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Faiz F Sherman

from Mason, OH
Age ~53
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Also known as:
Faiz F Almaery, Faiz F Serman, Sherman F Faiz, Sherman F Agreement
Related to:
Nabil Said, 52Ahmed A Said, 49Wahida F Sherman, 44Cynthia J Said, 48Fatma E Almaery, 49Abdulaziz A Said, 79Riham A Said, 38
Connected to:
Addie L Sherman, 97Alandra Sherman, 39Allie Sherman, 32Alvie D Sherman, 108Andrea Sherman, 46Andrew Sherman, 44Angelica Sherman, 34Arissa A Sherman, 40Arkadiy S Sherman, 60Arvie L Sherman, 84

Faiz Sherman Phones & Addresses

  • Mason, OH
  • 4217 Inglewood Blvd, Los Angeles, CA 90066
  • 8517 Breezewood Ct, West Chester, OH 45069 (513) 942-0880
  • 8517 Breezewood Ct APT 207, West Chester, OH 45069 (513) 368-2037
  • Cincinnati, OH
  • Warren, OH

Work

Company: Procter & gamble Jan 2010 Position: Research fellow

Education

Degree: Master of Business Administration, Masters School / High School: University of Cincinnati Carl H. Lindner College of Business 2000 to 2002

Skills

R&D • Nanotechnology • Product Innovation • Product Development • Sensors • Cross Functional Team Leadership • Open Innovation • Strategy • Patents • Materials Science • Consumer Products • Project Management • Surface Chemistry • Chemistry • Nanomaterials • Design of Experiments • Innovation Management • Electronics • Marketing Research • Thin Films • Scanning Electron Microscopy • Engineering • Commercialization • Research and Development • Mems • Biomedical Engineering • Simulations • Semiconductors • Finite Element Analysis • Innovation Development • Nanoparticles • Machine Learning • Competitive Analysis • Fast Moving Consumer Goods • Technology Transfer

Ranks

Certificate: Neural Networks and Deep Learning

Emails

f***[email protected]

Industries

Consumer Goods

Resumes

Resumes

Faiz Sherman Photo 1

Research Fellow P And G And Adjunct Research Faculty At Uc

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Location:
Cincinnati, OH
Industry:
Consumer Goods
Work:
Procter & Gamble since Jan 2010
Research Fellow
Education:
University of Cincinnati Carl H. Lindner College of Business 2000 - 2002
Master of Business Administration, Masters University of California, Los Angeles 1994 - 1998
Doctorates, Doctor of Philosophy University of California, Los Angeles 1992 - 1994
Master of Science, Masters, Mechanical Engineering University of California, Los Angeles 1989 - 1992
Bachelors, Bachelor of Science, Mechanical Engineering
Skills:
R&D
Nanotechnology
Product Innovation
Product Development
Sensors
Cross Functional Team Leadership
Open Innovation
Strategy
Patents
Materials Science
Consumer Products
Project Management
Surface Chemistry
Chemistry
Nanomaterials
Design of Experiments
Innovation Management
Electronics
Marketing Research
Thin Films
Scanning Electron Microscopy
Engineering
Commercialization
Research and Development
Mems
Biomedical Engineering
Simulations
Semiconductors
Finite Element Analysis
Innovation Development
Nanoparticles
Machine Learning
Competitive Analysis
Fast Moving Consumer Goods
Technology Transfer
Certifications:
Neural Networks and Deep Learning
Improving Deep Neural Networks: Hyperparameter Tuning, Regularization and Optimization
Structuring Machine Learning Projects
Convolutional Neural Networks
Python Data Structures
Deep Learning Specialization
Sequence Models
Using Databases With Python
Applied Machine Learning In Python
Fundamentals of Reinforcement Learning
Rl - Sample-Based Learning Methods

Business Records

Name / Title
Company / Classification
Phones & Addresses
Faiz Feisal Sherman
AKILI SENSORS LLC
Faiz Sherman
BEAUTY CONSULTATION SYSTEMS LLC
Faiz Sherman
MOBI MEDIA LLC

Publications

Us Patents

Intracutaneous Microneedle Array Apparatus

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US Patent:
6379324, Apr 30, 2002
Filed:
Jun 9, 1999
Appl. No.:
09/328947
Inventors:
Vladimir Gartstein - Cincinnati OH
Dragan Danilo Nebrigic - Indian Springs OH
Grover David Owens - Fairfield OH
Faiz Feisal Sherman - Cincinnati OH
Vadim Vladimirovich Yuzhakov - Cincinnati OH
Assignee:
The Procter Gamble Company - Cincinnati OH
International Classification:
A61B 1720
US Classification:
604 22, 604 20
Abstract:
A first embodiment microneedle array is constructed of silicon and silicon dioxide compounds using MEMS technology and standard microfabrication techniques to create hollow cylindrical individual microneedles. The resulting array of microneedles can penetrate with a small pressure through the stratum corneum of skin to either deliver drugs or to facilitate interstitial fluid sampling through the hollow microneedles into the epidermis. The delivery of drugs and sampling of fluids can be performed by way of passive diffusion (time release), instantaneous injection, or iontophoresis. In a second embodiment, an array of hollow (or solid) microneedles is constructed of plastic or some other type of molded or cast material. An electric field may be used to increase transdermal flow rate, and the microneedles can be effectively combined with the application of an electric field between an anode and cathode attached to the skin which causes a low-level electric current. As a drug delivery system, the microneedle array includes electrodes that apply an electric potential to the skin between the electrode locations.

Method Of Manufacturing An Intracutaneous Microneedle Array

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US Patent:
6451240, Sep 17, 2002
Filed:
May 26, 2000
Appl. No.:
09/579798
Inventors:
Faiz Feisal Sherman - West Chester OH
Vadim Vladimirovich Yuzhakov - Cincinnati OH
Vladimir Gartstein - Cincinnati OH
Grover David Owens - Fairfield OH
Assignee:
The Procter Gamble Company - Cincinnati OH
International Classification:
B26F 124
US Classification:
264504, 205 70, 205164, 205210, 216 11, 216 41, 216 67, 216 75, 264154, 264219, 264322, 427537, 430320
Abstract:
A microneedle array is manufactured using a mold preparation procedure that begins by placing an optical mask over a layer of PMMA material, exposing the PMMA material to x-rays, then developing using a photoresist process. The remaining PMMA material is then electroplated with metal. Once the metal has reached an appropriate thickness, it is detached to become a metal mold that is used in a microembossing procedure, in which the metal mold is pressed against a heated layer of plastic material. Once the mold is pressed down to its proper distance, the plastic material is cooled until solidified, and the mold is then detached, thereby leaving behind an array of microneedles.

Method For Manufacturing An Intracutaneous Microneedle Array

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US Patent:
6471903, Oct 29, 2002
Filed:
Sep 19, 2001
Appl. No.:
09/956520
Inventors:
Faiz Feisal Sherman - Cincinnati OH
Vadim Vladimirovich Yuzhakov - Cincinnati OH
Vladimir Gartstein - Cincinnati OH
Grover David Owens - Fairfield OH
Assignee:
The Procter Gamble Company - Cincinnati OH
International Classification:
B29C 3342
US Classification:
2643281, 249 64, 425577
Abstract:
An array of hollow microneedles is constructed of molded plastic, in which a micro-machining technique is used to fabricate the molds used in a plastic microforming process. The molds are detachable and can be re-used. The preferred process for making the plastic arrays of microneedles is a microinjection technique. In the microinjection method, a molten plastic substance is injected between two micro-machined molds that contain microhole and micropillar arrays. Once the desired shape of the microneedle array has been formed, the mold and the plastic material are cooled down. Next, the molds are separated and the plastic microneedle array is detached from the mold structures.

Portable Interstitial Fluid Monitoring System

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US Patent:
6591124, Jul 8, 2003
Filed:
May 11, 2001
Appl. No.:
09/853442
Inventors:
Faiz Feisal Sherman - West Chester OH
Francisco Arias - Cincinnati OH
Vladimir Gartstein - Cincinnati OH
Grover David Owens - Fairfield OH
Milan Marcel Jevtitch - Cincinnati OH
Chow Chi Huang - West Chester OH
Assignee:
The Procter Gamble Company - Cincinnati OH
International Classification:
A61B 505
US Classification:
600345, 604 19, 604 27, 604 46, 604 48, 600365, 600362, 600578, 600576, 606189, 606186, 606167
Abstract:
A strip-like microneedle device is provided that includes an array of hollow microneedles, a diaphragm pump to extract interstitial fluid from skin, and a sensor that detects the concentration of the fluid. The microneedle device can be interfaced to an external sensor to produce a reading, or can be self-contained. One version uses an attachable/detachable microneedle array as a single-use, disposable unit. The device is portable, and is used by placing one finger on the microneedle array, and actuating the diaphragm pump with another finger, thereby obtaining the fluid sample. Solid coated or transparent microneedles could instead be used as an in-situ sensor, with either electrodes or an optical sensor.

Intracutaneous Edged Microneedle Apparatus

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US Patent:
6652478, Nov 25, 2003
Filed:
May 26, 2000
Appl. No.:
09/580780
Inventors:
Vladimir Gartstein - Cincinnati OH
Dragan Danilo Nebrigic - Indian Springs OH
Grover David Owens - Fairfield OH
Faiz Feisal Sherman - West Chester OH
Vadim Vladimirovich Yuzhakov - Cincinnati OH
Francisco Arias - Cincinnati OH
Assignee:
The Procter Gamble Company - Cincinnati OH
International Classification:
A61B 1720
US Classification:
604 22, 604 20
Abstract:
A hollow microneedle with a substantially sharp edge is provided that includes at least one longitudinal blade at the top surface or tip of the microneedle to aid in penetration of the stratum corneum of skin. In a preferred embodiment, there are two such longitudinal blades that are constructed on opposite surfaces at approximately a 180Â angle along the cylindrical side wall of the microneedle. Each edged blade has a cross-section that, when viewed from above the microneedle top, has an isosceles triangle profile. The blades edge can run the entire length of the microneedle from its very top surface to its bottom surface where it is mounted onto the substrate, or the edge can be discontinued partway down the length of the microneedle. A star-shaped solid microneedle also is provided having at least one blade with a relatively sharp edge to assist in penetrating the stratum corneum of skin. In a preferred embodiment, a three pointed star-shape is used, in which each blade has an isosceles triangular cross-section when viewed from the top of the microneedle.

Method Of Manufacturing Microneedle Structures Using Soft Lithography And Photolithography

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US Patent:
6663820, Dec 16, 2003
Filed:
Mar 14, 2001
Appl. No.:
09/808534
Inventors:
Francisco Arias - Cincinnati OH
Faiz Feisal Sherman - West Chester OH
Grover David Owens - Fairfield OH
Assignee:
The Procter Gamble Company - Cincinnati OH
International Classification:
B29C 3508
US Classification:
264496, 264225, 264319
Abstract:
A method for manufacturing microneedle structures is disclosed using soft lithography and photolithography, in which micromold structures made of a photoresist material or PDMS are created. The micromold manufacturing occurs quite quickly, using inexpensive materials and processes. Once the molds are available, using moldable materials such as polymers, microneedle arrays can be molded or embossed in relatively fast procedures. In some cases a sacrificial layer is provided between the forming micromold and its substrate layer, for ease of separation. The microneedles themselves can be solid projections, hollow âmicrotubes,â or shallow âmicrocups. â Electrodes can be formed on the microneedle arrays, including individual electrodes per hollow microtube.

Microstructures For Treating And Conditioning Skin

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US Patent:
6821281, Nov 23, 2004
Filed:
Sep 14, 2001
Appl. No.:
09/952403
Inventors:
Faiz Feisal Sherman - West Chester OH
Vladimir Gartstein - Cincinnati OH
Assignee:
The Procter Gamble Company - Cincinnati OH
International Classification:
A61B 1750
US Classification:
606131, 606 35
Abstract:
An improved method and apparatus is provided as a system to enhance skin appearance and health, in which skin is cleaned (or exfoliated) and conditioned by use of microelements affixed to a base element or hand-held patch. The dimensions of the microelements are controlled so as to remove a certain number of layers of skin cells and to accumulate those skin cells, along with other foreign substances, into areas between the microelements. In addition, a conditioning compound or therapeutic active can be applied to the exfoliated skin to enhance the skin. Moreover, the amount of accumulated skin cells represents a self-limiting maximum quantity that cannot be substantially exceeded regardless of the number of attempts by a user to re-use the microstructure apparatus.

Directional Coupler Sensor

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US Patent:
6854322, Feb 15, 2005
Filed:
May 21, 2003
Appl. No.:
10/442503
Inventors:
Faiz Feisal Sherman - West Chester OH, US
Vladimir Gartstein - Cincinnati OH, US
Kendal William Kerr - Okeana OH, US
Herman William Meyer - Cincinnati OH, US
Jim Allen McCurdy - Liberty Township OH, US
Assignee:
The procter & Gamble Company - Cincinnati OH
International Classification:
G01N025/56
G01R027/08
US Classification:
73 73, 324693, 324694
Abstract:
A directional coupler sensor is provided for measuring the moisture content of a substrate, such as hair. The sensor incorporates a high frequency directional coupler having a pair of generally parallel plates defining a coupling gap therebetween. A high frequency signal generator generates an electromagnetic field across the gap with the substrate placed across the coupling gap. The coupled power relates to the moisture content of the substrate. A pressure sensor is provided to ensure that the desired compactness of the substrate across the coupling gap is achieved to obtain accurate, reliable and consistent results.
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Faiz F Sherman from Mason, OH, age ~53 Get Report