The Department of Chemistry and Biomolecular Engineering has been ranked in the top 25 in the United States for many times, and its students' passing rate of FE engineering examination is as high as 99%, far exceeding the national average. The completion rate of doctoral studies is 85%, which is much higher than the national average (about 60%). The faculty of this department has won many international and domestic research and teaching awards. Among them, three people have entered the National Academy of Engineering.
So, what's the use of getting a degree in chemistry and biomolecular engineering from Notre Dame University? Very useful. Graduates from the Department of Chemistry and Biomolecular Engineering of the University of Notre Dame entered the energy and chemical industries and served as technical directors and executives in important enterprises. Graduates help design and manufacture computer chips, medical equipment, medicines and consumer goods. Others become doctors, lawyers, teachers, consultants and soldiers.
A degree in chemistry and biomolecular engineering from Notre Dame University will help you solve various problems, express clearly and think carefully. In short, it helps to meet any challenge you can think of.
1. Undergraduate course
At the undergraduate level, Notre Dame University only offers bachelor of science degrees in chemical engineering in chemistry and biomolecular engineering. However, we can choose one from the three directions of biomolecular engineering, materials and energy for in-depth research.
At least four courses are required in all directions. Every direction is open to undergraduates majoring in chemical engineering, and the degree requirements are not raised.
On the basis of meeting the minimum requirements, additional courses in all directions are allowed. Departmental elective courses have special access requirements or additional preconditions. Therefore, please ensure that these prerequisites are met before taking this course.
2. Graduate students
The Department of Chemistry and Biomolecular Engineering requires graduate applicants to hold a Master of Science degree in chemical engineering or a degree in related fields awarded by a program that meets the requirements of ABET certification. You must go to school in the first two semesters. During this period, students who have obtained the degree of chemical engineering will study the main fields of chemical engineering, complete 2 credits of seminar study and additional credits of thesis research.
At the end of the first year, written and oral reports should be submitted according to the research of the paper. These reports, together with the performance of the course and the teaching assistants, constitute a "comprehensive evaluation", which gives students the opportunity to continue their studies and work hard for the degree goal.
Master of Science in Chemical Engineering
Master of Science in Chemical Engineering (thesis option) occupies 65,438+05 credits (5 courses) with a grade point of not less than 3.0. Thesis research and seminars account for 15 credits. The research results are presented in the form of master's thesis and defended in the final defense.
Full-time students with chemical engineering background can generally complete these requirements within 16-24 months.
Doctor of chemical engineering
Course work, doctoral student in chemical engineering, accounting for 24 credits, with a grade point of not less than 3.25. Thesis research and seminars account for 36 credits. Students with a Master of Science degree (obtained from an accredited graduate institution within five years before admission) can get 24 credits. Transfer credits must meet the requirements of the Department of Chemistry and Biomolecular Engineering for assignment and grade points. The 12 credits obtained from the master of science degree can meet the requirements of the course work of the doctor of chemical engineering at most.
You must pass the doctoral candidate exam to become a doctoral candidate. The doctoral candidate examination is held in the fifth semester, and students are required to submit papers and research to the faculty Committee in written and oral form. After entering the candidate stage, students will focus on thesis research. The research results are presented in the form of doctoral thesis and defended in front of the faculty Committee.
Judging from the situation in recent years, Li Xue and the person with a bachelor's degree in chemical engineering can complete their doctorate in chemical engineering in four to four and a half years. Neither the Master of Science nor the Doctor of Science in the Department of Chemistry and Biomolecular Engineering of Notre Dame University has any foreign language requirements.