction design for carbon dioxide capture https://t.co/Rngg3lLZpv
@RobertHoglund @illuminemNews And here’s functionalized melamine for low cycle energy CO2 capture…https://t.co/9NU35PK6Ks
RT @ForensicPsyMD: A scalable solid-state nanoporous network with atomic-level interaction design for carbon dioxide capture | Science Adva…
A scalable solid-state nanoporous network with atomic-level interaction design for carbon dioxide capture | Science Advances https://t.co/dYXSNe07es
RT @ScienceAdvances: Researchers have developed solid-state #materials with impressive #CarbonCapture capabilities. This new study may spar…
RT @ScienceAdvances: Researchers have developed solid-state #materials with impressive #CarbonCapture capabilities. This new study may spar…
RT @ReimerLab: Thanks to @ScienceAdvances for highlighting our #CarbonCapture work from @DrJingTang & @HaiyanMao2!
RT @Biomaven: Potential breakthrough in carbon capture. Would pair nicely with CO2->methane via solar power. https://t.co/Y7YqJoaWNc
RT @ScienceAdvances: Researchers have developed solid-state #materials with impressive #CarbonCapture capabilities. This new study may spar…
RT @ReimerLab: Thanks to @ScienceAdvances for highlighting our #CarbonCapture work from @DrJingTang & @HaiyanMao2!
RT @ReimerLab: Thanks to @ScienceAdvances for highlighting our #CarbonCapture work from @DrJingTang & @HaiyanMao2!
Thanks to @ScienceAdvances for highlighting our #CarbonCapture work from @DrJingTang & @HaiyanMao2!
@ReimerLab
Researchers have developed solid-state #materials with impressive #CarbonCapture capabilities. This new study may spark future discovery in next-generation platforms for long-term gas storage. https://t.co/pcFCjX1dHN https://t.co/X81J9667eY
The @ScienceAdvances #Abstract on the process in the previous @dailykos story: https://t.co/MBTyiTaSk1
Big potential: The basics: melamine & widely avail chemicals offer a much more energy efficient & inexpensive process, via nano-porous polymer "filters" for scrubbing & sequestering CO2 out of industrial flues. The more complex details: https:/
Here's an interesting whitepaper on CO2->syngas using cheap photovoltaic electricity (assumes price trend in photovoltaics continues) and ambient-temperature closed lime/calcite calcination cycle: https://t.co/DGvE3GhwqG
Enter Cal and Stanford have created an incredible material that can rip 90% of the CO2 out of flue gas in less than 60 seconds, and it’s easily made from cheap and plentiful components. You can read all about it in the August 3 edition of Science Advances
Potential breakthrough in carbon capture. Would pair nicely with CO2->methane via solar power. https://t.co/Y7YqJoaWNc
RT @katchwreck: "Here, we demonstrate new sustainable, solid-state, polyamine-appended, cyanuric acid–stabilized melamine nanoporous networ…
A scalable solid-state nanoporous network with atomic-level interaction design for carbon dioxide capture | Science Advances https://t.co/2uMURO6lUD