Keystone logo
South Dakota - School of Mines and Technology PhD in Chemical and Biological Engineering
South Dakota - School of Mines and Technology

PhD in Chemical and Biological Engineering

Rapid City, USA

4 Years

English

Full time

Request application deadline

Jan 2025

Request tuition fees

On-Campus

Introduction

Our department's research environment is vibrant and growing, and holds more promise with the recently-formed PhD program in chemical and biological engineering. This program is different from the majority of chemical and biological/biomolecular engineering (i.e., CBE) departments across the country. Generally, CBE departments require PhD students to take the core chemical engineering graduate courses for their degree, and provide elective courses in biology, microbiology, biotechnology, etc., to supplement the training of students focusing on biological-related dissertations.

In our program, students are required to take both chemical engineering and biology/biological engineering graduate courses to fulfill their degree requirement. At a minimum, students will take two courses from the following biological engineering topics: biochemical engineering, industrial microbiology and biotechnology, metabolic engineering, biocatalysis, bioseparations, and molecular biology. This structure ensures that graduates have the foundation and skill set to be proficient as both a chemical and biological engineers.

In 2008, the department was awarded status as the lead site for a National Science Foundation Industrial/University Cooperative Research Center (NSF I/UCRC), formally titled the Center for BioEnergy Research and Development (CBERD). Furthermore, the biological-research component of our department has received a significant boost from another NSF/DOE funded center – the Sanford Underground Research Facility (SURF) – in Lead, South Dakota, approximately 50 miles from campus. In the area of polymers and materials, department researchers take advantage of the school’s Composite and Polymer Engineering Laboratory (CAPE), a 9,500-plus-square-foot facility for advanced research and development of polymer and composite processing, prototyping, and tooling. Current research activity covers a range of areas, including bioenergy, biofuels, polymers/nanocomposites, combustion synthesis of ceramic and intermetallic powders, biochemical engineering and bioseparations, bioremediation and extremophiles, nano-structured materials, catalysis and reaction engineering, and molecular modeling. Current funding in the department exceeds $1M per year, with an average level of support of more than $200K/faculty.

Admissions

Scholarships and Funding

Program Tuition Fee

English Language Requirements

Certify your English proficiency with PTE. The faster, fairer, simpler English test, accepted by thousands of universities around the world. PTE, Do it worry-free!

About the School

Questions