胆碱类低共熔溶剂的物性及应用

作为一种新型的离子液体,胆碱类低共熔溶剂具有相比于其他离子液体更为突出的特点,如低毒、生物可降解、价格低廉等,这些特点使得此类离子液体在绿色化学和工程化学中受到越来越多的关注。本文分析了胆碱类低共熔溶剂的凝固点、熔点、溶解度、黏度、表面张力、电导率等物性随温度、组成、水分等因素的变化及理论预测模型,并介绍了胆碱类低共熔溶剂在润滑、功能材料制备、电化学、有机合成及生物质催化转化等方面的潜在应用。最后就胆碱类低共熔溶剂研究及应用中存在的问题及难点对其前景做出展望。     

低共熔溶剂在绿色有机合成中的应用

自1991年"绿色化学"的概念被提出以来,溶剂的绿色化一直备受关注.在过去的二十年时间里,离子液体得到长足发展,但是随着研究的不断深入,离子液体的部分弊端也慢慢浮现.在最近几年兴起了一种新型的低熔点混合物溶剂——低共熔溶剂.与传统离子液体相比,低共熔溶剂制备简单、价格便宜、均具有生物可降解性,因此被用来作为一种新型绿色溶剂.近年来,低共熔溶剂在绿色有机合成中的应用受到了越来越多的应用.本文重点从低共熔溶剂在环化反应、取代反应、加成反应、多组分反应以及酶催化反应等方面的应用讨论近几年来低共熔溶剂的研究进展,并对其发展趋势进行展望.     

低共熔溶剂及其在抗静电领域中应用的研究进展

随着科技的发展进步，环境友好型的绿色化学逐渐成为时代主流，低毒无毒、可回收循环和可生物降解的材料已成为现在研究的中心。离子液体是一类全部由离子组成的液体，无味、不可燃、蒸汽压极低以及可操作温度范围宽，具有良好的热稳定性和化学稳定性，易与其它物质分离，可循环利用，是一类绿色溶剂。低共熔溶剂是一大类与离子液体有许多相似物性的低共熔混合物，在室温下多呈液态。相对于离子液体，低共熔溶剂所需成本更低，制备方式简单，具有更好的耐湿性，这使得其在工业上更具前景。作为一个新兴的研究领域，低共熔溶剂已受到化学领域相关人员的广泛关注与研究，但用于能源和环境应用功能材料的低共熔溶剂的研究尚处于探索的早期阶段。低共熔溶剂除了被广泛用作合成材料时使用的惰性介质和反应试剂外，还可直接作为功能材料，如在电化学方面作为储能装置的电解质以及吸附萃取过程中的吸附剂等。因此对低共熔溶剂的基本原理以及其在材料化学领域，尤其是功能材料方面的应用进行了相关介绍，并对低共熔溶剂在抗静电领域可能的应用做出了分析与展望。     

低共熔溶剂在高分子合成中的应用

低共熔溶剂(DES)是由两种或多种物质按一定比例混合而成的低熔点混合溶剂,其熔点显著低于每一个单纯组分的熔点,可被视为一种新的离子液体。与传统有机溶剂相比,DES具有来源广泛、成本低廉、易于制备、毒性低、生物可降解等优点,并已作为一种新型的绿色反应介质被广泛用于萃取分离、无机合成、有机合成和离子凝胶等领域。近年来,DES在高分子合成中的应用也吸引了广泛的研究兴趣。本综述从简述DES及其在有机合成中的应用出发,重点介绍它们用于缩合聚合、自由基聚合、阴离子聚合、电化学聚合、开环聚合和氧化聚合等高分子合成领域的研究进展,并对其发展趋势进行展望。     

低共熔溶剂在萃取分离中的应用

随着绿色化学的不断发展,如何在分析过程中应用和体现绿色化学特点,避免分析过程对环境产生二次污染及对人员造成危害也得到了关注。开发和使用具有绿色化学特点的溶剂和方法是分析工作者努力的方向之一。在已经出现的新溶剂中,低共熔溶剂(DES)与离子液体(ILs)物理性质相似,并具有环境友好、不可燃、生物降解、价廉、易制备等特点,因而近几年来获得了迅速发展。该文总结了低共熔溶剂的制备、性质及分类,综述了近年来其在萃取和分离中的应用进展。     

低共熔溶剂：一种应用在混合物分离过程中的绿色溶剂

低共熔溶剂(DESs)因具有合成容易、价格低廉、环境友好、挥发性低、溶解能力强、可生物降解、结构可设计等特点,被认为是一种绿色溶剂。近年来,研究者通过深入研究低共熔溶剂的性质,结合低共熔溶剂的特点,将其替代传统的有机溶剂,在混合物分离过程中开展了大量的研究工作,包括：酸性气体(如CO₂、CO₂和H₂S)吸收、生物活性物质萃取、燃料油品中含硫和含氮化合物的脱除、油酚混合物分离、芳烃和脂肪烃混合物的分离、醇水混合物分离、生物柴油合成过程中甘油的脱除等。本文分析了低共熔溶剂的结构、性质和特点,综述了低共熔溶剂在分离领域的最新研究成果,探讨了低共熔溶剂在混合物分离应用中存在的问题,展望了低共熔溶剂的发展趋势。     

低共熔溶剂:一种应用在混合物分离过程中的绿色溶剂（英文）

低共熔溶剂(DESs)因具有合成容易、价格低廉、环境友好、挥发性低、溶解能力强、可生物降解、结构可设计等特点,被认为是一种绿色溶剂。近年来,研究者通过深入研究低共熔溶剂的性质,结合低共熔溶剂的特点,将其替代传统的有机溶剂,在混合物分离过程中开展了大量的研究工作,包括:酸性气体(如CO_2、CO_2和H_2S)吸收、生物活性物质萃取、燃料油品中含硫和含氮化合物的脱除、油酚混合物分离、芳烃和脂肪烃混合物的分离、醇水混合物分离、生物柴油合成过程中甘油的脱除等。本文分析了低共熔溶剂的结构、性质和特点,综述了低共熔溶剂在分离领域的最新研究成果,探讨了低共熔溶剂在混合物分离应用中存在的问题,展望了低共熔溶剂的发展趋势。     

低共熔溶剂及其应用研究进展

作为一类新型的绿色溶剂,低共熔溶剂具有蒸汽压低、无毒性、可生物降解、溶解性和导电性优良、电化学稳定窗口宽等独特的物理化学性质,并且可以通过选择合适的组成和配比来调节其性能,在很多领域中有着诱人的应用前景.本文从低共熔溶剂的组成、性质及其应用等3个方面综述了近年来低共熔溶剂的研究进展,并对目前研究中存在的问题进行了讨论.     

疏水性低共熔溶剂及其在含水体系萃取分离中的应用

低共熔溶剂是一类新型的绿色溶剂,但目前文献报道的低共熔溶剂大多是亲水性的.它们在水中不稳定,很难在含水体系中得到应用.为了解决这一问题,近年来疏水性低共熔溶剂受到特别的关注.本文在介绍低共熔溶剂基本概念的基础上,以含水体系中短链脂肪胺、低碳醇、双酚A、杀虫剂、重金属和稀有金属的萃取/分离为例,综述了近年来疏水性低共熔溶剂在液-液萃取、液相微萃取等分离方面的研究进展,分析了进一步的发展趋势,提出了目前尚待解决的主要问题.     

深共熔溶剂在有机反应中的应用

深共熔溶剂(DES)作为一种低共熔混合物,由于具有廉价易得、蒸汽压低、无毒性、不易燃、可生物降解、可调控以及易循环使用等优点,逐渐成为一种新型的绿色溶剂或催化剂。本文介绍了DES的组成、分类,重点综述了DES作为溶剂或催化剂应用于常见的加成、取代、偶联、缩合、环化、酯化、多组分及解聚等有机反应。最后展望了DES在有机反应中的发展前景。     

Development of deep eutectic solvents applied in extraction and separation

Deep eutectic solvents, as an alternative to ionic liquids, have greener credentials than ionic liquids, and have attracted considerable attention in related chemical research. Deep eutectic solvents have attracted increasing attention in chemistry for the extraction and separation of various target compounds from natural products. This review highlights the preparation of deep eutectic solvents, unique properties of deep eutectic solvents, and synthesis of deep‐eutectic‐solvent‐based materials. On the other hand, application in the extraction and separation of deep eutectic solvents is also included in this report. In this paper, the available data and references in this field are reviewed to summarize the applications and developments of deep eutectic solvents. Based on the development of deep eutectic solvents, an exploitation of new deep eutectic solvents and deep eutectic solvents‐based materials is expected to diversify into extraction and separation.     

Strong Microheterogeneity in Novel Deep Eutectic Solvents

With the increasing application of template assisted syntheses in deep eutectic solvents and successful application of hydrophobic deep eutectic solvents in extraction processes, where microheterogeneity plays a major role, suggestions for novel deep eutectic solvents which exhibit strong microheterogeneity are desirable. Therefore, classical molecular dynamics simulations were carried out on deep eutectic solvent systems constructed of choline chloride and some of its derivatives mixed with ethylene glycol in a molar composition of 1 : 2 since this is the optimal parent composition. The derivatives consisted of a series of elongated alkyl side chains and elongated alcohol side chains. Of these series only choline chloride ethylene glycol has been investigated experimentally, the other systems are suggested and theoretically investigated as possible target for synthesis. Our domain analysis supported by the clear distinction of polar and nonpolar parts from the electrostatic potentials reveals that strong microheterogeneity within these novel hypothetical deep eutectic solvents exists. Rather stretched than crumbled side chains maximize possible interaction sites for both polar and nonpolar parts which make the suggested compounds valuable objectives for experiments in order to exploit the microheterogeneity in deep eutectic solvents.     

A mini review on synthesis,properties and applications of deep eutectic solvents

Organic solvents have been of great importance for many chemical synthesis, storage and separation processes. The industries and research laboratories are heavily dependent on organic solvents in bulk; are highly volatile, lipophilic, toxic and causes a number of issues to the human health and the environmental fitness. Neoteric solvents have been proposed as a better substitute to these harmful organic solvents, and scientists have come up with several neoteric solvents in the last three decades, to name a few: ionic liquids (ILs), switchable solvents, bio-based solvents and deep eutectic solvents (DESs). These neoteric solvents attract a great deal of interest from the scientific community due to plenty of possibilities, therefore, they have huge impact and novel studies are reported quite frequently on the same. In this review, we intend to focus to brief on deep eutectic solvents, about their properties, synthesis, promising applications, and how they gradually emerged from ILs and later stood out as a different class of neoteric solvent, which overcomes many shortcomings of ILs. DESs are possibly receptive synthetic compounds and their relationship based on the hydrogen bond donor or acceptor restricts their reactivity and allow to explore in different disciplines of science.     

Advances of responsive deep eutectic solvents and application in extraction and separation of bioactive compounds

In recent years, it has been found that changing ambient conditions (CO₂/N₂, temperature, pH) can trigger a switchable phase transition of deep eutectic solvents, and such solvents are known as responsive deep eutectic solvents. In this work, we present the development history, properties, and preparation of responsive deep eutectic solvents, followed by the application of responsive deep eutectic solvents in the extraction and separation of bioactive compounds are presented. Importantly, the mechanism of responsive deep eutectic solvents in the extraction of bioactive compounds is discussed. Finally, the challenges and prospects of responsive deep eutectic solvents in the extraction and separation of bioactive compounds are proposed. Responsive deep eutectic solvents are considered green and efficient solvents. Some methods for extraction and separation of bioactive compounds by responsive deep eutectic solvents can increase the possibility of recycling the deep eutectic solvents, and provide higher efficiency in the extraction and separation field. It is hoped that this will provide a reference for the green and sustainable extraction and separation of various bioactive compounds.     

Application of deep eutectic solvents in the extraction and separation of target compounds from various samples

Deep eutectic solvents, as a new type of eco‐friendly solvent, have attracted increasing attention in chemistry for the extraction and separation of target compounds from various samples. To summarize the application of deep eutectic solvents, this review highlights some of the unique properties of deep eutectic solvents and deep‐eutectic‐solvent‐based materials, as well as their applications in extraction and separation. In this paper, the available data and references in this field are reviewed to summarize the application developments of deep eutectic solvents. Based on the development of deep eutectic solvents, the exploitation of new deep eutectic solvents and deep‐eutectic‐solvent‐based materials are expected to diversify into extraction and separation.     

Mechanochemical Suzuki-Miyaura Cross-Coupling with Natural Deep Eutectic Solvent as Liquid-Assisted Grinding Additive: Merging Two Fields for a Greener Strategy

The use of volatile solvents for organic synthesis is nowadays questioned due to their negative impact on the environnement. To develop sustainable and environmentally friendly methodologies, we propose to combine two green chemistry concepts: the use of bioinspired solvents: natural deep eutectic solvents (NaDES), and mechanochemistry. Using the Suzuki-Miyaura coupling as a model reaction, we described an efficient mechanochemical method with NaDES as a LAG (liquid-assisted grinding) additive with short reaction times and without any ligand or additional heating. A mechanochemical extraction was also used to reduce the amounts of extraction solvents and the total time of the synthesis process.     

Photochromic property of ternary transition metal oxide nanocomposite prepared with co-solvated deep eutectic mixtures

Research on Chemical Intermediates - The application of deep eutectic solvents (DES) in the synthesis of photochromic transition metal oxide (TMO)-based nanocomposites is gaining attention in...     

低共熔溶剂催化有机合成反应的研究进展

低共熔溶剂(DESs)是一种新型的离子液体(ILs)类似物,与传统有机溶剂、离子液体相比,DESs具有低毒、廉价、易于合成、生物可降解性等特点,因此在众多领域广受关注。近年来DESs在有机合成领域备受关注,被广泛用作合成反应的溶剂、催化剂、反应物等,在有机反应方面存在很大发展空间,本文综述了DESs在有机合成反应中的应用,重点讨论其在氧化还原反应、取代反应、缩合反应、环化反应等方面的研究进展,为其开发应用提供新思路。     

Natural deep eutectic solvents as new potential media for green technology

Developing new green solvents is one of the key subjects in Green Chemistry. Ionic liquids (ILs) and deep eutectic solvents, thus, have been paid great attention to replace current harsh organic solvents and have been applied to many chemical processing such as extraction and synthesis. However, current ionic liquids and deep eutectic solvents have still limitations to be applied to a real chemical industry due to toxicity against human and environment and high cost of ILs and solid state of most deep eutectic solvents at room temperature. Recently we discovered that many plant abundant primary metabolites changed their state from solid to liquid when they were mixed in proper ratio. This finding made us hypothesize that natural deep eutectic solvents (NADES) play a role as alternative media to water in living organisms and tested a wide range of natural products, which resulted in discovery of over 100 NADES from nature. In order to prove deep eutectic feature the interaction between the molecules was investigated by nuclear magnetic resonance spectroscopy. All the tested NADES show clear hydrogen bonding between components. As next step physical properties of NADES such as water activity, density, viscosity, polarity and thermal properties were measured as well as the effect of water on the physical properties. In the last stage the novel NADES were applied to the solubilization of wide range of biomolecules such as non-water soluble bioactive natural products, gluten, starch, and DNA. In most cases the solubility of the biomolecules evaluated in this study was greatly higher than water. Based on the results the novel NADES may be expected as potential green solvents at room temperature in diverse fields of chemistry.     

Potential use of deep eutectic solvents to facilitate lignocellulosic biomass utilization and conversion

High reliance on crude oil for energy consumption results in the urgent need to explore and develop alternative renewable sources. One of the most promising routes is the transformation of biomass into biofuels and chemicals. The introduction of deep eutectic solvents in 2004 received a considerable amount of attention across different research fields, particularly in biomass processing. The effectiveness of deep eutectic solvents in breaking down the recalcitrant structure in biomass highlights its impact on the transformation of biomass into various value-added products. In addition, deep eutectic solvents are widely regarded as promising “green” solvents due to their low cost, low toxicity, and biodegradable properties. In this paper, some background information on lignocellulosic biomass and deep eutectic solvents is given. Furthermore, the roles of deep eutectic solvents in biomass processing are discussed, focusing on the impacts of deep eutectic solvents on the selectivity of chemical processes and dissolution of biomass. This review also highlights the advantages and limitations of deep eutectic solvents associated with their usage in biomass valorization.