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Jiang, CO

Weibin Jiang, Aurora, CO US

Patent application numberDescriptionPublished
20080305028Integrated processes for generating carbon monoxide for carbon nanomaterial production - The integrated processes of the dry reforming or partial oxidation upstream of the carbon nanotube-producing reactor are described allowing the carbon monoxide to be produced on an as-needed basis, negating the need to transport carbon monoxide to the production site or store large quantities of carbon monoxide on-site. The apparatuses allowing to carry out such integrated processes are also provided. Carbon dioxide emissions may be eliminated from the carbon nanotube production process. This may be achieved by recycling the carbon dioxide byproduct and mixing it with the feed to the partial oxidation process.12-11-2008
20080305029Integrated processes for generating carbon monoxide for carbon nanomaterial production - The integrated processes of the dry reforming or partial oxidation upstream of the carbon nanotube-producing reactor are described allowing the carbon monoxide to be produced on an as-needed basis, negating the need to transport carbon monoxide to the production site or store large quantities of carbon monoxide on-site. The apparatuses allowing to carry out such integrated processes are also provided. Carbon dioxide emissions may be eliminated from the carbon nanotube production process. This may be achieved by recycling the carbon dioxide byproduct and mixing it with the feed to the partial oxidation process.12-11-2008
20080305030Integrated processes for generating carbon monoxide for carbon nanomaterial production - The integrated processes of the dry reforming or partial oxidation upstream of the carbon nanotube-producing reactor are described allowing the carbon monoxide to be produced on an as-needed basis, negating the need to transport carbon monoxide to the production site or store large quantities of carbon monoxide on-site. The apparatuses allowing to carry out such integrated processes are also provided. Carbon dioxide emissions may be eliminated from the carbon nanotube production process. This may be achieved by recycling the carbon dioxide byproduct and mixing it with the feed to the partial oxidation process.12-11-2008
20090208388INTEGRATED PROCESSES FOR GENERATING CARBON MONOXIDE FOR CARBON NANOMATERIAL PRODUCTION - The integrated processes of the dry reforming or partial oxidation upstream of the carbon nanotube-producing reactor are described allowing the carbon monoxide to be produced on an as-needed basis, negating the need to transport carbon monoxide to the production site or store large quantities of carbon monoxide on-site. The apparatuses allowing to carry out such integrated processes are also provided. Carbon dioxide emissions may be eliminated from the carbon nanotube production process. This may be achieved by recycling the carbon dioxide byproduct and mixing it with the feed to the partial oxidation process.08-20-2009
20090220392INTEGRATED PROCESSES FOR GENERATING CARBON MONOXIDE FOR CARBON NANOMATERIAL PRODUCTION - The integrated processes of the dry reforming or partial oxidation upstream of the carbon nanotube-producing reactor are described allowing the carbon monoxide to be produced on an as-needed basis, negating the need to transport carbon monoxide to the production site or store large quantities of carbon monoxide on-site. The apparatuses allowing to carry out such integrated processes are also provided. Carbon dioxide emissions may be eliminated from the carbon nanotube production process. This may be achieved by recycling the carbon dioxide byproduct and mixing it with the feed to the partial oxidation process.09-03-2009
20100074811INTEGRATED PROCESSES FOR GENERATING CARBON MONOXIDE FOR CARBON NANOMATERIAL PRODUCTION - The integrated processes of the dry reforming or partial oxidation upstream of the carbon nanotube-producing reactor are described allowing the carbon monoxide to be produced on an as-needed basis, negating the need to transport carbon monoxide to the production site or store large quantities of carbon monoxide on-site. The apparatuses allowing to carry out such integrated processes are also provided. Carbon dioxide emissions may be eliminated from the carbon nanotube production process. This may be achieved by recycling the carbon dioxide byproduct and mixing it with the feed to the partial oxidation process.03-25-2010

Patent applications by Weibin Jiang, Aurora, CO US

Yutong Jiang, Boulder, CO US

Patent application numberDescriptionPublished
20110166122SUBSTITUTED IMIDAZO[1,2b]PYRIDAZINE COMPOUNDS AS TRK KINASE INHIBITORS - Compounds of Formula (I): in which R07-07-2011

Ziqing Jiang, Denver, CO US

Patent application numberDescriptionPublished
20100099614Antimicrobial Peptides and Methods of Use - Disclosed herein are antimicrobial peptides with useful and/or superior properties such as specificity, resistance to degradation, antimicrobial activity, desirably low levels of hemolytic activity, and a therapeutic index against a broad range of microorganisms including gram-negative, gram-positive and acid-fast bacteria, fungi and other organisms. Also provided are pharmaceutical compositions comprising these peptides and methods of using such peptides to control microbial growth or to treat or reduce incidence of infections caused by such microorganisms. Also disclosed are peptides at least one or all amino acids in the D configuration. Compositions disclosed herein are useful in the treatment of bacterial, mycobacterial and/or fungal infections or for reducing microbial cell numbers or growth on surfaces or in materials.04-22-2010
20110028386Antimicrobial Peptides - Disclosed are antimicrobial peptides with useful or superior properties such as antimicrobial activity, desirable levels of hemolysis, and advantageous therapeutic index against various microorganisms, especially 02-03-2011