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48+ min ago (173+ words) According to Inlyte, the tested unit incorporates what it describes as the world's largest sodium metal chloride battery cells and modules built to date, with each module capable of storing more than 300 kWh of energy. According to Inlyte, the tested unit incorporates what it describes as the world's largest sodium metal chloride battery cells and modules built to date, with each module capable of storing more than 300 kWh of energy.From ESS News California start-up Inlyte Energy has announced a key milestone in the development of its long-duration iron'sodium battery technology, completing a factory acceptance test for its first field-ready system at its facility near Derby, UK. The test, witnessed by representatives from Southern Company ' one of the major energy providers in the US ' validated the performance and integration readiness of Inlyte's battery system, which combines advanced sodium metal chloride…...

5+ hour, 29+ min ago (392+ words) A new material, a cooler process, and a stacked design: MIT's prototype points to a future where chips move data millimeters less and save orders of magnitude more energy. In a development that could reshape how future chips are built, MIT researchers have demonstrated a fabrication technique that stacks logic and memory directly on top of existing circuits potentially slashing the energy wasted shuttling data across a chip. The advance, presented this week at IEDM 2025, points to a path for more efficient computation as AI workloads strain global power grids. Today's chips still separate logic and memory, forcing data to travel through long interconnect networks. That movementsimple electrons trekking micronscosts huge amounts of energy at scale. MIT's new platform collapses that distance by building transistors and memory cells in tight vertical layers on the back end of a finished CMOS…...

8+ hour, 9+ min ago (228+ words) Scientists have created a new, scalable material, gallium sulfide grown by atomic layer deposition, that rivals the optical performance of pristine crystals and promises to improve the efficiency of integrated photonic circuits and augmented reality displays. https://quantumzeitgeist.com/wp-content/uploads/Image_fx-19-15.jpg Large-Area GaS Films Grown by Atomic Layer Deposition Scientists have developed a robust method for fabricating large-scale, high-quality gallium sulfide (GaS) films using atomic layer deposition, overcoming limitations in traditional van der Waals material implementation. The team grew thick GaS films on large-area substrates, achieving thicknesses of approximately 20 micrometers while maintaining exceptional structural and optical properties. Energy-dispersive X-ray spectroscopy confirmed near-ideal stoichiometry with a Ga:S atomic ratio of 49. 5:50. 5, and scanning electron microscopy revealed a continuous, macroscopic foil-like film capable of withstanding substrate release without fracturing. Optical profilometry measurements confirmed the substantial thickness and uniformity of the deposited layers. Raman spectroscopy, employing both…...

11+ hour, 46+ min ago (244+ words) This week I had the pleasure of speaking with Dr. Adelina Voutchkova, Director of Sustainable Development at the American Chemical Society (ACS), and my colleague Dr. Richard Engler, B&C's Director of Chemistry, to discuss ACS' much-coveted Green Chemistry Challenge Awards and ACS' Green Chemistry Institute (GCI). Institutionally, GCI has grown as the imperative for greener and more sustainable chemicals has increased. So also have the stature of the Green Chemistry Challenge Awards and the...By: Bergeson & Campbell, P.C. Inside ACS's Green Chemistry Challenge " A Conversation with Adelina Voutchkova, Ph.D. and Richard E. Engler, Ph.D. This week I had the pleasure of speaking with Dr. Adelina Voutchkova, Director of Sustainable Development at the American Chemical Society (ACS), and my colleague Dr. Richard Engler, B&C's Director of Chemistry, to discuss ACS' much-coveted Green Chemistry Challenge Awards and ACS' Green Chemistry Institute (GCI)....

13+ hour, 3+ min ago (760+ words) [Could life on Earth have begun in surface-bound gels that predated the first cells? Credit: ChemSystemChem/Khanum, et al. (2025)]Surface-bound gels may have provided the structure and chemistry necessary for life to take root on Earth. These findings could also have implications in the search for life beyond Earth. The most widely held theory, known as abiogenesis, holds that life arose naturally from non-living matter, but questions remain about the evolutionary pathways involved. In a recent paper, an international team of researchers from Japan, Malaysia, the UK, and Germany suggests that the answer may involve surface-bound prebiotic gels that existed long before the first cellular organisms emerged. Their research provides new insights into the origins of life on Earth and how scientists could search for it elsewhere in the Universe. The team's "prebiotic gel-first" theory posits that surface gels with…...

13+ hour, 17+ min ago (226+ words) Scientists have developed a new laser-based technique to transform ultraviolet-absorbing crystals into efficient visible-light photocatalysts, achieving rapid degradation of pollutants through the creation of a unique hybrid material with enhanced charge separation. https://quantumzeitgeist.com/wp-content/uploads/Capture-534.jpg Wide-bandgap van der Waals crystals currently limit efficiency in solar energy conversion due to their limited absorption of visible light. This research presents a new strategy for creating cadmium phosphorus trisulfide (CdPS3) with tailored properties using femtosecond pulsed laser ablation in liquid, a technique that precisely controls material creation. By carefully controlling the laser process, scientists engineered the phase and optoelectronic properties of CdPS3, addressing a key challenge in developing more efficient solar energy materials. CdPS3 Nanoparticles Synthesized by Laser Ablation As a quantum scientist exploring the frontiers of physics and technology. My work focuses on uncovering how quantum mechanics, computing, and emerging technologies are transforming our understanding of reality....

13+ hour, 49+ min ago (128+ words) ACS Applications may be fully or partially inaccessible on Dec. 11, 2025, from 6 PM to 8 PM EST due to planned system maintenance. This may affect your ability to log into C&EN. We apologize for any inconvenience. Thank you for your patience. Chemistry in Pictures: Festive glow Showcasing the beauty of chemistry, chemical engineering, and related sciences. Submitted by Prodipta Samadder See more Chemistry in Pictures. Craig Bettenhausen is a business reporter at C&EN. Chemistry matters. Join us to get the news you need. Get More Get More An editor's selection of the C&EN stories that will continue to spark conversations in the week ahead C&EN empowers those in and around the global chemical enterprise The Edge in Chemistry News Your email has been sent to...

13+ hour, 49+ min ago (1310+ words) In the realm of medicinal chemistry, the search for potent antioxidants and antimicrobial agents has become increasingly pivotal due to the escalating incidence of antibiotic resistance and oxidative stress-related disorders. A significant addition to this ever-expanding field comes from recent research conducted by a team of prominent scientists, including Khalaf, El-Sayed, and Sediek. Their groundbreaking [] In the realm of medicinal chemistry, the search for potent antioxidants and antimicrobial agents has become increasingly pivotal due to the escalating incidence of antibiotic resistance and oxidative stress-related disorders. A significant addition to this ever-expanding field comes from recent research conducted by a team of prominent scientists, including Khalaf, El-Sayed, and Sediek. Their groundbreaking work unveils the synthesis and biological evaluation of a new class of compounds: fused pyrazolopyridopyrimidine derivatives. This innovative study not only employs systematic synthesis but also incorporates molecular docking and…...

16+ hour ago (910+ words) In the relentless pursuit of efficient and sustainable pathways for carbon dioxide reduction, the microenvironment at electrode interfaces continues to be a critical yet enigmatic factor influencing electron transfer reactions. Scientists have long recognized that the subtle interplay between the electrode surface and its surrounding ionic milieu can regulate catalytic activity, selectivity, and overall efficiency. [] In the relentless pursuit of efficient and sustainable pathways for carbon dioxide reduction, the microenvironment at electrode interfaces continues to be a critical yet enigmatic factor influencing electron transfer reactions. Scientists have long recognized that the subtle interplay between the electrode surface and its surrounding ionic milieu can regulate catalytic activity, selectivity, and overall efficiency. However, the complexity of this microenvironment has posed significant challenges to elucidating its precise mechanistic role. Traditional empirical models such as the Butler'Volmer equation have provided valuable insights but fall…...

16+ hour, 1+ min ago (1712+ words) The Asgard archaea bear traits that hint at how eukaryotes first emerged Microbes first found around hydrothermal vents offer clues to how all complex life may have emerged on Earth " and maybe beyond. In many submerged regions, murky mud shelters strange life-forms that seem to be the key to one of the biggest mysteries of life on Earth. In 2015, game-changing research made the case that these odd microbes can explain the origin of eukaryotes, the domain of life that includes organisms made of cells containing a membrane-bound nucleus. Since then, an explosion of studies has added to evidence that the Asgard archaea are the key to the birth of all known complex life. The rise of the eukaryotes was one of the most important events in Earth's history. If it had not occurred, there would be no great white sharks,…...