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Brij Mohan Moudgil

from Gainesville, FL
Age ~79
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Also known as:
Brij M Moudgil, Brij Dr Moudgil, Bri Moudgil, Bharat Moudgil, Birj Moudgil
Phone and address:
5326 67Th St, Gainesville, FL 32653
(352) 372-3137
Related to:
Priya K Shah, 50Ravi K Amaravadi, 50Suniti Moudgil, 48Bharat Kumar Moudgil, 37Sheela Moudgil, 69Sarika Moudgil, 45
Connected to:
Rashmi Moudgil, 40Catherine L Moudry, 73Mary L Moudry, 78Nathan D Moudry, 49Sarah R Moudry, 50Jacob D Moudy, 32Jimmy P Moudy, 71Johnny L Moudy, 67Leonard R Moudy, 103Ryan C Moudy, 45

Brij Moudgil Phones & Addresses

  • 5326 67Th St, Gainesville, FL 32653 (352) 372-3137
  • Wilmington, DE
  • 5326 NW 67Th St, Gainesville, FL 32653

Work

Company: University of florida Position: Distinguished professor at university of florida

Education

School / High School: Columbia University In the City of New York Specialities: Engineering

Skills

Higher Education • University Teaching • Research • Public Speaking • Teaching

Languages

Hindi

Industries

Higher Education

Resumes

Resumes

Brij Moudgil Photo 1

Distinguished Professor At University Of Florida

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Location:
686 Museum Rd, Gainesville, FL 32611
Industry:
Higher Education
Work:
University of Florida
Distinguished Professor at University of Florida
Education:
Columbia University In the City of New York
Indian Institute of Science (Iisc)
Bachelor of Engineering, Bachelors
Skills:
Higher Education
University Teaching
Research
Public Speaking
Teaching
Languages:
Hindi

Publications

Us Patents

Photocatalytic Nanocomposites And Applications Thereof

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US Patent:
7541509, Jun 2, 2009
Filed:
Aug 31, 2005
Appl. No.:
11/216303
Inventors:
Wolfgang M. Sigmund - Gainesville FL, US
Sung-Hwan Lee - Seoul, KR
Benjamin Koopman - Gainesville FL, US
Brij Moudgil - Gainesville FL, US
Georgios Pyrgiotakis - Gainesville FL, US
Vijay Krishna - Gainesville FL, US
Assignee:
University of Florida Research Foundation, Inc. - Gainsville FL
International Classification:
A62D 3/00
A62D 3/17
A62D 3/10
B01J 37/00
US Classification:
588299, 588301, 588306, 502129
Abstract:
A photocatalyst nanocomposite which can be used to destroying biological agents includes a carbon nanotube core, and a photocatalyst coating layer covalently or ionically bound to a surface of the nanotube core. The coating layer has a nanoscale thickness. A method of forming photocatalytic nanocomposites includes the steps of providing a plurality of dispersed carbon nanotubes, chemically oxidizing the nanotubes under conditions to produce surface functionalized nanotubes to provide C and O including groups thereon which form ionic or covalent bonds to metal oxides, and processing a metal oxide photocatalyst sol-gel precursor in the presence of the nanotubes, wherein a nanoscale metal oxide photocatalyst layer becomes covalently or ionically bound to the nanotubes.

Materials And Methods For Identifying Biointeractive Nanostructures And/Or Nanoparticles

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US Patent:
7908908, Mar 22, 2011
Filed:
Mar 23, 2006
Appl. No.:
11/908515
Inventors:
Scott C. Brown - Gainesville FL, US
Brij M. Moudgil - Gainesville FL, US
Yakov I. Rabinovich - Gainesville FL, US
Veena B. Antony - Gainesville FL, US
Mohammed A. Kamal - Gainesville FL, US
Assignee:
University of Florida Research Foundation, Inc. - Gainesville FL
International Classification:
G01B 5/28
US Classification:
73105
Abstract:
Disclosed herein are surface force microscope probes comprising living cells adhered thereto, as well as methods of making same. Also disclosed is a system for high throughput screening of nanostructures having biological relevance through use of surface force microscope probes comprising living cells. Further disclosed are methods of screening for biointeractive nanostructures.

Functionalized Fullerenes For Nanolithography Applications

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US Patent:
8105754, Jan 31, 2012
Filed:
Jan 5, 2009
Appl. No.:
12/810241
Inventors:
Amit Kumar Singh - Gainesville FL, US
Vijay Krishna - Gainesville FL, US
Brij M. Moudgil - Gainesville FL, US
Benjamin L. Koopman - Gainesville FL, US
Assignee:
University of Florida Research Foundation, Inc. - Gainesville FL
International Classification:
G03C 5/00
US Classification:
430296, 430313, 430323, 430326, 430942
Abstract:
A method for electron beam nanolithography without the need for development step involves depositing a film of a resist comprising functionalized fullerenes on a substrate, and writing features by exposure to an electron beam with an accelerating voltage and dose rate sufficient to promote heating or thermal degradation of the functionalized fullerene in the irradiated volume such that a pattern is generated without a subsequent development step or with an aqueous developer. Lithographic features of about 1 nm or greater can be formed.

Multimodal Nanoparticles For Non-Invasive Bio-Imaging

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US Patent:
8361437, Jan 29, 2013
Filed:
Aug 28, 2008
Appl. No.:
12/675633
Inventors:
Parvesh Sharma - Gainesville FL, US
Brij M. Moudgil - Gainesville FL, US
Glenn A. Walter - Newberry FL, US
Stephen R. Grobmyer - Gainesville FL, US
Swadeshmukul Santra - Orlando FL, US
Huabei Jiang - Gainesville FL, US
Scott Chang Brown - Gainesville FL, US
Edward W. Scott - Gainesville FL, US
Qizhi Zhang - Gainesville FL, US
Niclas Bengtsson - Gainesville FL, US
Assignee:
University of Florida Research Foundation, Inc. - Gainesville FL
International Classification:
A61K 51/00
A61K 49/06
A61K 49/04
US Classification:
424 129, 424 936, 424 942, 424 96
Abstract:
Multimodal nanoparticles are nanoparticles containing contrast agents for PAT and one or more of luminescence imaging, x-ray imaging, and/or MRI. The multimodal nanoparticles can have a dielectric core comprising an oxide with a metal coating on the core. The particles can be metal speckled. The multimodal nanoparticles can be used for therapeutic purposes such as ablation of tumors or by neutron capture in addition to use as contrast agents for imaging.

Optical Luminescence Of Functionalized Fullerenes In An Oxygen Free Environment

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US Patent:
8373139, Feb 12, 2013
Filed:
Jan 5, 2009
Appl. No.:
12/810248
Inventors:
Vijay Krishna - Gainesville FL, US
Brij M. Moudgil - Gainesville FL, US
Benjamin L. Koopman - Gainesville FL, US
Assignee:
University of Florida Research Foundation, Inc. - Gainesville FL
International Classification:
G01N 21/64
US Classification:
2504591
Abstract:
Functionalized fullerenes, when excited at any of a broad range of wavelengths in an oxygen free environment, undergo luminescence. The oxygen sensitive luminescence of functionalized fullerenes is used for numerous applications including oxygen detection; irradiation induced healing of polymeric materials; and phosphors for optical location and display applications. The degradation of the functionalized fullerenes allows for the detection of oxygen by diminished luminescence when the fullerenes are exposed to an irradiation source, such as a laser beam, in the presence of oxygen. The luminescence from a portion of a surface of a material with functionalized fullerenes allows for the location of the surface containing a functionalized fullerene target in the absence of oxygen or to heat the object in the area irradiated that is exposed to oxygen. The localized heating can be used to repair defects to a material containing the functionalized fullerenes. Materials containing functionalized fullerenes can be used as phosphors in display applications.

Multimodal Nanoparticles For Non-Invasive Bio-Imaging

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US Patent:
8617522, Dec 31, 2013
Filed:
Dec 28, 2012
Appl. No.:
13/729815
Inventors:
Brij M. Moudgil - Gainesville FL, US
Glenn A. Walter - Newberry FL, US
Stephen R. Grobmyer - Shaker Heights OH, US
Swadeshmukul Santra - Orlando FL, US
Huabei Jiang - Gainesville FL, US
Scott Chang Brown - Hockessin DE, US
Edward W. Scott - Gainesville FL, US
Qizhi Zhang - Gainesville FL, US
Niclas Bengtsson - Lake Forest Park WA, US
Assignee:
University of Florida Research Foundation, Inc. - Gainesville FL
International Classification:
A61K 49/04
A61K 49/00
A61B 5/055
A61N 5/00
US Classification:
424 942, 424 92, 424 932, 424 96, 600411, 600431
Abstract:
Multimodal nanoparticles are nanoparticles containing contrast agents for PAT and one or more of luminescence imaging, x-ray imaging, and/or MRI. The multimodal nanoparticles can have a dielectric core comprising an oxide with a metal coating on the core. The particles can be metal speckled. The multimodal nanoparticles can be used for therapeutic purposes such as ablation of tumors or by neutron capture in addition to use as contrast agents for imaging.

Materials And Methods For Control Of Stability And Rheological Behavior Of Particulate Suspensions

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US Patent:
20040055993, Mar 25, 2004
Filed:
Apr 21, 2003
Appl. No.:
10/419511
Inventors:
Brij Moudgil - Gainesville FL, US
Gul Basim - Dallas TX, US
Ivan Vakarelski - Gainesville FL, US
Scott Brown - Gainesville FL, US
International Classification:
C23F001/00
US Classification:
216/002000
Abstract:
The subject invention relates to a method and materials for the control of the energy barrier to agglomeration with respect to particles. Controlling the energy barrier to agglomeration can, for example, cause the particles to enter suspension and/or depart from suspension, as desired. By fine-tuning the energy barrier, a variety of processes can be enhanced. The subject invention also pertains to the control of the energy barrier between particles and a surface. In a specific embodiment, the subject invention can be utilized for chemical-mechanical polishing (CMP) processes. In a preferred embodiment, the subject invention concerns a slurry composition including abrasive particles, at least one dispersant, and at least one competing agent, wherein the competing agent competes with the dispersant for adsorption sites on the substrate, thereby hindering the dispersant's influence on the particle-substrate interaction within the composition, without eliminating the dispersant's influence on the particle-particle interaction (steric repulsion) within the composition, thereby maintaining a stable solution.

Capillary Rise Technique For The Assessment Of The Wettability Of Particulate Surfaces

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US Patent:
20040255650, Dec 23, 2004
Filed:
Feb 25, 2004
Appl. No.:
10/786991
Inventors:
Brij Moudgil - Gainesville FL, US
Scott Brown - Gainesville FL, US
Roberto Oliveira - Rio De Janeiro, BR
Assignee:
University of Florida - Gainesville FL
International Classification:
G01N013/00
US Classification:
073/064550
Abstract:
A method and system for determining the wettability of particulate surfaces. In particular, the method for determining the wettability of particulate surface includes the steps of inserting a test device having the particulate surface into a test liquid to form a liquid meniscus; measuring the liquid meniscus to generate a liquid meniscus measurement; and calculating the wettability of the particulate surface using the liquid meniscus measurement. The system for determining the wettability of particulate surface includes a test device having the particulate surface; a test liquid; and a measurement device.

Isbn (Books And Publications)

Interfacial Phenomena in Biotechnology and Materials Processing

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Author

Brij M. Moudgil

ISBN #

0444429808

Flocculation, Sedimentation and Consolidation: Proceedings of the Engineering Foundation Conference Held at the Cloister, Sea Island, Georgia, Usa,

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Author

Brij M. Moudgil

ISBN #

0816903573

Reagents in Mineral Technology

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Author

Brij M. Moudgil

ISBN #

0824777158

Beneficiation of Phosphate: Theory and Practice

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Author

Brij M. Moudgil

ISBN #

0873351193

Functional Fillers and Nanoscale Minerals

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Author

Brij M. Moudgil

ISBN #

0873352289

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Brij Mohan Moudgil from Gainesville, FL, age ~79 Get Report