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We use different strategies to design and formulate ionic liquids so that they are compatible with both graphite electrode and 5.0V cathode.
This invention is directed to a method to treat surfaces that are normally wettable with organic/aqueous solvent mixes giving them the right hydrophobic character, solubility and analyte extractability behavior.
Lanthanum gallate germanates codoped with chromium (La3Ga5GeO14:Cr3+, M, M = Li, Pb2+, Zn2+, Eu3+, Tm3+, and Dy3+) has been prepared using a solid state chemical reaction method.
The invention provides a novel strategy to synthesize carbon materials via functionalized IL precursors. The method relies on the use of negligible vapor pressure of ILs and incorporation of functional groups into IL structures.
The invention provides a facile one-pot method for generating members of a novel family of hydrophobic protic ionic liquids (PILs) derived from pairings between diverse superbases and the superacid-derived anions, [Tf2N–] or [beti–].
We have discovered novel microparticles and nanoparticles prepared from solid (“frozen”) ionic liquids, as well as methods for making the novel microparticles and nanoparticles. The novel microparticles and nanoparticles have a wide variety of uses.
This technology will be a robust atmospheric pressure thermal desorption secondary ionization mass spectrometry system that is capable of imaging with micrometer and nanometer spatial resolution.
It is imperative to improve the flux pinning properties of high temperature supeconducting (HTS) thin films in the field and temperature ranges targeted for potential applications, which would in turn yield enhanced performance, increased efficiency, and cost reduction of