標題
✕Educational Objectives
Undergraduate
- 1
Foundational Knowledge
Possess fundamental scientific knowledge and core expertise in chemical and materials engineering. - 2
Core Competency Training
Train students in information synthesis, logical thinking, linguistic expression, and problem-solving skills. - 3
Holistic Development
Cultivate students' humanistic literacy, teamwork capabilities, and leadership qualities.
Master's Program
- 1
Professional Depth & Breadth
Master specialized and advanced knowledge in chemical and materials engineering topics and stay current with global research trends. - 2
Independent Research
Possess the ability for independent thinking, systematic planning, analysis, and reporting of research outcomes. - 3
Integration & Problem Solving
Demonstrate professional skills in communication, integration, and solving complex engineering problems.
Ph.D. Program
- 1
Innovation & Foresight
Master advanced expertise in specific fields, keep pace with international research, and demonstrate innovative capabilities. - 2
International Publication
Possess the ability for independent research planning and publishing papers in international journals. - 3
Leadership & Integration
Possess the ability to communicate, integrate resources, and lead research initiatives.
Teaching Features
Next-Generation Engineers with Interdisciplinary Thinking
Our undergraduate curriculum integrates knowledge from both Chemical Engineering and Materials Engineering. It trains students in the design, planning, and optimization of industrial processes, while offering elective courses in cutting-edge fields such as nanotechnology, polymers, biotechnology, optoelectronics, and energy.
The graduate programs delve deeper into core specialized knowledge, actively fostering independent thinking and professional ethics to cultivate a new generation of engineers with global and interdisciplinary perspectives.
