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Noshir S Pesika

from New Orleans, LA
Age ~47
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Also known as:
Noshir S Pesik, Pesika S Noshir, Noshir I
Phone and address:
1902 Jena St, New Orleans, LA 70115
(614) 316-2744
Related to:
Nevil S Pesika, 50Tressie E Dameron, 53Sara B Pesika, 46Kamla K Pesika, 77Sheriar R Pesika, 77Rohinton S Pesika, 42Richard Dameron, 80Rajkumari Dameron, 79Leon Dameron, 69Kamla K Pesika
Connected to:
David L Pesikoff, 56Wanda G Pesile, 84Florence M Pesima, 57Tatyana Pesin, 89Alvaro Pesina, 35Amanda A Pesina, 38Erika Pesina, 50Gerardo Pesina, 50Janet S Pesina, 66

Noshir Pesika Phones & Addresses

  • 1902 Jena St, New Orleans, LA 70115 (614) 316-2744
  • River Ridge, LA
  • Powell, OH
  • Goleta, CA
  • Pittsburgh, PA
  • Baltimore, MD

Work

Company: Tulane university Jul 2008 Position: Associate professor

Education

School / High School: The Johns Hopkins University 1999 to 2005

Skills

Materials Science • Nanotechnology • Surface Chemistry • Electrochemistry • Spectroscopy • Experimentation • Afm • Characterization • Nanoparticles • Microscopy • Nanomaterials • Microfluidics • Biomaterials • Scanning Electron Microscopy • Biomedical Engineering

Interests

Surface Science • Nanotechnology • Electrochemistry

Industries

Research

Resumes

Resumes

Noshir Pesika Photo 1

Associate Professor

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Location:
New Orleans, LA
Industry:
Research
Work:
Tulane University
Associate Professor
University of California Jun 2005 - Jun 2008
Postdoctoral Associate
Education:
The Johns Hopkins University 1999 - 2005
Carnegie Mellon University 1995 - 1999
Bachelors, Bachelor of Science, Engineering
Skills:
Materials Science
Nanotechnology
Surface Chemistry
Electrochemistry
Spectroscopy
Experimentation
Afm
Characterization
Nanoparticles
Microscopy
Nanomaterials
Microfluidics
Biomaterials
Scanning Electron Microscopy
Biomedical Engineering
Interests:
Surface Science
Nanotechnology
Electrochemistry

Business Records

Name / Title
Company / Classification
Phones & Addresses
Noshir Pesika
JENA ROW CONDOMINIUM ASSOCIATION, INC
1906 Jena St, New Orleans, LA 70115
1902 Jena St, New Orleans, LA 70115

Publications

Us Patents

Method For Producing Patterned Structures By Printing A Surfactant Resist On A Substrate For Electrodeposition

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US Patent:
20080283405, Nov 20, 2008
Filed:
Mar 11, 2008
Appl. No.:
12/046147
Inventors:
Noshir Sheriar Pesika - Goleta CA, US
Kathleen Joan Stebe - Baltimore MD, US
Peter Searson - Baltimore MD, US
Assignee:
JOHNS HOPKINS UNIVERSITY - Baltimore MD
International Classification:
C25D 5/02
US Classification:
205135
Abstract:
Methods for electrodeposition of conductive material on a conductive substrate that contains a pattern of a chemisorbed surfactant formed by a stamp having a patterned surface which is pressed onto the surface of the substrate for printing the substrate. Electrodeposition occurs by immersing the patterned substrate in a plating bath upon application of deposition potential or current to the conductive substrate. In embodiment, the chemisorbed surfactant on the surface of the substrate acts as a positive resist so that electrodeposition occurs on regions of the substrate not covered with surfactant. In another embodiment, electrodeposition occurs preferentially in regions of the substrate covered with the chemisorbed surfactant.

Novel Multifunctional Materials For In-Situ Environmental Remediation Of Chlorinated Hydrocarbons

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US Patent:
20130058724, Mar 7, 2013
Filed:
Oct 14, 2010
Appl. No.:
13/502047
Inventors:
Vijay John - Destrehan LA, US
Noshir Pesika - River Ridge LA, US
Gerhard Piringer - Vienna, AT
Jingjing Zhan - New Orleans LA, US
Gary McPherson - Mandeville LA, US
Assignee:
THE ADMINISTRATORS OF THE TULANE EDUCATIONAL FUND - New Orleans LA
International Classification:
B09C 1/08
C07C 1/26
C09K 3/32
B82Y 30/00
US Classification:
4051285, 252184, 585254, 977773, 977903
Abstract:
Effective in-situ injection technology for the remediation of dense nonaqueous phase liquids (DNAPLs) such as trichloroethylene (TCE) benefits from the use of decontamination agents that effectively migrate through the soil media, and react efficiently with both dissolved TCE and bulk TCE. A novel decontamination system contains highly uniform carbon microspheres preferably in the optimal size range for transport through the soil. The microspheres are preferably enveloped in a polyelectrolyte (such as carboxymethyl cellulose, CMC) to which preferably a bimetallic nanoparticle system of zerovalent iron and Pd is attached. The carbon serves as a strong adsorbent to TCE, while the bimetallic nanoparticles system provides the reactivity. The polyelectrolyte serves to stabilize the carbon microspheres in aqueous solution. The overall system resembles a colloidal micelle with a hydrophilic shell (the polyelectrolyte coating) and a hard hydrophobic core (carbon). In contact with bulk TCE, there is a sharp partitioning of the system to the TCE side of the interface due to the hydrophobicity of the core. These multifunctional systems appear to satisfy criteria related to remediation and are relatively inexpensive and made with potentially environmentally benign materials. An aerosol process is preferably used to produce zerovalent iron particles supported on carbon. A method of lubricating includes creating carbon microspheres produced from a monosaccharide or polysaccharide, the carbon microspheres having a diameter of 50 nm to 6 microns, coating the microspheres with a surface coating and using the carbon microspheres as a lubricant.

Superhydrophobic Plastic Conveyor Components And Methods For Their Molding

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US Patent:
20200346869, Nov 5, 2020
Filed:
Oct 23, 2018
Appl. No.:
16/760310
Inventors:
- Harahan LA, US
Noshir Sheriar Pesika - New Orleans LA, US
Shuchi P. Khurana - Metairie LA, US
Jeremiah E. Oertling - Jefferson LA, US
International Classification:
B65G 15/42
B65G 17/08
B29C 45/26
B23K 26/386
B29D 29/06
B08B 17/06
Abstract:
Superhydrophobic conveyor belt components and methods for molding those components out of thermoplastic polymers. The plastic components have superhydrophobic regions on outer surfaces that shed aqueous solutions and remain dry. The water-shedding regions are textured with a nano- or micro-structure that is rough enough to endow the region with superhydrophobic properties.

Silk Microspheres And Methods For Surface Lubrication

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US Patent:
20150150993, Jun 4, 2015
Filed:
Apr 25, 2013
Appl. No.:
14/390351
Inventors:
- Medford MA, US
- New Orleans LA, US
Vijay John - New Orleans LA, US
Noshir Pesika - New Orleans LA, US
Rubo Zheng - New Orleans LA, US
International Classification:
A61K 47/42
A61K 45/06
A61K 9/16
Abstract:
Provided herein relates to compositions and methods for lubrication of a surface. The surface amenable to the compositions and methods described herein can be a non-biological surface, a biological surface, or a combination thereof. In some embodiments, the composition comprising a phospholipid-coated silk microsphere can be used for lubrication of a surface. In some embodiments, the composition comprising a phospholipid-coated silk microsphere can be used for joint lubrication, e.g., for treatment of joint disorders such as arthritis.
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Noshir S Pesika from New Orleans, LA, age ~47 Get Report