Hybrid Deep Eutectic Solvents with Flexible Hydrogen‐Bonded Supramolecular Networks for Highly Efficient Uptake of NH₃

Citations Over TimeTop 10% of 2017 papers

Abstract

Serious environmental concerns have led to a great demand for efficient uptake of NH₃ by solvents. However, traditional aqueous absorbents have many shortcomings and efforts to use ionic liquids have met with limited success. A hybrid deep eutectic solvents (DESs) designed with a flexible hydrogen-bonded supramolecular network exhibits both exceptional NH₃ uptake capacity and superior desorption-regeneration performance, along with superb NH₃ /CO₂ selectivity and environmental merit. Elucidated by molecular dynamic simulations and spectroscopic analysis, the abundant hydrogen-bonding sites in the hybrid DESs bind every atom of the NH₃ molecule and enable strong physical reversible solvation, whereas the multiple interactions among the hybrid components create a flexible hydrogen-bonded supramolecular network and allow for solvent-unbreaking absorption to ensure the full participation of the solvent and process stability. A mass solubility of NH₃ up to 0.13 g g-1 was achieved at 313 K and 101 kPa by the hybrid DES choline chloride/resorcinol/glycerol (1:3:5), which is higher than all reported ionic liquids and ordinary DESs. Moreover, the performance remained the same after ten absorption-desorption cycles and the DESs could be easily regenerated.

Related Papers

• → Eutectic formation in the Ni-Al system(1994)53 cited
• TEMPERATURE RANGE OF EUTECTIC MIXTURE FORMATION FOR KCl–KCl-K_2SO_4-Na_2SO_4 SYSTEM(2006)
• → Behaviors of Eutectic Crystals below Their Eutectic Points(1968)3 cited
• → Equilibrium and Metastable Eutectics Near the Ni<sub>3</sub>Al Composition(2005)
• → Phase transitions in eutectics-eutectics systems with chemical interaction of components in the presence of electrotransfer(2010)