约翰霍普金斯大学材料科学与工程硕士专业 告诉你小材料也有大用途!
材料、信息、能源已被列为国家经济的三大支柱,材料更是社会进步的物质基础和先导,从而各个行业对材料科学工程师的需求量与日俱增,为了顺应时代的需求,这不约翰霍普金斯大学就开设了材料科学与工程硕士专业,下面,就随小编来深入了解这门学科,希望对大家有所帮助:
Materials Science and Engineering, Master of Materials Science and Engineering
本学位课程的学生可按要求集中学习纳米技术,或选择选修课程,集中研究生物技术或纳米材料等领域。然而,集中或重点领域的项目不是必需的。学生可以通过选修材料科学与工程课程以及其他工程专业课程的材料相关课程来满足学位要求。
课程设置:
Core Courses
EN.515.601 Structure and Properties of Materials
EN.515.602 Thermodynamics and Kinetics of Materials
Concentrations and Focus Areas
A Concentration or Focus Area can be selected
Courses by Concentration
NANOTECHNOLOGY
EN.515.601 Structure and Properties of Materials
EN.515.602 Thermodynamics and Kinetics of Materials
EN.515.616 Introduction To Nanotechnology
EN.515.617 Nanomaterials
NANOMATERIALS
EN.510/EN.515.621 Biomolecular Materials I - Soluble Proteins and Amphiphiles 1
EN.510/EN.515.622 Micro and Nano Structured Materials & Devices 1
EN.510.427 Chemistry of Nanomaterials 1
EN.515.615 Physical Properties of Materials
EN.515.636 Chemical Synthesis and Processing of Advanced Materials
EN.515.654 Introduction to Micro- and Nano-fabrication
EN.515.730 Materials Science and Engineering Project
EN.515.731 Materials Science and Engineering Project
EN.525.606 Electronic Materials
EN.525.621 Introduction to Electronics and the Solid State
EN.530.445 Introduction to Biomechanics 2
EN.530.603 Applied Optimal Control 2
EN.540.403 Colloids and Nanoparticles 3
EN.540.415 Interfacial Science with Applications to Nanoscale Systems 3
EN.585.710 Biochemical Sensors
EN.615.641 Mathematical Methods for Physics and Engineering
EN.615.665 Modern Physics
EN.615.746 Nanoelectronics:Physics,Devices
EN.615.747 Sensors and Sensor Systems
EN.615.757 Solid State Physics
EN.615.760 Physics of Semiconductor Devices
EN.615.780 Optical Detectors & Applications
BIOTECHNOLOGY
EN.510.606 Polymer Chemistry & Biology 1
EN.515.608 Biomaterials II: Host Response and Biomaterials Applications
EN.515.730 Materials Science and Engineering Project
EN.515.731 Materials Science and Engineering Project
EN.530.445 Introduction to Biomechanics 2
EN.535.663 Biosolid Mechanics
EN.535.684 Modern Polymeric Materials
EN.540.428 Supramolecular Materials and Nanomedicine 3
EN.580.442 Tissue Engineering 4
EN.580.641 Cellular Engineering 4
EN.585.601 Physiology for Applied Biomedical Engineering I
EN.585.602 Physiology for Applied Biomedical Engineering II
EN.585.613 Medical Sensors & Devices
EN.585.615 Mathematical Methods
EN.585.708 Biomaterials
EN.585.709 Biomechanics of Cells and Stem Cells
EN.585.710 Biochemical Sensors
EN.585.729 Cell and Tissue Engineering
EN.585.734 Biophotonics
EN.615.681 Polymeric Materials 3
Other Electives
EN.515.603 Materials Characterization
EN.515.605 Electrical, Optical and Magnetic Properties
EN.515.615 Physical Properties of Materials
EN.515.617 Nanomaterials
EN.515.621 Nanoparticles
EN.515.634 Fundamentals of Metamaterials
EN.515.635 Mechanical Properties of Materials
EN.515.636 Chemical Synthesis and Processing of Advanced Materials
EN.515.640 Stealth Science and Engineering
EN.515.655 Metal Additive Manufacturing
EN.515.658 Design for Additive Manufacturing
EN.515.730/731 Materials Science and Engineering Project
EN.525.691 Fundamentals of Photonics
EN.535.606 Advanced Strength Of Materials
EN.535.635 Introduction to Mechatronics
EN.535.731 Engineering Materials: Properties and Selection
EN.615.680 Materials Science
EN.615.780 Optical Detectors & Applications
入学要求:
申请人必须满足研究生学习入学的一般要求,如入学要求部分所述。申请人之前的教育必须包括线性代数和/或微分方程的数学序列,以及普通物理和化学课程。本课程最适合已获得工程或科学相关领域本科学位的申请人。申请人之前的教育不包括所列的先决条件,仍然可以在临时状态下注册,然后一旦他们完成了缺失的先决条件,完全录取状态。缺少的先决条件可以在约翰霍普金斯大学或其他地区认可的机构完成。申请人在本科后半部分的学习中,平均成绩至少为3.0(满分为4.0)(B级或以上)。必须提交所有大学学习的成绩单。职业成就可以通过在申请中附上résumé以及来自申请人工作单位的推荐信来体现,但这些信息是可选的。在审查申请时,申请人的学术和专业背景(如果已提交)将被考虑。
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