UCSD | Department of Chemistry&Biochemistry -- Faculty & Research

Robert Pomeroy
The application of analytical chemistry to forensic, environmental and industrial chemistry, then bridge these experiences into the classroom. This also includes the role technology and instrumentation play in discovery and problem solving.

Contact Information

2007 LPSOE Chemistry and Biochemistry UCSD

1992-1993 United States Naval Academy Asst Prof

1993 -2007 Nova Southeastern University Prof

Office: UH 2266

Phone: (858) 822-5736

Email: rpomeroy@ucsd.edu

Group Website: http://biodiesel.ucsd.edu/baan

Education and Appointments
1990	PhD, University of Arizona Analytical Chemistry
1986	MS, California State Polytechnic University, Pomona Analytical Chemistry
1983	BA, University California San Diego Chemistry

Research Interests
Analytical Chemistry has been defined by some as the art of determining how much of what is where and in which form. In forensic science applications, I interact with a group of colleagues interested in the application of Real Time PCR to forensic analyses. This has taken the form of determining PSA in semen stains by Immuno RT-PCR, determining SNP genotype frequencies in different ethnic groups, and most recently the use of the BioTrove Open Array Platform for the analysis of a SNP panel for use in human identification. The SNP panel will not replace the STR CODIS DNA analysis, but can aid investigators in degraded samples and may provide phenotypic information about the suspect. For environmental applications I recently completed a study of biodegradability of the antimicrobial triclosan during secondary water treatment processes. I also work to develop new processes or formulations for manufacturing companies to reduce waste and recycle by-products or produce products with a lower environmental impact. These include: Use of Aluminum Phosphate as a Hardening Agent for Silicate Coatings on Quartz, Low VOC Mastic, Ultra Light Weight Thin Set, IR Reflective Decking and Stucco, Dry Formula Cement Based Paint, and Use of Psyllium Powder for Paver Mortars. I have also recently started to interact with the student organization producing biodiesel. I am participating by helping with the analysis of the biofuels they produce.
Primary Research Area:	Interdisciplinary Specialties:
Chemical Education	Atmospheric and Environmental Materials
Image Gallery:

Figure 1: BioTrove Open Array Plate - 3072 Sample wells with a total reaction volume as low as 33 nL.	Figure 2: Micrograph of a microsphere (cenosphere) embedded in a mortar matrix. A cenosphere is a lightweight, inert, hollow or porous spheres composed of silica and alumina and filled with air or nitrogen. Cenospheres are a by-product of the burning process in co

Figure 3: Student Biodiesel Project at UCSD

Selected Publications