Search

Ecevit A Bilgili

from Woodbridge, NJ
Age ~50

Ecevit Bilgili Phones & Addresses

  • 2204 Plaza Dr, Woodbridge, NJ 07095 (732) 218-5165
  • 2100 Line St, Lansdale, PA 19446 (215) 393-1815
  • Gainesville, FL
  • Chicago, IL

Work

Company: New jersey institute of technology Aug 2014 Position: Associate professor and associate chair for undergraduate study

Education

Degree: Doctorates, Doctor of Philosophy School / High School: Illinois Institute of Technology 1996 to 2001 Specialities: Chemical Engineering

Skills

Technology Transfer • Process Simulation • Chemical Engineering • Formulation • Chemistry • R&D • Pharmaceutical Industry • Characterization • Simulations • Materials Science • Matlab • Mathematical Modeling • Science • Product Development • Spectroscopy • Nanotechnology • Research • Microsoft Office • Process Engineering • Microsoft Excel • Aspen Plus • Pharmaceuticals • Rheology • Modeling • Gmp • Hplc • Differential Scanning Calorimetry • Engineering • Statistics • Scanning Electron Microscopy • Pharmaceutics • Life Sciences • Validation • Data Analysis • Tga • Lifesciences • Drug Delivery • Manufacturing • Polymers • Design of Experiments • Analysis • Uv/Vis • Optimization • Process Development • Simulation • Programming • Problem Solving • Fortran • Cgmp • Excel

Languages

Turkish • English

Interests

Civil Rights and Social Action • Politics • Education • Environment • Science and Technology • Human Rights • Health

Industries

Higher Education

Resumes

Resumes

Ecevit Bilgili Photo 1

Associate Professor And Associate Chair For Undergraduate Study

View page
Location:
San Diego, CA
Industry:
Higher Education
Work:
New Jersey Institute of Technology
Associate Professor and Associate Chair For Undergraduate Study

New Jersey Institute of Technology Aug 2009 - Jul 2014
Assistant Professor

Merck Jun 2009 - Aug 2009
Principal Development Engineer

Merck Jan 2005 - Jun 2009
Senior Development Engineer

University of Florida Aug 2001 - Jan 2005
Post-Doctoral Research Associate
Education:
Illinois Institute of Technology 1996 - 2001
Doctorates, Doctor of Philosophy, Chemical Engineering
Boğaziçi University 1991 - 1996
Bachelors, Bachelor of Science, Chemical Engineering
Skills:
Technology Transfer
Process Simulation
Chemical Engineering
Formulation
Chemistry
R&D
Pharmaceutical Industry
Characterization
Simulations
Materials Science
Matlab
Mathematical Modeling
Science
Product Development
Spectroscopy
Nanotechnology
Research
Microsoft Office
Process Engineering
Microsoft Excel
Aspen Plus
Pharmaceuticals
Rheology
Modeling
Gmp
Hplc
Differential Scanning Calorimetry
Engineering
Statistics
Scanning Electron Microscopy
Pharmaceutics
Life Sciences
Validation
Data Analysis
Tga
Lifesciences
Drug Delivery
Manufacturing
Polymers
Design of Experiments
Analysis
Uv/Vis
Optimization
Process Development
Simulation
Programming
Problem Solving
Fortran
Cgmp
Excel
Interests:
Civil Rights and Social Action
Politics
Education
Environment
Science and Technology
Human Rights
Health
Languages:
Turkish
English

Publications

Us Patents

Systems And Methods For Superdisintegrant-Based Composite Particles For Dispersion And Dissolution Of Agents

View page
US Patent:
20130295190, Nov 7, 2013
Filed:
Mar 14, 2013
Appl. No.:
13/829948
Inventors:
Ecevit Bilgili - Woodbridge NJ, US
Rajesh Dave - Princeton NJ, US
Anagha Bhakay - Harrison NJ, US
Mohammad Azad - Newark NJ, US
Assignee:
New Jersey Institute of Technology - Newark NJ
International Classification:
A61J 3/00
US Classification:
424499, 427 216, 424489, 514462, 514543, 241 16
Abstract:
The present disclosure provides improved systems and methods utilizing colloidal/ultrafine superdisintegrant-based composite particles for dispersion and/or dissolution of active pharmaceutical agents. In general, the present disclosure utilizes a surfactant-free or near surfactant-free formulation by incorporating a wet milled SDI as a dispersant in the formulation. As such, the present disclosure provides for the preparation of surfactant-free or substantially surfactant-free formulations (e.g., nano-composite micro-particle formulations) by incorporating a wet-milled superdisintegrant (SDI) as the dispersant in the formulations. The advantageous SDI particles (e.g., colloidal/ultrafine SDI particles) of the present disclosure can be used to break-up the aggregates (e.g., nanoparticle aggregates) of the active agents (e.g. poorly water-soluble drugs) in the formulations (e.g., micro-particle formulations) and enhance the recovery of the nanoparticles of active agents during aqueous re-dispersion and their dissolution rate in vitro and in vivo.

System And Method For Fabrication Of Uniform Polymer Films Containing Nano And Micro Particles Via Continuous Drying Process

View page
US Patent:
20160022599, Jan 28, 2016
Filed:
Mar 17, 2014
Appl. No.:
14/777191
Inventors:
- Newark NJ, US
Ramani Susarla - Broad View Heights OH, US
Boris Khusid - New Providence NJ, US
Anagha A. Bhakay - Philadelphia PA, US
Ecevit A. Bilgili - Woodbridge NJ, US
Fernando Muzzio - Pennington NJ, US
Assignee:
NEW JERSEY INSTITUTE OF TECHNOLOGY - Newark NJ
International Classification:
A61K 9/70
A61K 47/38
B29C 39/14
A61K 31/216
B29C 39/00
A61K 31/343
A61K 47/32
Abstract:
The present disclosure provides improved stripfilm based pharmaceutical products (e.g., for enhancing dissolution and bioavailability). More particularly, the present disclosure provides improved systems/methods for fabricating stripfilm based pharmaceutical products by utilizing higher viscosity film forming precursors and drying methods that accomplish improved/faster drying and provide improved/excellent content uniformity of active pharmaceutical agents in the stripfilm based pharmaceutical products. Exemplary systems/methods advantageously use high viscosity, bio-compatible polymeric precursors, (optional use of surface modified drug powders), and convective drying for fabrication of thin films loaded with nano and/or micro sized particles of poorly water-soluble active pharmaceutical ingredients (APIs) to achieve improved active content uniformity and very fast dissolution from poorly water soluble actives, while accomplishing fast drying during the fabrication process. The present disclosure provides for the fast drying (e.g., via low temperature forced convection) of biocompatible polymer films loaded with poorly water-soluble drug nano-particles.

Pharmaceutical Core-Shell Composite Powder And Processes For Making The Same

View page
US Patent:
20150297521, Oct 22, 2015
Filed:
Nov 8, 2013
Appl. No.:
14/441970
Inventors:
- Newark NJ, US
Rajesh Dave - Princeton NJ, US
Catharina Knieke - Ludwigshafen, DE
Ecevit A. Bilgili - Woodbridge NJ, US
Mohammed A. Azad - Harrison NJ, US
Assignee:
New Jersey Institute of Technology - Newark NJ
International Classification:
A61K 9/16
B05D 1/22
A61K 31/216
Abstract:
A composite particle including a core with at least one carrier material; a fluidizing material layer on the surface of the core; and an outer layer comprising nanoparticles of an ingestible material distributed in at least one matrix-forming material. A process of making the composite particles includes the steps of dry coating carrier particles with a fluidizing material; preparing a suspension of nanoparticles of an ingestible material distributed in a matrix-forming material; and fluid bed coating the carrier particles with the suspension. The process and products provide quick dissolving composite particles which can be used for delivery of poorly water soluble ingestible materials in suitable dosage forms. The process of the invention reduces or prevents particle agglomeration during fabrication of the composite particles to enable delivery and quick redispersion of nanoparticles of the ingestible material from a dosage form.
Ecevit A Bilgili from Woodbridge, NJ, age ~50 Get Report