RESEARCH FOUNDATION OF CITY UNIVERSITY OF NEW YORK Patent applications |
Patent application number | Title | Published |
20120208903 | METHOD FOR CONVERSION OF CARBON DIOXIDE TO METHANE USING VISIBLE AND NEAR INFRA-RED LIGHT - The invention relates to a method for converting carbon dioxide to methane. The method comprises exposing carbon dioxide adsorbed on a nanoporous silicate matrix to light in the presence of a source of carbon dioxide and a source of hydrogen for a time and under conditions sufficient to convert carbon dioxide to methane. The matrix contains at least one photochromic metal oxide entity, and contains a C | 08-16-2012 |
20110306061 | INHIBITORS OF MYELIN-ASSOCIATED GLYCOPROTEIN (MAG) ACTIVITY FOR REGULATING NEURAL GROWTH AND REGENERATION - The present invention relates generally to products, compositions and methods useful for promoting neural repair and regeneration. The products and compositions of this invention include myelin-associated glycoprotein (MAG) derivatives that are inhibitors of endogenous MAG (e.g., mutant MAG proteins) and Nogo Receptor (NgR) binding inhibitors that are peptides derived from MAG, Nogo and OMgp that can bind to NgR and block NgR signaling. Peptides that can bind and activate NgR signaling are also provided. Inhibitory MAG derivatives and NgR binding inhibitors are useful for blocking the inhibition of neural regeneration mediated by proteins such as MAG, Nogo and/or OMgp in the nervous system. These inhibitors are also useful for treating neural degeneration associated with injuries, disorders or diseases. | 12-15-2011 |
20100240905 | Novel Curcumin and Tetrahydrocurcumin Derivatives - The invention relates to novel curcumin and tetrahydrocurcumin derivatives, which have been modified at one phenolic group to incorporate more-reactive groups. The curcumin and tetrahydrocurcumin derivatives are in the form of monomers, dimmers, and polymers. | 09-23-2010 |
20090233935 | Methods for Fabrication of Antimicrobial Surfaces - A method for rendering a carboxyl-containing polymer surface resistant to microbial growth, the method comprising: (i) reacting the carboxyl-containing polymer surface with a metal borohydride in a solvent system comprising a water-soluble alcohol having one to three hydroxy groups and one to four carbon atoms, and optionally up to about fifty percent water, in a temperature range having a minimum of about 60° C. and a maximum of about 80° C., and for an amount of time sufficient for reducing carboxyl groups on the carboxyl-containing polymer surface to surface hydroxymethyl groups without altering the nature of the bulk of the polymer; and either: (iia) converting hydroxy groups of the surface hydroxymethyl groups to leaving groups and displacing the leaving groups with one or a combination of antimicrobial agents; or (iib) displacing the hydrogen atoms of the hydroxy groups of the surface hydroxymethyl groups with one or a combination of antimicrobial agents. | 09-17-2009 |