Omar Mohammad, Jude A. Onwudili and Qingchun Yuan
RSC Sustainability, 2023,1, 404-417
From themed collection:
RSC Sustainability Recent Review Articles
Abstract
The challenge is hydroxyaromatic carboxylic acids (HACAs) such as salicylic acids, hydroxynapthoic acids and their halogenated derivatives uses only about 41450 tonnes per year of CO2 which is just ≈0.00012% of the annual anthropogenic emissions.
Volker Hessel, Sampurna Mukherjee, Sutanuka Mitra, Arunava Goswami, Nam Nghiep Tran, Francesco Ferlin, Luigi Vaccaro, Fariba Malekpour Galogahi, Nam-Trung Nguyen and Marc Escribà-Gelonch
Green Chem., 2024,26, 9503-9528
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Green Chemistry 25th Anniversary Collection
Abstract
An overview of sustainability outcomes provided by flow chemistry is reviewed for a comprehensive understanding and a holistic perspective. Future trends and potential innovations are also forecast.
Laura Faba and Salvador Ordóñez
RSC Sustainability, 2024,2, 3167-3182
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REV articles from RSC Sustainability
Abstract
Carboxylation is a promising and versatile technology for producing industrially valuable products, being a potential process for future use of captured CO2. Enzymatic and thermochemical routes are the closest to being scaled up.
Keerti S. Kappagantula, Yuan Jiang, Francesca Pierobon, MD Reza E. Rabby, Jose Ramos, Yelin Ni, Aditya Nittala, Jaelynne King, Ethan Nickerson, Nicholas C. Nelson, Wontae Joo, Raveen John, John C. Linehan, Raul N. Aranzazu, Satish K. Nune and David J. Heldebrant
Green Chem., 2025,27, 2392-2403
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2025 Green Chemistry Covers
Abstract
Carboxylating lignin and lignite fillers to sequester CO2 in composite materials.
Yanlong Luo and Wenbin Huang
Org. Biomol. Chem., 2023,21, 8628-8641
Abstract
Carbon dioxide (CO2) is an available, abundant, and renewable C1 resource, which could be converted into value-added chemicals.