Computational Design of Natural Deep Eutectic Systems Using COSMO-RS for Ice Control Applications [0.03%]
基于COSMO-RS的天然深共熔溶剂计算设计用于控冰应用
Akshat S Mallya,Priyanka Yadav,Stephanie Zakhia et al.
Akshat S Mallya et al.
Natural Deep Eutectic Systems (NADES) have shown great promise in sustainable and green chemistry applications due to their low toxicity and ease of preparation. Given the empirical approach to the selection of components and the mixing rat...
Synthesis of Pellet-Based Pd/C Egg-Shell Catalysts for Reversible Hydrogen Storage in Formate/Bicarbonate [0.03%]
基于颗粒的Pd/C蛋壳催化剂的合成用于甲酸/碳酸盐可逆储氢
Carolin A M Stein,Jonas Massa,Katja Neubauer et al.
Carolin A M Stein et al.
We report the scalable synthesis of egg-shell Pd/C pellet catalysts for the reversible formate/bicarbonate hydrogen-storage cycle. This system is inherently safe, nontoxic and allows for the easy control of hydrogen storage and release thro...
Carlos Posada,Hongwei Sun,Adrian DiMarco et al.
Carlos Posada et al.
Polyethylene (PE) is the most widely used polymer in the world. Existing advanced recycling methods are energy-intensive and produce complex products that require further separation and purification. In catalytic chemical upcycling, catalys...
Nicolas Schaeffer,João A P Coutinho
Nicolas Schaeffer
Concentrated Rhamnolipid Formulations: Bridging Chemodiversity to Structure, Flow Behavior, and Functionality [0.03%]
高浓度鼠李糖脂配方:化学多样性、结构、流变行为和功能之间的关系桥梁
Matilde Tancredi,Carlo Carandente Coscia,Michela Buonocore et al.
Matilde Tancredi et al.
The development of ultraconcentrated biobased formulations is one of the latest frontiers in sustainable product design. This study demonstrates that biosurfactants are well suited to the scope with their natural chemodiversity being a key ...
Element-Based Predictive Modeling of Hydrothermal Liquefaction Bioproducts Derived from Corn Stover [0.03%]
基于元素的玉米秸秆水热液化的预测模型构建与评估
Isamu Umeda,Meicen Liu,Yi Zheng et al.
Isamu Umeda et al.
The hydrothermal liquefaction (HTL) process offers an energetic advantage over pyrolysis because it does not require prior drying of the biomass feedstock. However, there are significant challenges in simultaneously estimating both the yiel...
A Multienzyme Magnetic Nanocatalyst for Efficient, Sustainable Hydrolysis of Wastewater-Grown Microalgae Consortia [0.03%]
高效可持续地利用废水培养的微藻 consortium 提取藻油的新方法——磁化多酶纳米催化剂
Suvidha Gupta,Jorge M Marchetti
Suvidha Gupta
The rigid cell walls of microalgal consortia (Scenedesmus and Tribonema) hinder the efficient release of intracellular bioproducts and present a significant challenge for sustainable biomass utilization. To address this challenge, a novel m...
Advanced Glycerol Oxidation to Formic Acid in a Multiphasic Jet Loop Reactor Using Polyoxometalate Catalysts [0.03%]
多相喷射环流反应器中过氧化物催化剂催化甘油氧化制甲酸研究
Ira Christina Wirth,Daniel Niehaus,Dorothea Voß et al.
Ira Christina Wirth et al.
Glycerol is a common byproduct of commercial biodiesel production and can be used for the production of green platform chemicals such as biogenic formic acid (FA). Biogenic FA is industrially produced via selective catalytic oxidation in th...
Benchmarking Machine Learning Algorithms for Microbial Electromethanogenesis: A Comprehensive Assessment with SHapley Additive exPlanation-Based Insights [0.03%]
基于SHapley Additive exPlanation的微生物电甲烷生成机器学习算法基准测试及全面评估研究
Siddharth Gadkari,Raphael Souza de Oliveira,Silvia Bolognesi et al.
Siddharth Gadkari et al.
Microbial electromethanogenesis (EM) presents a promising pathway for sustainable biogas upgrading, but accurately predicting its performance is challenging due to complex, nonlinear process dynamics. Here, we systematically compared seven ...
Correction to "Acid-Free Electrochemical Regeneration of Sandrose-like Aluminum Layered Double Hydroxide Electrodes for Selective Lithium-Ion Recovery in Mixed Ion Solution" [0.03%]
关于“用于混合离子溶液中选择性回收锂离子的玫瑰花状铝层状双氢氧化物电极的无酸电化学再生”的更正通知
Cansu Kök,Pablo Vega Hernández,Jean G A Ruthes et al.
Cansu Kök et al.
[This corrects the article DOI: 10.1021/acssuschemeng.5c08261.]. © 2025 The Authors. Published by American Chemical Society.