Objective:

Focusing on the talents demand and development for the emerging industries in advanced manufacturing, semiconductor technology, etc.This major aims to cultivate high-quality applied science professionals with global vision, independent innovation ability, and interdisciplinary advantages forimportant national needs. The students have good humanistic quality, solid mathematical, physical and computer foundation; have theprofessional qualificationsof the design, preparation and application of advanced nano materials and devices, and adapt to the developing requirements of information, energy and environment industry, etc.

Curriculum:

The students mainly study and master the basic and engineering knowledge ofMathematics, Physics, Chemistry, Machinery, Electrical Engineering, Electronics, Computer and English. With the discipline study plan, such as, Mathematical Physics Methods in Materials Science, Solid State Physics, Quantum Mechanics, Introduction to Semiconducting Materials and Devices, Nanomaterials Characterization, Python for Scientific Computing in Materials Design, etc.

The students are enhanced to understand the internal laws between the compositions, structures and performance of nano materials, and have the scientific concept and technical abilities to improve the material performance by using nano materials and technology; by the study of the courses of Electron Microscopy and Analysis, Micro- and Nano- Mechanics, Nano Energy Materials, Nano Optoelectronic Materials, Nano Magnetoelectric Materials, Nano Ferroelectric Materials, etc., and thepractical courses, such as Experiments of Mirco- and Nano-fabrication, Experiments of Performance Research in Semiconductor Materials, Experiments of Synthesis and Preparation Methods of Nanomaterials, Experiments of Nanomaterials Characterization and Structural Analysis Methods,Comprehensive Experiments of Nanomaterials,Innovative Design of Nanomaterials and Devices, students are strengthen the practical abilities.

Further by the study of major or practical electives, such asExperiments of Nano Sensor Materials,Experiments of Nano Smart Devices, Introduction to Energy Materials and Devices, Nano Catalytic Materials, Nano Environmental Materials, Introduction to Laboratory Safety, Resource Economics, etc, as well as internship, graduation project and other comprehensive practices help students to understand the development trend, industry standards and regulations of nano materials and technology systematically, as well as their social, environmental and economic problems in engineering application, and then by using nanomaterials and technologies with scientific and objective judgments, the students can solve complex engineering problems in the fields of information, energy and environment. The courses related to nanomaterials and technology in this major are mainly taught by the teachers in the leading edge of nano field scientific research. The combination of scientific research and teaching can strengthen students' learning and innovation abilities.

Career:

Graduates have manyemployment options, in enterprises and institutions, foreign-funded enterprises and listed companies; they also can pursue studying abroad, recommending or obtaining postgraduate, double degree, master of engineering and other ways for further study. A complete program system for undergraduate, master's and doctor's graduate training, which enrolls more than 200 master's and 50 doctor's graduate students every year, providing a broad development space for undergraduate's study and further study. Graduates are mainly employed in information, energy, environment, biology, medicine, aerospace, national security and other industries. They are engaged in the design, preparation and application of nano materials and technical management.