[{"data":1,"prerenderedAt":30},["ShallowReactive",2],{"program-mphil-in-advanced-materials-85729":3},{"id":4,"name":5,"program":6,"department":7,"degree":8,"code":9,"gpa":10,"materials":10,"gre":10,"gmat":10,"ielts":10,"toefl":10,"studyMode":11,"years":12,"unit":13,"tuition":10,"startDate":14,"deadlineDate":15,"description":16,"add01Html":10,"universityId":17,"subjectAreaCode":8,"subjectAreaName":18,"subjectCode":19,"subjectName":20,"qsRank":21,"usNewsRank":21,"timesRank":21,"shanghaiRank":21,"dstatus":11,"createdTime":22,"updatedTime":23,"universityName":24,"unEnglishName":25,"unAbbreviation":26,"unQsRank":27,"unCode":28,"unCity":10,"universityCode":10,"countryCode":29},85729,"能源转型先进材料哲学硕士","MPhil in Advanced Materials for the Energy Transition","Department of Materials Science and Metallurgy","2","mphil-in-advanced-materials-85729",null,1,"0.9","CNY","2025-09-03 00:00:00","2026-05-14 00:00:00","这个为期11个月的能源转型先进材料哲学硕士项目旨在招收具有科学或工程学科（物理学、化学、材料科学、工程学、化学工程）本科学位的学生，并对他们进行材料生长、表征、器件设计以及相关技术和工具集的培训，以理解、开发和部署下一代基于材料的节能技术，取代化石燃料。这将有助于实现英国到2050年净零碳排放的目标。课程中涉及的各种主题将使学生为快速增长的零碳能源领域的长期职业生涯做好准备，该领域需要对灵活敏捷的能源材料和系统有广泛的知识，以提供安全和可持续的全球能源格局。该课程的使命是“培养学生成为学术界和工业界的领导者，以应对能源材料科学和应用中的重大挑战，从而实现社会脱碳”。该课程提供多学科的能源材料方法，使毕业生能够很好地在雇主需求旺盛的各种能源相关领域工作。在这一年中，学生将在剑桥大学所有相关研究领域的专家以及能源行业的领导者的指导下，进行讲座、实践和研究项目。该课程包含不同的教育和社会目标，并响应日益增长的：对高素质科学家设计和开发新一代节能技术的需求；社会对用零碳技术取代燃料技术的需求；以及跨学科专业知识在更好地应对现代社会面临的复杂挑战方面的重要性。本课程的目标是为学生提供：在所有科学领域（新材料的生长和表征）的深入知识；在器件设计方面开发新技术的知识和实践经验；以及对这些新技术广泛工业应用的认识。",2262,"工程与技术","405","材料科学",0,"2025-11-14 18:56:04","2026-02-05 13:45:15","剑桥大学","University of Cambridge","CAM","0","cam","gb",1772699328842]