scholarly journals Group contribution and atomic contribution models for the prediction of various physical properties of deep eutectic solvents

2021 ◽  
Vol 11 (1) ◽  
Author(s):  
Reza Haghbakhsh ◽  
Sona Raeissi ◽  
Ana Rita C. Duarte
Keyword(s):  
Deep Eutectic Solvents ◽  
Heat Capacities ◽  
Green Technology ◽  
Group Contribution ◽  
Refractive Indices ◽  
Green Solvents ◽  
Surface Tensions ◽  
Vast Number ◽  
Speeds Of Sound ◽  
Atomic Contribution

AbstractThe urgency of advancing green chemistry from labs and computers into the industries is well-known. The Deep Eutectic Solvents (DESs) are a promising category of novel green solvents which simultaneously have the best advantages of liquids and solids. Furthermore, they can be designed or engineered to have the characteristics desired for a given application. However, since they are rather new, there are no general models available to predict the properties of DESs without requiring other properties as input. This is particularly a setback when screening is required for feasibility studies, since a vast number of DESs are envisioned. For the first time, this study presents five group contribution (GC) and five atomic contribution (AC) models for densities, refractive indices, heat capacities, speeds of sound, and surface tensions of DESs. The models, developed using the most up-to-date databank of various types of DESs, simply decompose the molecular structure into a number of predefined groups or atoms. The resulting AARD% of densities, refractive indices, heat capacities, speeds of sound and surface tensions were, respectively, 1.44, 0.37, 3.26, 1.62, and 7.59% for the GC models, and 2.49, 1.03, 9.93, 4.52 and 7.80% for the AC models. Perhaps, even more importantly for designer solvents, is the predictive capability of the models, which was also shown to be highly reliable. Accordingly, very simple, yet highly accurate models are provided that are global for DESs and needless of any physical property information, making them useful predictive tools for a category of green solvents, which is only starting to show its potentials in green technology.

scholarly journals A Global Model for the Estimation of Speeds of Sound in Deep Eutectic Solvents

Molecules ◽  
2020 ◽  
Vol 25 (7) ◽  
pp. 1626
Author(s):  
Hamed Peyrovedin ◽  
Reza Haghbakhsh ◽  
Ana Rita C. Duarte ◽  
Sona Raeissi
Keyword(s):  
Experimental Data ◽  
Thermodynamic Properties ◽  
Speed Of Sound ◽  
Deep Eutectic Solvents ◽  
Green Solvents ◽  
Speeds Of Sound ◽  
Molar Ratios ◽  
Lack Of Information ◽  
Proposed Model ◽  
Group Contribution Methods

Deep eutectic solvents (DESs) are newly introduced green solvents that have attracted much attention regarding fundamentals and applications. Of the problems along the way of replacing a common solvent by a DES, is the lack of information on the thermophysical properties of DESs. This is even more accentuated by considering the dramatically growing number of DESs, being made by the combination of vast numbers of the constituting substances, and at their various molar ratios. The speed of sound is among the properties that can be used to estimate other important thermodynamic properties. In this work, a global and accurate model is proposed and used to estimate the speed of sound in 39 different DESs. This is the first general speed of sound model for DESs. The model does not require any thermodynamic properties other than the critical properties of the DESs, which are themselves calculated by group contribution methods, and in doing so, make the proposed method entirely independent of any experimental data as input. The results indicated that the average absolute relative deviation percentages (AARD%) of this model for 420 experimental data is only 5.4%. Accordingly, based on the achieved results, the proposed model can be used to predict the speeds of sound of DESs.

Strategies for metal colloidal nancrystal synthesis in sustainable media

2019 ◽  
Author(s):  
◽  
Nakara Bhawawet
Keyword(s):  
Deep Eutectic Solvents ◽  
Chemical Processes ◽  
Green Solvents ◽  
University Of Missouri ◽  
Synthetic Strategy ◽  
Metal Colloid ◽  
Gold Precursor ◽  
Nanocrystal Synthesis ◽  
Sustainable Media ◽  
Colloid Synthesis

[ACCESS RESTRICTED TO THE UNIVERSITY OF MISSOURI AT REQUEST OF AUTHOR.] Over the past decades, the Green Chemistry and Sustainability concept has aroused researchers to denounce their traditional ways of thinking regarding chemical processes to address the challenges relevant to global environmental concerns. The concept has demonstrated how fundamental scientific methodologies can protect human health and the environment in an economically beneficial manner. In academia and industry, the use of green solvents, such as water, supercritical fluids, ionic liquids (ILs) and deep eutectic solvents (DESs), has then become desirable in chemical processes. In the field of green nanochemistry, ILs and DESs have acquired courtesy as sustainable media for nanomaterials synthesis. There have been attempts to employ such eco-friendly fluids to synthesize, and additionally, control size and shapes of nanomaterials, where the field has been gaining intense interests as the morphology dictates the properties and functionalities of such nanomaterials. This dissertation reports strategies for metal colloidal nanocrystal synthesis in sustainable media and aims to build a foundation for understanding how to tailor eco-friendly IL and DES fluids to control the growth of metal nanocrystals. Chapter 1 explores research reporting strategies used for metal colloid synthesis in ILs and DESs. In Chapter 2, we have developed a strategy to replace a common organic solvent with an IL to prepare monodisperse gold nanoparticles (AuNPs) by a very fast microwave method. The pyrrolidinium IL used in the work demonstrates its capability to be efficiently recovered and reused for carrying out nanoscale synthesis iteratively. The work highlights the incompatibility of imidazolium ILs for the select nanoscale synthetic strategy. For Chapter 3, we have demonstrated a control over nanoparticle size and shape generated at an aqueous-organic interface. We have shown that an interfacial photoreduction leads to the production of spherical and wire-like nanostructures, respectively, when the IL employed involves a coordinated and non-coordinated IL anion, respectively. Next, Chapter 4 has focused on exploitation of a purposefully designed IL-inspired surfactant, acting dually as a reducing and stabilizing agent, for facile and controllable AuNP formation. The reported synthetic method is simple and rapid, using only a gold precursor and the surfactant. Coinage AuNPs can be obtained very fast, while predominantly triangular-shaped AuNPs can also be achieved by tuning parameters, such as the ratio of surfactant to the gold precursor, temperature, implementing a time delay before heating, and an addition of a directing agent. Finally, Chapter 5 outlines zwitterionic deep eutectic solvents (ZDESs) as novel media for metal nanocrystal synthesis, to expand portfolio of available DESs as the field is relatively new compared to that of IL.

scholarly journals Green aqueous biphasic systems containing deep eutectic solvents and sodium salts for the extraction of protein

RSC Advances ◽  
2017 ◽  
Vol 7 (78) ◽  
pp. 49361-49367 ◽  
Author(s):  
Jingyu Pang ◽  
Xiaofang Sha ◽  
Yanhong Chao ◽  
Guangying Chen ◽  
Changri Han ◽  
...  
Keyword(s):  
Deep Eutectic Solvents ◽  
Green Solvents ◽  
Sodium Salts ◽  
Aqueous Biphasic Systems ◽  
New Type ◽  
Aqueous Biphasic ◽  
Biphasic Systems

Deep eutectic solvents (DESs), a new type of green solvents, were applied for the extraction of proteins with aqueous biphasic systems (ABSs) in this study.

Prediction of Excess Volumes and Excess Surface Tensions from Experimental Refractive Indices

2000 ◽  
Vol 38 (2) ◽  
pp. 251-260 ◽  
Author(s):  
Ángel Piñeiro ◽  
Pilar Brocos ◽  
Alfredo Amigo ◽  
Mercedes Pintos ◽  
Ramón Bravo
Keyword(s):  
Excess Volumes ◽  
Refractive Indices ◽  
Surface Tensions ◽  
Excess Surface

scholarly journals Investigation of Base-free Copper-Catalysed Azide–Alkyne Click Cycloadditions (CuAAc) in Natural Deep Eutectic Solvents as Green and Catalytic Reaction Media

2021 ◽  
Author(s):  
Salvatore V. Giofrè ◽  
Matteo Tiecco ◽  
Angelo Ferlazzo ◽  
Roberto Romeo ◽  
Gianluca Ciancaleoni ◽  
...  
Keyword(s):  
Low Temperatures ◽  
Materials Science ◽  
Cycloaddition Reaction ◽  
Deep Eutectic Solvents ◽  
Green Solvents ◽  
Experimental Conditions ◽  
Active Reaction ◽  
Natural Deep Eutectic Solvents ◽  
Catalytic Intermediates ◽  
Reaction Media

<p>The click cycloaddition reaction of azides and alkynes affording 1,2,3-triazoles is a widely used and effective chemical transformation, applied to obtain relevant products in medicine, biology and materials science. In this work, a set of Natural Deep Eutectic Solvents (NADESs) as green and “active” reaction media, has been investigated in the copper-catalysed azide–alkyne cycloaddition reactions (CuAAc). The use of these innovative solvents has shown to improve the reaction effectiveness, giving excellent yields. NADESs proved to be “active” in these transformations for the absence of added bases in all the performed reactions and in several cases, for their reducing capabilities. The reactions outcomes were rationalized by DFT calculations which demonstrated the involvement of H-bonds between DESs and alkynes as well as a stabilization of copper catalytic intermediates. The green experimental conditions, namely the absence of a base, the low temperatures, the lowering of reagents and the possibility of recycling of the green solvents, outline the great potential of NADESs for CuAAc and in general, for green organic synthesis. </p>

Deep eutectic–water binary solvent associations investigated by vibrational spectroscopy and chemometrics

2018 ◽  
Vol 20 (27) ◽  
pp. 18463-18473 ◽  
Author(s):  
R. Ahmadi ◽  
B. Hemmateenejad ◽  
A. Safavi ◽  
Z. Shojaeifard ◽  
A. Shahsavar ◽  
...  
Keyword(s):  
Vibrational Spectroscopy ◽  
Deep Eutectic Solvents ◽  
Binary Solvent ◽  
Green Solvents

Investigation of the behaviour of deep eutectic solvents as novel green solvents in the presence of other solvents is of great interest.

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