36 PhD Programmes in Chemical Engineering 2024

Bioengineering is a multidisciplinary field that weaves together knowledge of biology, physics, chemistry, and engineering to create cutting-edge tools for the study of biology or the practice of medicine. This rapidly growing field provides a new level of understanding of biological systems, ranging from the molecular scale to entire organisms, by applying engineering-based analytical and experimental approaches.

The Doctor of Chemical Engineering (D.Sc) helps students become independent researchers with the ability to apply chemical engineering principles as well as advanced analytical and experimental techniques to conduct original research. Chemical engineering principles include transport phenomena, chemical reaction engineering, thermodynamics, and applied mathematics, and transport phenomena.

The dissertation work involved in obtaining a Ph.D. in chemical engineering provides opportunities to obtain the skills necessary to define, formulate and solve novel problems and to make a significant contribution to the field.

OSU's Doctorate of Philosophy in Chemical engineering is a discipline focused on conceiving and designing processes to produce, transform and transport materials-beginning with experimentation in the laboratory followed by implementation of the technology.

Graduate work in chemical and biomolecular engineering provides an opportunity for students to further their studies and research. Our graduate program uses cutting edge tools, and resources so that we can contribute to shaping new methodologies for chemical and biomolecular engineering research. We help provide coursework and guided research for the M.S. and Ph.D. students. This exposure allows students to have core principles augmented that students receive as undergraduates. Their research gives unparalleled experience in problem solving, a key component to challenging issues of today for a better tomorrow.

The biomedical and chemical engineering Ph.D. program provides you with the knowledge, training, and expertise to tackle important problems in the industry, academia, government, and health care. In the biomedical and chemical engineering Ph.D. program, you will complete a number of classes in your first two years of study, including foundational courses with other engineering doctorate students, discipline-specific courses within biomedical and chemical engineering, and elective courses you select with your research advisor. You will complete a research thesis project with your faculty advisor in their lab and may have the opportunity to complete a complementary industrial co-op or internship. You will graduate from the program as a highly skilled researcher who is well-positioned to be a leader in the next generation of engineers who will help tackle the challenging and complex problems facing our society.

Doctoral study program Chemical metallurgy is a modern scientifically oriented, multidisciplinary and interdisciplinary research program. The study is mainly oriented on the chemical aspects of preparation, extraction and recycling of metallic materials and the characterization of these materials. Furthermore, the study program is focused on the study of other inorganic materials in the solid and liquid phases. The processes of metals extracting from primary and secondary raw materials, the study of ferrous and non-ferrous alloys and also ecological aspects of metallurgical production impact on the environmenareis studied. The doctoral study program is focused on aspects of industrial technologies arising mainly from a chemical-physical basis and on the properties study of inorganic materials for the broad application areas. This study program brings up top-quality specialists with creative inventiveness and with the use in the labour market in scientific, research, development, management and production spheres in given and related branches.

The primary aim of our doctoral school is to train scientists who can continue their creative scientific work related to leading fields of chemical engineering and material sciences after finishing their PhD studies. The doctoral school was established on January 1, 2001 as the highest level of chemical engineering education at University of Pannonia. Since then, more than 100 students have earned the PhD degree in our doctoral school.

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.

Doctoral studies in Chemical engineering are a traditional, research-based, usually four-year, doctoral degree program, which provides: a thorough grounding in the fundamental principles of chemical engineering, as well as an intensive research experience; a mentoring-intensive environment with co-supervision flexibility, allowing students to work with the outstanding Lithuanian scientist of their field; and others.

The Doctoral Program in Chemical Engineering aims to train specialists of the highest level in Chemical Engineering and its specialties or branches, through the development of:

A joint postgraduate program in Nanoscience and Technology, initiated by the Schools of Science and Engineering, can offer long-term support to our ongoing research and training as well as to the development of technology and to commercialization efforts. The Ph.D. program aims to instil in students the skills needed to identify research issues in Chemical Engineering, formulate an original research plan, and develop creative and innovative solutions that address the research issue.

The department offers a curriculum with a broad spectrum of courses, uniquely merging the core chemical engineering training with the fundamental knowledge of materials science/engineering and further strengthened with the in-depth studies on emerging research and industrial fields.