Abstract: A gas chromatographic (GC) column using a zwitterionic compound and methods of use thereof are disclosed herein. The volatile free acids were observed to strongly retain on these zwitterionic compounds-based columns with excellent peak symmetry. By carefully tuning the structures of these zwitterionic compounds, different selectivity toward volatile free acids was demonstrated. These stationary phases possess a wide working range with thermal stabilities at higher temperatures.

Abstract: A gas chromatographic (GC) column using a zwitterionic compound and methods of use thereof are disclosed herein. The volatile free acids were observed to strongly retain on these zwitterionic compounds-based columns with excellent peak symmetry. By carefully tuning the structures of these zwitterionic compounds, different selectivity toward volatile free acids was demonstrated. These stationary phases possess a wide working range with thermal stabilities at higher temperatures.

Abstract: In this disclosure, transition and rare earth metal-based magnetic ionic liquids (MILs) are successfully prepared in a two-step synthesis and used to extract viable bacteria from a liquid sample. The disclosed MILs are extremely hydrophobic MILs and were insoluble in aqueous solution at 0.01% (v/v). Furthermore, these MILs were miscible in a variety of polar and non-polar organic solvents. Moreover, these MILs possess low viscosity and increased magnetic susceptibility. These MILs possess unique characteristics that can have great potential uses in various chemical applications such as extraction solvents in LLE, liquid electrochromic materials (Co-based MILs), and novel reaction media for organic synthesis.

Abstract: In this disclosure, a method or kit for using the method of extracting, concentrating, and detecting microbes from a sample is disclosed. The method disclosed herein use transition or rare earth metal-based magnetic ionic liquids (MILs) to extract viable microbes from a sample and to detect them via an amplification-based method and/or a non-amplification-based methods. The method and kit can be used in-field and on-site for detection of viable microbes in a sample within about an hour, without using any powered heat source or powered tool.

Abstract: Described herein are methods for making and using magnetic ionic liquid that have at least one cationic component and at least one anionic component, where at least one of the cationic components or the anionic components is a paramagnetic component. The magnetic ionic liquids are capable of manipulation by an external magnetic field.

Abstract: A gas chromatographic (GC) column using a zwitterionic compound and methods of use thereof are disclosed herein. The volatile free acids were observed to strongly retain on these zwitterionic compounds-based columns with excellent peak symmetry. By carefully tuning the structures of these zwitterionic compounds, different selectivity toward volatile free acids was demonstrated. These stationary phases possess a wide working range with thermal stabilities at higher temperatures.

Abstract: Described herein are methods for making and using magnetic ionic liquid that have at least one cationic component and at least one anionic component, where at least one of the cationic components or the anionic components is a paramagnetic component. The magnetic ionic liquids are capable of manipulation by an external magnetic field.

Abstract: Described herein are methods for making and using magnetic ionic liquid that have at least one cationic component and at least one anionic component, where at least one of the cationic components or the anionic components is a paramagnetic component. The magnetic ionic liquids are capable of manipulation by an external magnetic field.

Abstract: In this disclosure, transition and rare earth metal-based magnetic ionic liquids (MILs) are successfully prepared in a two-step synthesis and used to extract viable bacteria from a liquid sample. The disclosed MILs are extremely hydrophobic MILs and were insoluble in aqueous solution at 0.01% (v/v). Furthermore, these MILs were miscible in a variety of polar and non-polar organic solvents. Moreover, these MILs possess low viscosity and increased magnetic susceptibility. These MILs possess unique characteristics that can have great potential uses in various chemical applications such as extraction solvents in LLE, liquid electrochromic materials (Co-based MILs), and novel reaction media for organic synthesis.

Abstract: Polymeric ionic liquids, methods of making and methods of using the same are disclosed.

Abstract: Photo-initiated polymeric ionic liquids, methods of making and methods of using the same are disclosed. A preferred embodiment for making a photo-initiated polymeric ionic liquid (P-PIL) coated support, comprises: mixing at least one ionic liquid (IL) monomer with at least one photo-initiator; at least partially coating a support with the mixture; and exposing the coated support to UV light to form a photo-initiated polymeric ionic liquid (P-PIL) coated support.

Abstract: Polymeric ionic liquids, methods of making and methods of using the same are disclosed.

Abstract: Polymeric ionic liquids, methods of making and methods of using the same are disclosed.

Abstract: Photo-initiated polymeric ionic liquids, methods of making and methods of using the same are disclosed. A preferred embodiment for making a photo-initiated polymeric ionic liquid (P-PIL) coated support, comprises: mixing at least one ionic liquid (IL) monomer with at least one photo-initiator; at least partially coating a support with the mixture; and exposing the coated support to UV light to form a photo-initiated polymeric ionic liquid (P-PIL) coated support.

Abstract: Boron selective ionic liquids and polymeric ionic liquids, methods of making and methods of using the same are disclosed.

Abstract: Boron selective ionic liquids and polymeric ionic liquids, methods of making and methods of using the same are disclosed.

Abstract: Polymeric ionic liquids, methods of making and methods of using the same are disclosed.