GC
Unit: School of Engineering and Applied Science
Department: Department of Chemical Engineering
Office location and address
385 McCormick Rd
Charlottesville,
Virginia
22903
Publications
Sponsored Awards
Characterization of Core-Shell Chromatography Media for Vaccine Purification
Source: Merck & Co Inc
June 02, 2020 – June 02, 2022
Competitive Binding & Resolution of Native & Deamidated Monoclonal Antibodies
Source: Medimmune Inc.
January 01, 2018 – December 31, 2021
EN-CHE Characterization of Chromatography Media for Protein Separations
Source: Bio-Rad Laboratories Inc.
September 01, 2015 – August 31, 2021
Protein Aggregation Effects on Resin Fouling in the Chromatographic Purification of Monoclonal Antibodies
Source: Pfizer Pharmaceutical Labs.
May 09, 2011 – January 31, 2020
Development of a General Strategy for Removal of Clipped Species in Probody Programs
Source: Bristol-Myers Squibb Company
July 01, 2017 – June 30, 2018
Understanding the Chromatographic Processing of Recombinant HPV Vaccine
Source: Merck Sharp & Dohme Corp.
April 30, 2012 – December 31, 2017
Competitive Binding & Resolution of Native & Deamidated Monoclonal Antibodies
Source: Medimmune Inc.
April 01, 2008 – March 31, 2017
Integrated Program of Conformational Effects in Protein Chromatography
Source: U.S. NSF - Directorate For Engineering
September 01, 2011 – August 31, 2016
EN-CHE Characterization of Chromatography Media for Protein Separations
Source: Bio-Rad Laboratories Inc.
September 01, 2013 – August 31, 2015
Characterization of Chromatography Media for Protein Separations
Source: Bio-Rad Laboratories Inc.
September 01, 2011 – August 31, 2014
Nanoscopic Understanding of Protein Transport and Structure Dynamics in Charged Gels for Protein Chromatography
Source: U.S. NSF - Directorate For Engineering
August 15, 2010 – July 31, 2014
International Travel: AIChE-SCEJ Co-sponsored Symposium on Biorecognition and Transport
Source: U.S. NSF - Directorate For Engineering
March 01, 2012 – February 28, 2013
Courses
Credits: 4
Fundamental concepts of heat and mass transfer; applications of these concepts and material and energy conservation calculations for design of heat exchanger and packed absorption/stripping columns. Four lecture hours. Prerequisites: CHE 2216, 3316, 3321.
Credits: 3
Principles of bioseparations engineering, including specialized unit operations not normally covered in regular chemical engineering courses. Processing operations downstream of the initial manufacture of biotechnology products, including product recovery, separations, purification, and ancillary operations such as sterile processing, clean-in place and regulatory aspects. Three lecture hours. Prerequisite: CHE 3322 or instructor permission.
Credits: 1–3
Library and laboratory study of an engineering or manufacturing problem conducted in close consultation with a departmental faculty member, often including the design, construction, and operation of laboratory scale equipment. Requires progress reports and a comprehensive written report. Prerequisite: Instructor permission.
Credits: 3
Principles of bioseparations engineering including specialized unit operations not normally covered in regular chemical engineering courses. Processing operations downstream of the initial manufacture of biotechnology products, including product recovery, separations, purification, and ancillary operations such as sterile processing, clean-in place and regulatory aspects. Bioprocess integration and design aspects. Prerequisite: Instructor permission.
Credits: 1–12
Formal record of student commitment to master's thesis research under the guidance of a faculty advisor. Registration may be repeated as necessary.
Credits: 1–12
Formal record of student commitment to doctoral research under the guidance of a faculty advisor. Registration may be repeated as necessary.