Research [ASAP] Surface Superlattice-Induced Spatial Confinement Enables High Voltage and Long Cycle Life in Li–CO2 Batteries LikeLiked Date: January 29, 2026 Less than 1 MinRead Views: 5 Journal of the American Chemical Society DOI: 10.1021/jacs.5c17407 Source: http://dx.doi.org/10.1021/jacs.5c17407 Tags:Materials Industry FacebookTwitterLinkedinWhatsAppTelegramEmail ALT-Lab-Ad-1ALT-Lab-Ad-2ALT-Lab-Ad-3ALT-Lab-Ad-4ALT-Lab-Ad-5ALT-Lab-Ad-6ALT-Lab-Ad-7ALT-Lab-Ad-8ALT-Lab-Ad-9ALT-Lab-Ad-10ALT-Lab-Ad-11ALT-Lab-Ad-12ALT-Lab-Ad-13 Recent Articles CME cash dairy prices mostly lower Food & Agriculture January 29, 2026 Cropin Launches AI-first Agrifood ‘Ecosystem’ Food & Agriculture January 29, 2026 PNNL Scientists Play a Pivotal Role in Advancing Modern Vitrification Technology Research January 29, 2026 I Am Artemis: Doug Parkinson Research January 29, 2026 2005-2024 Campus Carbon Footprint Climate & Resource January 29, 2026 March 2026 Total Lunar Eclipse: Your Questions Answered Research January 29, 2026 The Carbon Credit Market in 2025 is A Turning Point: What Comes Next for 2026 and Beyond? Carbon Markets January 29, 2026 Tesla Reports First-Ever Annual Revenue Drop in 2025, Carbon Credit Sales Also Dip 28% Climate & Resource January 29, 2026 Fault Rates Alpha-Tolerance of Monte Carlo Simulation (FRAT-MCS) for Reliability Performance of Power System Network Research January 29, 2026 Ranked: The Biggest Risks Facing the World in 2026 Finance & investments January 29, 2026 Load more
