Hadiyah-Nicole Green (1981) is an American medical physicist, known for the development of a method using laser-activated nanoparticles as a potential cancer treatment.[1][2][3] She is one of 66 black women to earn a Ph.D. in physics in the United States between 1973 and 2012,[4] and is the second black woman and the fourth black person ever to earn a doctoral degree in physics from The University of Alabama at Birmingham.[5]
Patents by Inventor Hadiyah-Nicole Green
Hadiyah-Nicole Green has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
- PHOTOTHERMAL NANOSTRUCTURES IN TUMOR THERAPYPublication number: 20230173300Abstract: Methods, structures, devices and systems are disclosed for implementing a photothermal therapy using nanostructures. In one aspect, a device to produce a photothermal effect includes a particle having a molecular layer functionalized onto the external surface of the particle and structured to attach to one or more targeting molecules capable of binding to a receptor site of a cell, in which the particle is configured to absorb light energy at a particular wavelength to produce a plasmon resonance effect that causes the particle to emit heat energy. In some implementations, the device is deployed in an organism having a tumor that includes a plurality of the cell and binds to the receptor site of the tumor by the targeting molecules, in which the light energy is emitted at a region of the organism that contains the tumor and the heat energy causes cellular death of the tumor cell.Type: ApplicationFiled: January 26, 2023Publication date: June 8, 2023Inventor: Hadiyah-Nicole Green
- PHOTOTHERMAL NANOSTRUCTURES IN TUMOR THERAPYPublication number: 20180093105Abstract: Methods, structures, devices and systems are disclosed for implementing a photothermal therapy using nanostructures. In one aspect, a device to produce a photothermal effect includes a particle having a molecular layer functionalized onto the external surface of the particle and structured to attach to one or more targeting molecules capable of binding to a receptor site of a cell, in which the particle is configured to absorb light energy at a particular wavelength to produce a plasmon resonance effect that causes the particle to emit heat energy. In some implementations, the device is deployed in an organism having a tumor that includes a plurality of the cell and binds to the receptor site of the tumor by the targeting molecules, in which the light energy is emitted at a region of the organism that contains the tumor and the heat energy causes cellular death of the tumor cell.Type: ApplicationFiled: November 21, 2017Publication date: April 5, 2018Inventor: Hadiyah-Nicole Green
- Photothermal nanostructures in tumor therapyPatent number: 9827441Abstract: Methods, structures, devices and systems are disclosed for implementing a photothermal therapy using nanostructures. In one aspect, a device to produce a photothermal effect includes a particle having a molecular layer functionalized onto the external surface of the particle and structured to attach to one or more targeting molecules capable of binding to a receptor site of a cell, in which the particle is configured to absorb light energy at a particular wavelength to produce a plasmon resonance effect that causes the particle to emit heat energy. In some implementations, the device is deployed in an organism having a tumor that includes a plurality of the cell and binds to the receptor site of the tumor by the targeting molecules, in which the light energy is emitted at a region of the organism that contains the tumor and the heat energy causes cellular death of the tumor cell.Type: GrantFiled: November 3, 2016Date of Patent: November 28, 2017Inventor: Hadiyah-Nicole Green
- PHOTOTHERMAL NANOSTRUCTURES IN TUMOR THERAPYPublication number: 20170072216Abstract: Methods, structures, devices and systems are disclosed for implementing a photothermal therapy using nanostructures. In one aspect, a device to produce a photothermal effect includes a particle having a molecular layer functionalized onto the external surface of the particle and structured to attach to one or more targeting molecules capable of binding to a receptor site of a cell, in which the particle is configured to absorb light energy at a particular wavelength to produce a plasmon resonance effect that causes the particle to emit heat energy. In some implementations, the device is deployed in an organism having a tumor that includes a plurality of the cell and binds to the receptor site of the tumor by the targeting molecules, in which the light energy is emitted at a region of the organism that contains the tumor and the heat energy causes cellular death of the tumor cell.Type: ApplicationFiled: November 3, 2016Publication date: March 16, 2017Inventor: Hadiyah-Nicole Green
- PHOTOTHERMAL NANOSTRUCTURES IN TUMOR THERAPYPublication number: 20130261444Abstract: Methods, structures, devices and systems are disclosed for implementing a photothermal therapy using nanostructures. In one aspect, a device to produce a photothermal effect includes a particle having a molecular layer functionalized onto the external surface of the particle and structured to attach to one or more targeting molecules capable of binding to a receptor site of a cell, in which the particle is configured to absorb light energy at a particular wavelength to produce a plasmon resonance effect that causes the particle to emit heat energy. In some implementations, the device is deployed in an organism having a tumor that includes a plurality of the cell and binds to the receptor site of the tumor by the targeting molecules, in which the light energy is emitted at a region of the organism that contains the tumor and the heat energy causes cellular death of the tumor cell.Type: ApplicationFiled: March 15, 2013Publication date: October 3, 2013Inventors: Hadiyah-Nicole Green, Sergey B. Mirov, Eben L. Rosenthal, Paul Castellanos, Dmitry V. Martyshki
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