FRANKLIN AND MARSHALL COLLEGE Patent applications |
Patent application number | Title | Published |
20160113393 | Portable Copystand for Enhancing Ink/Parchment Contrast - A portable copystand is disclosed having a foldable base. A first adjustable arm and a second adjustable arm are provided. The portable copystand also has an ultraviolet light source and a visible spectrum light source. | 04-28-2016 |
20150152461 | Genetically Encoded Initiator For Polymer Growth From Proteins - This invention pertains to methods for producing homogeneous recombinant proteins that contain polymer initiators at defined sites. The unnatural amino acid, 4-(2′-bromoisobutyramido)phenylalanine of formula 1, was designed and synthesized as a molecule comprising a functional group further comprising an initiator for an atom-transfer radical polymerization (‘ATRP”) that additionally would provide a stable linkage between the protein and growing polymer. We evolved a | 06-04-2015 |
20140004591 | SITE SPECIFICALLY INCORPORATED INITIATOR FOR GROWTH OF POLYMERS FROM PROTEINS | 01-02-2014 |
20130261259 | GENETICALLY ENCODED INITIATOR FOR POLYMER GROWTH FROM PROTEINS - This invention pertains to methods for producing homogeneous recombinant proteins that contain polymer initiators at defined sites. The unnatural amino acid, 4-(2′-bromoisobutyramido)phenylalanine of formula 1, was designed and synthesized as a molecule comprising a functional group further comprising an initiator for an atom-transfer radical polymerization (‘ATRP”) that additionally would provide a stable linkage between the protein and growing polymer. We evolved a | 10-03-2013 |
20130171056 | Development of Earth-Abundant Mixed-Metal Sulfide Nanoparticles For Use In Solar Energy Conversion - This invention relates to a process for the phase-controlled synthesis of ternary and quaternary mixed-metal sulfide nanoparticles by reacting soft metal ions with hard metal ions in a high-boiling organic solvent in the presence of a complexing and activating ligands to control the reactivity of the metal ions. Ternary and quaternary mixed metal sulfides nanoparticles of copper, sulfur, and iron, aluminum, tin, and silicon are preferred. This invention also relates to the phase controlled preparation of polymorphs of bornite nanoparticles and the phase controlled preparation of stabilized α- and γ-chalconite nanoparticles. | 07-04-2013 |