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Diegelmann
Christian Diegelmann, Muenchen DE
| Patent application number | Description | Published |
|---|---|---|
| 20090205890 | Energy Supply Device for a Hybrid Vehicle and Method for Operating an Electric High Voltage Energy Storage Device - A method for operating an electric high voltage energy storage device of a hybrid vehicle with an electric drive motor, as well as an energy supply device, is provided. A predetermined working range of the high voltage energy storage device is shifted in the direction of the upper or lower physical charge limit as a function of the vehicle operating parameters and/or as a function of the vehicle environmental parameters. | 08-20-2009 |
Robert Diegelmann, Richmond, VA US
| Patent application number | Description | Published |
|---|---|---|
| 20090202617 | Gas based wound and tissue therapeutics - This invention provides articles of manufacture and bandages comprising compartments and layers comprising oxygen and other therapeutic gas storage forms and perfluorocarbons. This invention also provides for methods of delivering oxygen and other therapeutic gases to a tissue in a subject comprising a administering to the tissue a composition comprising a perfluorocarbon and a oxygen or therapeutic gas storage form, so as to thereby deliver oxygen or the therapeutic gas to the tissue. | 08-13-2009 |
Robert F. Diegelmann, Bon Air, VA US
| Patent application number | Description | Published |
|---|---|---|
| 20080319476 | Hemostatic mineral compositions and uses thereof - The invention generally relates to compositions and methods for promoting hemostasis and sealing a wound by producing an adhesive cast. In particular, the invention provides compositions comprising clay minerals with specified particle sizes, which, when applied to a bleeding area, allow for a desired result in at least one of the following activities: stopping blood flow from a wound, forming a cohesive mass, sealing a wound, promoting coagulant activity, sorbing a body fluid, and adhering to tissue. For example, the desired result can be sealing the wound using an adhesive cast made of clay minerals mixed with blood or other wound fluids. | 12-25-2008 |
| 20090155342 | Mineral technologies (MT) for acute hemostasis and for the treatment of acute wounds and chronic ulcers - Compositions comprising clay minerals and methods for their use in promoting hemostasis are provided. The compositions comprise clay minerals such as bentonite, and facilitate blood clotting when applied to a hemorrhaging wound. Electrospun or electrosprayed materials (e.g. bandages, micron beads, etc.) which include clay minerals, and methods for the treatment of acute hemorrhage, are also provided. | 06-18-2009 |
| 20100292624 | Mineral Technologies (MT) for Acute Hemostasis and for the Treatment of Acute Wounds and Chronic Ulcers - Compositions comprising clay minerals and methods for their use in promoting hemostasis are provided. The compositions comprise clay minerals such as bentonite, and facilitate blood clotting when applied to a hemorrhaging wound. Electrospun or electrosprayed materials (e.g. bandages, micron beads, etc.) which include clay minerals, and methods for the treatment of acute hemorrhage, are also provided. | 11-18-2010 |
Stephen Robert Diegelmann, Baltimore, MD US
| Patent application number | Description | Published |
|---|---|---|
| 20120101022 | SELF-ASSEMBLING PEPTIDES BEARING ORGANIC ELECTRONIC FUNCTIONALITY AND APPLICATIONS EMPLOYING THE SAME - The aqueous self-assembly of oligopeptide-flanked π-conjugated molecules into discrete one-dimensional nanostructures is described. Unique to these molecules is the fact that the π-conjugated unit has been directly embedded within the peptide backbone by way of a synthetic amino acid with π-functionality that is compatible with standard Fmoc-based peptide synthesis or by way of a diacid or other bis(electrophile) that can covalently cross-link peptide chains presented on a synthesis support. The peptide-based molecular designs enforce intimate π-π communication within the aggregates after charge-screening and self-assembly, making these nanostructures attractive for optical or electronic applications in biological environments. In other embodiments, a convenient method to incorporate π-electron units into peptides that assemble into amyloid-like supramolecular polymers is disclosed. Self-assembly manipulates these “electronic peptides” into delocalized sub-10 nm one dimensional (1-D) nanostructures under completely aqueous conditions. | 04-26-2012 |