东莞理工学院材料与化工硕士专业学位点，专业代码085600，为全日制专业学位硕士点，面向国际学生招生。本学位点立足材料科学与化学工程交叉融合发展趋势，聚焦新材料、新能源、绿色低碳、先进制造、电子信息和资源循环利用等领域，培养具有扎实专业基础、工程实践能力、创新意识、跨文化沟通能力和国际视野的高层次应用型工程技术人才。

本学位点位于粤港澳大湾区重要制造业城市东莞，依托学校材料科学与工程、化学工程与技术等学科基础，以及区域先进制造产业体系和开放创新环境，为学生开展科研训练、工程实践和产业应用研究提供良好条件。

本专业围绕材料结构设计、制备加工、性能调控、工艺优化和工程应用等核心问题，支持学生在能源材料与器件、绿色催化与环境治理、先进金属与轻量化材料、电子信息功能材料、热管理与封装材料、数据驱动材料设计、资源循环利用和增材制造等方向开展应用研究与工程技术创新。

学位点拥有具有科研基础、工程经验和国际化视野的导师队伍，建有材料表征、性能测试、工艺开发、器件验证和工程应用相关实验平台，可支撑国际研究生完成科研训练、专业实践和学位论文研究。

本专业学制两年，培养过程注重国际前沿、工程应用和真实问题导向，提升学生实验设计、数据分析、工艺开发、项目管理和成果转化能力。

课程体系包括平台核心课程、方向模块课程和实践创新课程。核心课程主要包括材料与化工现代研究方法、材料与化工传输原理、材料结构与性能、材料制备与加工等；方向课程涵盖能源材料与电化学、纳米材料与功能材料、计算材料与人工智能等。学生完成培养方案规定要求并符合学位授予条件后，可获得硕士研究生毕业证书和硕士专业学位证书。毕业生可在新材料、新能源、电子信息、先进制造、绿色化工、节能环保和资源循环利用等领域，从事技术研发、工艺设计、产品开发、工程管理、质量控制和成果转化等工作。

The Professional Master’s Degree Program in Materials and Chemical Engineering at Dongguan University of Technology, with the program code 085600, is a full-time professional master’s degree program open to international students. Aligned with the trend of interdisciplinary integration between materials science and chemical engineering, the program focuses on fields such as advanced materials, new energy, green and low-carbon technologies, advanced manufacturing, electronic information, and resource recycling. It aims to cultivate high-level, application-oriented engineering and technical professionals with a solid disciplinary foundation, strong engineering practice capabilities, innovative awareness, cross-cultural communication skills, and an international perspective.

Located in Dongguan, an important manufacturing city in the Guangdong-Hong Kong-Macao Greater Bay Area, the program is supported by the university’s disciplinary strengths in Materials Science and Engineering, Chemical Engineering and Technology, as well as the region’s advanced manufacturing industrial system and open innovation environment. These advantages provide favorable conditions for students to engage in scientific research training, engineering practice, and industry-oriented applied research.

The program addresses core issues in materials structure design, preparation and processing, performance regulation, process optimization, and engineering application. It supports students in conducting applied research and engineering technological innovation in areas including energy materials and devices, green catalysis and environmental governance, advanced metals and lightweight materials, functional materials for electronic information, thermal management and packaging materials, data-driven materials design, resource recycling, and additive manufacturing.

The program has a team of supervisors with solid research foundations, engineering experience, and international perspectives. It is equipped with experimental platforms for materials characterization, performance testing, process development, device verification, and engineering applications, providing strong support for international graduate students to complete research training, professional practice, and thesis research.

The program has a duration of two years and adopts a supervisor-group training model. The training process emphasizes international academic frontiers, engineering applications, and real-world problem orientation. It aims to enhancing students’ capabilities in experimental design, data analysis, process development, project management, and achievement transformation.

The curriculum consists of foundational core courses, specialized module courses, and practice-oriented innovation courses. Core courses mainly include Modern Research Methods in Materials and Chemical Engineering, Transport Principles in Materials and Chemical Engineering, Materials Structure and Properties, and Materials Preparation and Processing. Specialized courses cover areas such as energy materials and electrochemistry, nanomaterials and functional materials, computational materials science, and artificial intelligence.

Upon fulfilling the requirements stipulated in the training program and meeting the conditions for degree conferment, students will be awarded a master’s graduate diploma and a professional master’s degree certificate. Graduates may pursue careers in fields such as advanced materials, new energy, electronic information, advanced manufacturing, green chemical engineering, energy conservation and environmental protection, and resource recycling. They may engage in technology research and development, process design, product development, engineering management, quality control, and achievement transformation.