Research [ASAP] Enhanced Stability and Catalytic Performance of pH-Responsive Pickering Interface Biocatalysis via Electrostatically Mediated Immobilized Enzymes LikeLiked Date: May 1, 2025 Less than 1 MinRead Views: 28 ACS Sustainable Chemistry & Engineering DOI: 10.1021/acssuschemeng.5c00537 Source: http://dx.doi.org/10.1021/acssuschemeng.5c00537 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 Eco-friendly dyeing and functional finishing of silk fabric using a natural dye from Arjuna fruit enhanced by metallic salts Research March 11, 2026 Circular economy, circularity, and sustainability: A systematic review and conceptual framework Research March 10, 2026 Evaluating the mechanical performance of bio-based concrete: The role of aggregate type and orientation in compression cyclic loading Research March 10, 2026 6 Best Organic Bedding Brands for Kids (Review) Lifestyle March 10, 2026 Co-doped NiP2 as an efficient and robust bifunctional electrocatalyst for overall water splitting in alkaline electrolytes and seawater Research March 10, 2026 Switchable electroreductive C3 or C3,C5 deuteration of imidazo[1,2-a]pyridines Research March 10, 2026 Insights into Spallation Mechanisms of Thermal Protection System Materials from Mass Spectrometry and HyMETS Testing Research March 10, 2026 Computational Modeling of Failure at the Fabric Weave Level in Reentry Parachute Energy Modulators  Research March 10, 2026 Advanced Printing Process Enables Rapid Prototyping of Tiny Electronic Devices Research March 10, 2026 JPMorgan Backs Clean Iron Startup Electra Environmental News March 10, 2026 Load more
