The Master of Philosophy (MPhil) in Chemical Engineering at the University of Cambridge offers a rigorous and comprehensive postgraduate program designed to develop advanced knowledge and research skills in the field of chemical engineering. This program is ideal for students who wish to deepen their understanding of complex chemical processes, thermodynamics, reaction engineering, process design, and materials science, preparing them for careers in industry, research, or academia. The curriculum combines taught modules, laboratory work, and a substantial research project, allowing students to explore specialized areas such as sustainable energy, environmentally friendly process design, and nanotechnology. With access to state-of-the-art facilities, experienced faculty, and a vibrant research community, students are encouraged to develop innovative solutions to real-world challenges through experimental and theoretical investigations. The program emphasizes critical thinking, data analysis, and scientific communication, equipping graduates with the skills needed for leadership roles in the chemical engineering sector. Throughout the course, students also have opportunities to collaborate with industry partners, attend seminars, and present their research findings at conferences. The MPhil in Chemical Engineering at Cambridge is a prestigious qualification that combines rigorous academic training with practical research experience, fostering the next generation of innovators and pioneers in the field of chemical engineering.

Our PhD program is purely research-based with no taught components/lectures.  Some academics will ask their PhD students to attend some lectures that are relevant to the research, but in such cases, the student does not undertake any of the assigned coursework or exams.

Placements

Depending upon the project, funding, and collaborators, students may have the opportunity to spend time in industrial laboratories of project partners.

Feedback

 In most cases, students could expect at least four supervisions per full term across the duration of their course.   Each student’s supervisor will provide a supervision report each term.

Assessment

Thesis

After completing 3 years (9 terms) but no longer than 4 years, a PhD student must submit his/her thesis of up to 65,000 words.  The thesis will be orally examined by two examiners, one who is internal and a second who external to the University.

Essays

All 1st Year PhD (Probationary) students complete a literature review and compile their findings in a short report that is submitted 3 months after the start of their PhD.

Approximately 9 months into the course, all 1st Year students present their work to the Department during our 1st Year Presentations. These are usually held April-May, and attendance at all sessions is compulsory.

Near the end of the 1st Year, all students submit a first year report and are assessed orally.  If successful, the student will then be fully registered for the PhD.

• Magistr (Master's Degree) at Pass level. Diploma Specialista (completed post-1991) with a minimum overall grade of good or 4/5 Bachelor's from Moscow Institute of Physics and Technology and other prestigious institutions with an overall grade of 4/5 Bologna Bachelor's from other institutions with an overall grade of 5/5, Excellent
• Diploma Specialista (completed post-1991) with a minimum overall grade of Excellent or 5/5 Bachelor's from Moscow Institute of Physics and Technology and other prestigious institutions with an overall grade of 5/5
• IELTS (Academic) 7.0
• TOEFL Internet Score 100
• £50 application fee
• First Academic Reference
• Second Academic Reference
• Transcript
• CV/Resumé
• Personal Reference

The University of Cambridge offers various funding options for students pursuing a degree in Chemical Engineering. These include undergraduate and postgraduate scholarships, bursaries, and loans designed to assist students in managing their financial commitments during their course. For undergraduate students, the Cambridge Commonwealth, European & International Trust provides a range of scholarships based on academic excellence, leadership qualities, and financial need. The Gates Cambridge Scholarships are highly prestigious awards that cover full tuition fees, a living allowance, and additional personal development funds for scientifically outstanding applicants from outside the UK. Additionally, other departmental scholarships may be available, awarded for academic merit or specific research interests within chemical engineering.

Postgraduate students enrolled on the MPhil or PhD programmes in Chemical Engineering can access funding through a combination of departmental awards, research council grants, and external sponsorships. The Engineering and Physical Sciences Research Council (EPSRC) provides substantial funding opportunities for doctoral research in engineering disciplines, including chemical engineering, typically covering tuition fees and providing a stipend for living expenses. In addition, departmental scholarships are available for postgraduate research students, often awarded based on academic performance and research proposal quality.

Students are also encouraged to explore external funding sources such as national and international scholarships, government grants, and industry sponsorships. For those who require financial support, the University of Cambridge offers access to UK student loans, which can cover tuition fees and living costs, subject to eligibility. It is advisable to consult the university’s official website for the most current information on available funding options, application deadlines, and eligibility criteria. Prospective students are encouraged to apply early and consider multiple funding sources to fully finance their studies at Cambridge.

The Chemical Engineering program at the University of Cambridge is a highly regarded undergraduate course that combines rigorous scientific principles with practical engineering skills. It is designed to equip students with a comprehensive understanding of chemical processes, materials, and energy transformations, preparing them for careers in industries such as pharmaceuticals, energy, environmental management, and manufacturing. The program emphasizes a strong foundation in chemistry, physics, and mathematics, complemented by specialized modules in chemical process engineering, thermodynamics, reactor design, and process control. Students benefit from the university's state-of-the-art laboratories and research facilities, allowing them to gain hands-on experience through laboratory work, projects, and industrial placements. The teaching approach at Cambridge encourages critical thinking, problem-solving, and innovation, with small group tutorials and close supervision from expert academic staff. The course structure typically spans four years, with options for part-time study or industrial placements embedded in the curriculum. Graduates of the program often proceed to careers in research and development, process engineering, environmental consultancy, or pursue further studies such as PhDs. The university's vibrant academic community and global network provide students with numerous opportunities for collaboration, internships, and conferences, fostering a rich educational experience. Entry requirements generally include strong academic achievements in mathematics and sciences, along with proficiency in English. Overall, the Chemical Engineering program at Cambridge offers an excellent pathway for students aspiring to lead technological and scientific advances within the chemical industry.