Publicação
Deep eutectic systems
| Resumo: | Natural deep eutectic systems (NADES) which have gained increasing scientific interest and the attention of the scientific community is beginning to be directed towards understanding the characteristics of these liquids that make them extremely particular. NADES are essentially formed through hydrogen bond interactions, between a hydrogen-bond donor compound and a hydrogen bond acceptor compound. The arrangements of different molecules that can constitute different NADES are estimated to be around 106 possible combinations (in the case of only binary mixtures). This article aims to present NADES and their applications, as well as describe their main characteristics in terms of their physicochemical properties. In addition, new developments in relation to the state of the art on the exploitation of their properties as solvents in applications such as extraction, (bio)catalysis and synthesis of pharmaceuticals, agrochemicals, functional materials or other high-added value substances with be discussed. Advances in different research areas have been notable in the last 10 years, boosting fundamental and basic research on NADES. |
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| Autores principais: | Duarte, Ana Rita C. |
| Outros Autores: | Burke, Anthony |
| Assunto: | Active Pharmaceutical Ingredient (API) synthesis Alternative solvents Artificial Intelligence (AI) Catalysis Environmentally friendly Green Chemistry Natural Deep Eutectic Solvents (NADES) General Chemistry |
| Ano: | 2025 |
| País: | Portugal |
| Tipo de documento: | artigo |
| Tipo de acesso: | acesso embargado |
| Instituição associada: | Universidade Nova de Lisboa |
| Idioma: | inglês |
| Origem: | Repositório Institucional da UNL |
| Resumo: | Natural deep eutectic systems (NADES) which have gained increasing scientific interest and the attention of the scientific community is beginning to be directed towards understanding the characteristics of these liquids that make them extremely particular. NADES are essentially formed through hydrogen bond interactions, between a hydrogen-bond donor compound and a hydrogen bond acceptor compound. The arrangements of different molecules that can constitute different NADES are estimated to be around 106 possible combinations (in the case of only binary mixtures). This article aims to present NADES and their applications, as well as describe their main characteristics in terms of their physicochemical properties. In addition, new developments in relation to the state of the art on the exploitation of their properties as solvents in applications such as extraction, (bio)catalysis and synthesis of pharmaceuticals, agrochemicals, functional materials or other high-added value substances with be discussed. Advances in different research areas have been notable in the last 10 years, boosting fundamental and basic research on NADES. |
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