麻豆果冻传媒

South 麻豆果冻传媒 Ionic Liquids Laboratory (SAILL)

L-R: Matthew Reichert, Grant Glover (seated), James Davis, Kevin West in the laboratory.

 

What are Ionic Liquids?

Ionic liquids are salts in a liquid state, and they are frequently referred to as 鈥渟olvents of the future,鈥 or 鈥渄esigner solvents鈥 because of their potential to replace environmentally unfriendly liquids used to dissolve other substances.

SAILL, the South 麻豆果冻传媒 Ionic Liquids Laboratory,  is made up of faculty from the Chemical Engineering and Chemistry departments at the University of South 麻豆果冻传媒. The research cluster was formed in 2019 to carry out a two-year, $2.7 million EPSCoR award from the Department of Energy. The mission of SAIL is to become the preeminent center for ionic liquids research in the United States, focusing our research efforts on the design, synthesis and characterization of ionic liquids and the development and optimization of processes that utilize them. Through our research efforts, SAILL provides a framework that USA researchers and partner institutions can use to collaborate, exchange ideas, build research partnerships and leverage their talents to obtain the resources necessary to carry out world-class, cutting-edge research and development in the area of ionic liquids.

Current Research

  • Boronium Ionic Liquids - Impact of Structure on Chemistry, Electrochemical Stability, Ion Dynamics, and Charge Transport
    Funded by the National Science Foundation
    PI: James Davis

  • Stereolithography Printing of Components Incorporating Energetic Ionic Liquids
    Funded by the U.S. Army Research Office
    PI: W. Matthew Reichert

  • Understanding the Molecular-level Interactions Between Ionic Liquids and Molecular Species to Design and Develop Novel Solvent Systems for Environmental and Energy Applications
    Funded by the Department of Energy
    PI: Kevin West

  • Development of CO2-Capturing Ionic Liquid Solutions for Spacecraft Air Revitalization Systems
    Funded by the National Aeronautics and Space Administration
    PI: James Davis

Publications

Rabideau, B. D.; West, K. N.; Davis, J. H. Making good on a promise: ionic liquids with genuinely high degrees of thermal stability. Chem. Commun., 2018, 54, 5019-5031.

Press

Adjusting the Dance Tunes the Melt

South Awarded $3.8 Million for Ionic Liquid Research

Developing a Printer Worth Its Salt

Davis Enters Royal Society of Chemistry

USA Professor Discovers Natural Ionic Liquid; Finding Could Impact Development and Use of Synthetic Form

Boronium Ionic Liquids - Impact of Structure on Chemistry, Electrochemical Stability, Ion Dynamics, and Charge Transport

PI JAMES DAVIS

This project involves the preparation and characterization of new Ionic liquids - salts in a liquid form - that are expected to have a high degree of stability towards electrical currents. As such, the new materials may find application as battery electrolytes superior in performance and safety to materials currently in use. The project is a collaborative effort with the US Naval Academy. USA will be responsible for the synthesis and routine characterization of the new materials, while the USNA will carry out all electrochemical facets of the work.

Energetics On-Demand: Stereolithography Printing of Components Incorporating Energetic Ionic Liquids

PI MATTHEW REICHERT

Work has focused on the creation of new energetic ionic liquid (EIL) monomers and plasticizers and their incorporation into SLA resins, ultimately culminating in the printing of 100% energetic polymer components. Synthesis of the base EILs used current literature methods for the nitration and amination steps, with 鈥渄etours鈥 along the synthetic path to introduce the alkenyl groups for free radical polymerization. Candidate EIL monomers, polymers, and plasticizers will be screened based on mechanical, thermal, and energetic properties. The former determined the drop hammer test for shock sensitivity and thermal degradation temperature found by thermogravimetric analysis (TGA). At the same time, the latter will include heat evolution using differential scanning calorimetry (DSC). In addition, ionic liquids (ILs) will be synthesized to enable the take-up of energetic simulants into the methacrylate resins. Options exercised in Years 3 and 4 will allow for the incorporation of the EILs into hybrid rocket fuel grains and hypergolic starter systems for static test firing.

Understanding the Molecular-level Interactions Between Ionic Liquids and Molecular Species to Design and Develop Novel Solvent Systems for Environmental and Energy Applications

PI KEVIN WEST

Mixtures of ILs with liquid molecular solutes have been an active study area both experimentally and computationally. The solvation environment provided by ILs is unique for several reasons, chief among them the commonly observed long-range order that creates nano-structured domains in many ILs. This long-range order affects both the properties of pure ionic compounds and the molecular-level restructuring that accommodates dissolved species. Such an environment is quite distinct from molten inorganic salts, nonpolar organic solvents, and even associating polar organics. A detailed understanding of key molecular-level interactions between ionic and molecular species in these mixtures and how these interactions affect the solvent properties will enable the rational design of ILs and their mixtures for more energy-efficient chemical reactions and separations.

Press Release

Research Highlight from the Department of Energy

Development of CO2-Capturing Ionic Liquid Solutions for Spacecraft Air Revitalization Systems

PI JAMES DAVIS

A promising area of research is the removal of CO2 from post-combustion flue gas streams, such as those from coal and natural gas-powered electrical generation plants. Although the goal in this application is also the removal of CO2 from ambient/near ambient pressure gas streams, the system temperature is somewhat higher, and the partial pressure of CO2 is much higher than for air revitalization. However, the same technology, non-volatile aqueous amines, may present a solution for both challenges. The PIs have worked with industrial partners to develop concentrated aqueous solutions of non-volatile (ionic) amines, promising viable post-combustion CO2 capture agents. From this work, three joint process patents focused on CO2-capture efficiency and minimizing regeneration energy requirements have been issued in addition to the composition of matter patents already owned by South 麻豆果冻传媒. While the previous work focused on optimizing the solutions for the industrial setting at higher temperatures and higher CO2 partial pressure, the work described below focuses on developing and evaluating these systems for closed environment air revitalization. Furthermore, as these are aqueous systems, they are inherently compatible with humid air. As hygroscopic salts, the potential exists for them to be used as part of an overall humidity control system.

Press Release

Researchers

James Davis
 
James Davis
Research Director
Chemistry

An internationally renowned expert on ionic liquids, Dr. Davis was named Fellow of the Royal Society of Chemistry in 2018.
 
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Edward Duranty
 
Eddy Duranty
Chemistry

Dr. Duranty is working on a new calorimetric technique for samples isolated within an acoustic field. 
 
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Grant Glover
 
Thomas Glover
Chemical Engineering

Dr. Glover's research focuses on gas separations, multicomponent adsorption, gas diffusion, and ionic liquids.
 
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Richard O'Brien
 
Richard O'Brien
Chemistry

Dr. O'Brien researches the development of novel classes of ionic liquids utilizing the thiol-ene photochemical reactions.
 
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Brooks Rabideau
 
Brooks Rabideau
Chemical Engineering

Dr. Rabideau uses molecular simulations to provide a detailed understanding of structure property relationships in ionic liquids.
 
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Matthew Reichert
 
Matthew Reichert
Administrative Director
Chemistry

Dr. Reichert's interest in ionic liquids has led him to research their applications for 3D printing. 
 
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Christy West
 
Christy Wheeler West
Chemical Engineering

Dr. Wheeler West's research interests are in reaction kinetics in ionic liquid solvents and in heterogeneous catalyst synthesis in supercritical fluids.
 
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Kevin West
 
Kevin West
Lab Director
Chemical Engineering

Dr. West applies solution thermodynamics to develop environmentally

benign, energy efficient chemical processes.

 
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Advisory Board

James Davis
 
James Davis
Chemistry

An internationally renowned expert on ionic liquids, Dr. Davis was named Fellow of the Royal Society of Chemistry in 2018.
 
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John Usher
 
John Usher
College of Engineering

Dr. Usher, dean of USA's College of Engineering, serves as an ABET program evaluator for industrial engineering.
 
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Kevin West
 
Kevin West
Chemical Engineering

Dr. West applies solution thermodynamics to develop environmentally

benign, energy efficient chemical processes.

 
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Andrzej Wierzbicki
 
Andrzej Wierzbicki
College of Arts & Sciences

Dr. Wierzbicki, dean of USA's College of Arts & Sciences, has published over 100 papers in chemistry and physics.
 
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