M.S. in Chemical and Molecular Engineering

Postgraduate Entry Requirements

Academic Qualifications: Applicants for postgraduate programs typically require a minimum academic achievement of 70% or above in their bachelor's degree.

English Language Proficiency:

• IELTS: Overall band score of  6.5 with a minimum of 6.0 in each component.
• TOEFL: Overall score of 80 or higher.

Stony Brook University offers a variety of scholarship opportunities for international students, helping them manage the costs of their education. While U.S. federal financial aid is not available to international students, there are merit-based scholarships and other financial resources that can help reduce tuition fees and living expenses.

Graduate Scholarships: Graduate international students may also be eligible for various scholarships and assistantships within their academic departments. These awards are often based on academic performance, research interests, or teaching potential. Some graduate programs may offer full or partial tuition waivers, along with stipends for research or teaching assistant positions. International graduate students should check with their specific department or program for details on available scholarships and assistantships.

External Scholarships: In addition to the scholarships offered by Stony Brook University, international students are encouraged to explore external funding opportunities. Many organizations, government agencies, and private foundations offer scholarships and grants to international students who wish to study in the United States. Students can research scholarship opportunities through their home country’s government, non-profit organizations, and international scholarship programs. Some popular external scholarships include the Fulbright Program and the United Nations Scholarships.

Scholarships for Specific Countries or Regions: Stony Brook University also participates in various international partnerships and programs that offer scholarships to students from specific countries or regions. These scholarships may be designed to foster collaboration between Stony Brook and institutions abroad, with an emphasis on enhancing global relations.

Stony Brook University’s M.S. in Chemical and Molecular Engineering prepares students for a diverse range of career opportunities across multiple industries. Graduates are equipped with advanced technical knowledge, problem-solving abilities, and practical experience, making them highly competitive in fields such as pharmaceuticals, energy, biotechnology, and environmental engineering.

Chemical Engineer: Graduates with an M.S. in Chemical and Molecular Engineering can pursue roles as chemical engineers in a variety of industries, including energy, pharmaceuticals, and manufacturing. Chemical engineers design and optimize processes for producing chemicals, materials, and energy, while ensuring safety, efficiency, and sustainability in production.

Materials Scientist: With a strong foundation in molecular engineering, M.S. graduates can work as materials scientists, conducting research and developing new materials with specific properties for use in industries like electronics, healthcare, and nanotechnology. Their work often involves designing advanced polymers, biomaterials, and nanostructured materials.

Process Engineer: M.S. graduates can take on roles as process engineers, where they are responsible for designing, optimizing, and scaling up manufacturing processes in industries such as chemical production, food processing, and petrochemicals. They ensure that production processes are efficient, safe, and environmentally friendly.

Biotechnology Engineer: For those interested in applying their chemical engineering skills to healthcare, graduates can work in biotechnology, developing processes for the production of pharmaceuticals, vaccines, and biologics. Biotechnology engineers work on projects related to drug development, gene therapy, and tissue engineering.

Environmental Engineer: The M.S. in Chemical and Molecular Engineering also opens career paths in environmental engineering. Graduates can work on solutions for pollution control, waste treatment, water purification, and environmental remediation. They help industries comply with environmental regulations and develop sustainable practices.

Energy Engineer: With the increasing demand for renewable energy sources, M.S. graduates can pursue careers in energy engineering, working on the development of clean and sustainable energy solutions. This includes roles in solar, wind, and bioenergy sectors, as well as researching energy storage and energy efficiency technologies.

Research Scientist: Graduates can work as research scientists in both academic and industry settings, focusing on cutting-edge fields such as nanotechnology, chemical reaction engineering, or materials science. Their research may involve developing new chemical processes, creating innovative materials, or improving product designs.

Product Development Engineer: M.S. graduates can work in product development, applying their chemical engineering expertise to create new products or improve existing ones. This includes industries like consumer goods, electronics, or biomedical devices, where engineers work closely with design teams to translate molecular engineering principles into commercial products.

Regulatory and Quality Control Specialist: Graduates can pursue careers in regulatory affairs or quality control, ensuring that chemical products and processes meet safety and environmental standards. They work with regulatory agencies to ensure compliance with health and safety regulations, and they develop processes to monitor and improve product quality.

Academia/Teaching: With an M.S. in Chemical and Molecular Engineering, graduates can also choose to pursue teaching positions at universities or colleges. As educators, they contribute to the advancement of knowledge in the field and mentor the next generation of engineers.