NEW ENERGY MATERIALS AND DEVICES

In the era of global energy transition and sustainable development, pursuing a cutting-edge and application-driven field like New Energy Materials and Devices opens vast career opportunities and allows individuals to contribute meaningfully to a greener future. But what exactly is this major, and who is it best suited for?

Introduction to the Major

The New Energy Materials and Devices major addresses global challenges such as energy crises and environmental pollution. It is an interdisciplinary field that integrates physics, chemistry, materials science, electronics, and mechanical engineering. The focus is on developing and applying key materials and devices for the conversion and utilization of new energy sources, including solar, wind, biomass, geothermal, ocean, and hydrogen energy.

Educational Objectives

This major aims to cultivate engineering professionals who:

1. Possess strong moral character, social responsibility, and legal awareness;
2. Have a solid foundation in physics, chemistry, materials, electronics, and mechanics;
3. Master the design, manufacturing, testing, and evaluation of new energy materials and devices;
4. Demonstrate innovation, lifelong learning, and effective communication skills in interdisciplinary and international contexts.

Graduation Requirements

Graduates are expected to:

• Apply scientific and engineering principles to solve complex problems in new energy materials and devices;
• Design and evaluate materials and systems for energy applications;
• Use modern engineering tools and technologies effectively;
• Understand the societal, environmental, and ethical implications of engineering practices;
• Work collaboratively in teams and manage projects;
• Communicate effectively and pursue lifelong learning.

Core Courses

• Inorganic Chemistry
• Physical Chemistry
• Fundamentals of Materials Science
• Materials Characterization and Testing
• Electrical and Electronic Technology
• Principles of Chemical Engineering
• Supercapacitor Materials and Devices
• Lithium Battery Materials and Devices
• Principles and Technology of Solar Cells
• Innovation Laboratory for New Energy Materials and Devices
• Course Design in New Energy Materials and Devices

Research Directions

1. Photovoltaic Materials and Devices: Design and optimization of solar cell materials.
2. Energy Storage Materials and Technologies: Development of lithium batteries and supercapacitors.
3. Fuel Cells and Hydrogen Energy: Clean energy systems and materials.
4. Characterization and Performance Evaluation: Microstructural analysis and performance correlation.
5. Multifunctional Composite Materials: Advanced applications in energy systems.

Degree Awarded

Graduates are awarded a Bachelor of New Energy Materials and Devices degree.

Career Prospects

Graduates can pursue careers in:

• New energy enterprises: R&D, production, and application of materials and devices;
• Research institutes: Basic and applied research;
• Universities: Teaching and research;
• Automotive industry: Development of batteries and motors for electric vehicles;
• Electronics industry: Development of energy-related electronic components.

Related Majors

• Materials Science and Engineering
• Materials Physics
• Materials Chemistry
• Metallurgical Engineering
• Inorganic Non-metallic Materials Engineering
• Polymer Materials Engineering
• Composite Materials Engineering
• Nanomaterials and Technology
• Functional Materials
• Smart Materials and Structures
• Biomaterials
• Electronic Information Materials
• Rare Earth Materials Science and Engineering

Top Universities Offering New Energy Materials and Devices Programs in China

1. Central South University
2. Sichuan University
3. Harbin Institute of Technology
4. Wuhan University of Technology
5. University of Electronic Science and Technology of China
6. Beijing Institute of Technology
7. East China University of Science and Technology
8. Soochow University