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39+ min ago  (392+ words) Scientists engineered a microbe to convert industrial waste gases such as carbon dioxide and carbon monoxide into acetone. The same microbe can also make isopropanol. Oak Ridge National Laboratory scientists used mass spectrometry to analyze proteins and small molecules called…...

2+ hour, 11+ min ago  (1152+ words) In a landmark development that could revolutionize the approach to plastic waste recycling, an international team of scientists has unveiled the detailed molecular workings of an enzyme capable of breaking down polyurethane, one of the most challenging and widely produced…...

5+ hour, 46+ min ago  (40+ words) Porous Nanofibrils Spun from Supramolecules with Intrinsic Cavities (IMAGE)EurekAlert! Schematic illustration of porous fibrils assembled from metal'organic polyhedra (MOPs) and the resulting flexible porous aerogel. More on this News Release Porous nanofibrils spun from supramolecules with intrinsic cavities...

8+ hour, 19+ min ago  (284+ words) At the forefront of this effort is Bashir Khoda, a professor in UMaine's College of Engineering and Computing, whose laboratory conducts research on growing algae cells while simultaneously working to train the next generation of STEM researchers through new education…...

1+ hour, 23+ min ago  (1163+ words) A groundbreaking study has unveiled crucial insights into the behavior of biochar when subjected to increasing soil salinity'a pervasive issue that threatens global agricultural productivity. Biochar, a carbon-dense byproduct of biomass pyrolysis, is widely celebrated for its dual capacity to…...

3+ hour, 11+ min ago  (1211+ words) A groundbreaking five-year field experiment has unveiled critical insights into the long-term mitigation of methane emissions from rice paddies'a leading source of agricultural greenhouse gases worldwide. Conducted from 2018 to 2022, the study reveals that not only the presence of biochar, a…...

4+ hour, 7+ min ago  (1211+ words) A groundbreaking advancement in sustainable water purification has emerged, spotlighting innovative environmental remediation technology that harnesses the potential of biochar derived from microalgal waste. This technology introduces amine-functionalized biochar/cellulose acetate hybrid membranes, specifically engineered to tackle the persistent challenge…...

3+ hour, 24+ min ago  (328+ words) The most complicated thing was obtaining all the authorizations and respecting the necessary ethical standards so that dogs could stay in this space for 24 hours," explains Dusan Licina. The animals had, for example, to know each other and be accompanied…...

2+ hour, 56+ min ago  (546+ words) Credit: Ruoyu Wang, Hongqiang Li, Naqi Cui, Chong Tang, Xiangping Wang, Wenping Xie & Rongjiang Yao A new study reveals that increasing soil salinity can significantly slow the aging of biochar, a widely used soil amendment, while also suppressing the microbial…...

4+ hour, 8+ min ago  (1184+ words) Study Finds Hydrochar Enhances Soil Carbon Storage and Structure More Effectively Than Biochar'bioengineer.org In an era where sustainable agriculture and environmental stewardship are paramount, soil health has emerged as a critical focal point for scientists striving to bolster food…...