Halogen Bonding in Dithiane/Iodofluorobenzene Mixtures: A New Class of Hydrophobic Deep Eutectic Solvents

Peloquin, Andrew J.; McCollum, Jena; McMillen, Colin D.; Pennington, William T.

doi:10.1002/ange.202110520

Cited by 8 publications

(5 citation statements)

References 40 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…The definition introduced above has several advantages. It restricts DESs to a subclass of eutectic mixtures, forcing these mixtures to at least have negative deviations from thermodynamic ideality due to favorable enthalpic interactions between the two precursors that result from the sharing of a proton through some sort of hydrogen bond or any other type of strong interaction [e.g., halogen bonds (15)]. This precludes the systems in which the acidity difference between the Lewis or Brønsted acids and bases is so strong that proton transfer does take place, or mixtures whose nonideality is driven by entropic factors [e.g., mixtures with polymers where the nonideality is dominated by the combinatorial part of the excess Gibbs free energy as described by a Flory-Huggins type of contribution (16)].…”

Section: What's In a Name?mentioning

confidence: 99%

Everything You Wanted to Know about Deep Eutectic Solvents but Were Afraid to Be Told

Abranches

Coutinho

2023

Annu. Rev. Chem. Biomol. Eng.

110

View full text Add to dashboard Cite

Are deep eutectic solvents (DESs) a promising alternative to conventional solvents? Perhaps, but their development is hindered by a plethora of misconceptions. These are carefully analyzed here, beginning with the very meaning of DESs, which has strayed far beyond its original scope of eutectic mixtures of Lewis or Brønsted acids and bases. Instead, a definition that is grounded on thermodynamic principles and distinguishes between eutectic and deep eutectic is encouraged, and the types of precursors that can be used to prepare DESs are reviewed. Landmark works surrounding the sustainability, stability, toxicity, and biodegradability of these solvents are also discussed, revealing piling evidence that numerous DESs reported thus far, particularly those that are choline based, lack sufficient sustainability-related traits to be considered green solvents. Finally, emerging DES applications are reviewed, emphasizing their most remarkable feature: the ability to liquefy a solid compound with a target property, allowing its use as a liquid solvent. Expected final online publication date for the Annual Review of Chemical and Biomolecular Engineering, Volume 14 is June 2023. Please see http://www.annualreviews.org/page/journal/pubdates for revised estimates.

show abstract

Section: What's In a Name?mentioning

confidence: 99%

Everything You Wanted to Know about Deep Eutectic Solvents but Were Afraid to Be Told

Abranches

Coutinho

2023

Annu. Rev. Chem. Biomol. Eng.

110

View full text Add to dashboard Cite

show abstract

“…As a new type of green solvent, deep eutectic solvents (DESs) have gained wide attention in recent years in the fields of metal processing, gas adsorption, catalysts, lithium-ion batteries, and synthesis of functional materials. − DESs consist of hydrogen bond donors and hydrogen bond acceptors, and hydrogen bonding between the components can lead to a significant reduction in the melting point of their mixtures, resulting in a clear, homogeneous liquid state at room temperature. − However, most of the reported types are hydrophilic, and their overall performance is susceptible to changes in moisture content or humidity. Hydrophobic DESs (HDESs) were first proposed in 2015 .…”

Section: Introductionmentioning

confidence: 99%

High-Performance Flexible Ionically Conductive Superhydrophobic Papers via Deep Eutectic Polymer-Enhanced Interfacial Interactions

Xu,

Cao,

2024

Langmuir

View full text Add to dashboard Cite

Endowing paper with highly flexible, conductive, and superhydrophobic properties will effectively expand its applications in fields such as green packaging, smart sensing, and paper-based electronics. Herein, a multifunctional superhydrophobic paper is reported in which a highly flexible transparent conductive substrate is prepared by introducing a hydrophobic deep eutectic polymer into the ethylcellulose network via a matrix swelling-polymerization strategy, and then the substrate is modified using fluorinated silica to impart superhydrophobicity. By introducing soft deep eutectic polymers, (1) the superhydrophobic paper can efficiently dissipate energy during deformation, (2) intrinsically ion-conducting deep eutectic polymers can endow the material with good electrical sensing properties, and (3) meanwhile, enhanced interfacial interactions can anchor inorganic particles, thereby improving the coating stability. The prepared superhydrophobic paper has an ultrahigh water contact angle (contact angle ≈ 162.2°) and exhibits a stable electrical response signal to external deformation/pressure, and the electrical properties are almost unaffected by external water molecules. In addition, the superhydrophobic paper was able to withstand 5000 bending−recovery cycles at a large angle of 150°, exhibiting stable electrical performance. The design concepts demonstrated here will provide insights into the development of superhydrophobic paper-based flexible electronic devices.

show abstract

“…The interactions occurring between the HBD and the HBA as well as between the same HBA-HBA and HBD-BHD lead to an impossible regular crystal lattice formation, therefore to liquid systems starting from high melting point components [13][14][15][16]. Also, other weak forces, such as halogen bonds or electrostatic interactions can occur in these liquids where the entropy and the inhomogeneity of the structures lead to liquids at the proper molar ratio, indicated as eutectic point [17][18][19]. The molecules that are reported in literature as capable for DESs formation are mainly carboxylic acids, polyols, alcohols, and so on as HBD, while ammonium or phosphonium salts, zwitterionic inner salts or neutral molecules such as acetamide as well as inorganic salts (also hydrates) are reported to be efficacious HBAs in the DESs formation [11,[20][21][22][23].…”

Section: Introductionmentioning

confidence: 99%

aquo-DESs: WATER-BASED BINARY NATURAL DEEP EUTECTIC SOLVENTS

Picciolini

Pastore

Giacco

et al. 2023

Preprint

View full text Add to dashboard Cite

Deep Eutectic Solvents (DESs) are a class of solvents that are increasing their relevance in the research activity thanks to their environmental-friendly features as well as to their structural characteristics and catalytic properties. Formed by no-solvent mixing of two substances, namely a hydrogen bond donor and a hydrogen bond acceptor, DESs are finding fruitful applications in many different topics as alternatives to common organic compounds. In this work the realization, the characterization and the solubility applications of a novel water- based class of DESs are proposed. These innovative liquids, called aquo-DESs, are binary mixtures of water with glycolic acid (GA) and with trimethylglycine (TMG): GA/H2O (1/4 molar ratio) and TMG/H2O (1/5 molar ratio). The DES identity of these mixtures was demonstrated by: shifts both in terms of the molar fraction and of the melting points in the experimental melting point curves from the theoretical ones; amounts of components over their reported maximum solubility in water; thermogravimetric profiles compared to the pure substances. The aquo-DESs were characterized in their viscosity and ionic conductivity in the temperature range 20-55 C, showing really low viscosity and low ionic conductivity, with a peculiar behavior of the ionic conductivity of GA/H2O DES. The solubilizing properties of aminoacids, phenols and carboxylic acids showed peculiar really high values whenever the solute can participate to the DES as DES component itself.

show abstract

Halogen Bonding in Dithiane/Iodofluorobenzene Mixtures: A New Class of Hydrophobic Deep Eutectic Solvents

Cited by 8 publications

References 40 publications

Everything You Wanted to Know about Deep Eutectic Solvents but Were Afraid to Be Told

Everything You Wanted to Know about Deep Eutectic Solvents but Were Afraid to Be Told

High-Performance Flexible Ionically Conductive Superhydrophobic Papers via Deep Eutectic Polymer-Enhanced Interfacial Interactions

aquo-DESs: WATER-BASED BINARY NATURAL DEEP EUTECTIC SOLVENTS

Contact Info

Product

Resources

About