The post Bachelor in Semiconductor and IC Technology appeared first on University of Science and Technology of Hanoi.
]]>1. INTRODUCTION
The Bachelor’s program in Semiconductor and IC Technology at Goodd889 cá cược trực tuyến offers a strong foundation in knowledge and skills for designing, manufacturing, packaging, and testing integrated semiconductor circuits. It prepares students for multidisciplinary and multi-sector careers in areas such as automation, telecommunications, information technology, circuit design, semiconductor manufacturing, smart electronic devices, and beyond.
2. PROGRAM
The training program in English is based on an interdisciplinary approach that integrates Mathematics, Physics, Electronics, Material Science, and Data Science. The curriculum is designed to keep pace with the latest trends in the semiconductor industry, fostering creative thinking through a blend of theory and hands-on practice in state-of-the-art laboratories and field trips to companies. In addition, students are equipped with soft skills such as communication, teamwork, analysis, information organization, and critical thinking, enabling them to swiftly adapt and excel in an international work environment. The program also offers numerous domestic and international internship opportunities, especially in France and Europe, thereby enriching students’ practical experience and global exposure.
The Bachelor’s Program in Semiconductor and IC Technology includes 1 foundation year and 2 years of specialization with 180 credits.
| Year | Subject | Number of ECTS | Subject | Number of ECTS | Total of ECTS |
| Foundation | English | 8 | Common scientific courses | 38 | 60 |
| Science Management | 2 | Oriented scientific courses | 12 | ||
| Second year | French | 8 | Semiconductor and electronic materials | 4 | 60 |
| Mathematics for Physics | 3 | Sensing and measurement technology | 4 | ||
| Solid-state physics | 3 | Embedded system | 3 | ||
| Electrical Engineering | 3 | Practical Electronics 1 | 3 | ||
| Statistical Mechanics | 4 | Practical Electronics 2 | 3 | ||
| Analog Electronics | 3 | Introduction of Microelectronic Engineering and Nanotechnology | 3 | ||
| Digital Electronics | 3 | Signals and Systems | 0 | ||
| Electronic Devices | 3 | Micro and Nanofabrication | 3 | ||
| Microprocessor and Microcontroller | 3 | Philosophy | 3 | ||
| Môn tự chọn ( 1 trong 2 môn) | |||||
| Basic Principle of Project management | 2 | Intellectual Property Management | 2 | ||
| Third year | French | 7 | Practical Electrical Instruments | 3 | 60 |
| Practical on microprocessor and microcontroller | 4 | Semiconductor process (manufacturing) technology | 3 | ||
| Digital Signal Processing | 3 | Group project | 6 | ||
| Internship (3 months) | 15 | ||||
| Optional module (choose 1 out of 3) | |||||
| Module 1: Design | |||||
| Analog integrated microsystem design | 3 | Industrial Communication Network and IoT | 3 | ||
| Digital integrated microsystem design | 3 | Advanced Digital Design and FPGA Based Design | 3 | ||
| Module 2: Nano and Micro-technology | |||||
| Thin films Technology | 3 | Advanced Materials and MEMs devices | 3 | ||
| Clean Room Training | 3 | Vacuum technology | 3 | ||
| Module 3: Packaging and Quality control | |||||
| Advanced technique for quality Control | 3 | Fundamental of Microelectronic packaging | 3 | ||
| Integrated Computing | 3 | Design for Test (DFT) | 3 | ||
| Optional courses (choose 2 scientific courses, 1 soft skill course) | |||||
| Plasma Physics and Applications | 3 | Simulations for microelectronic devices | 3 | ||
| Materials Characterization Techniques 2 | 3 | Silicon Photonics | 3 | ||
| Object Oriented Programming | 3 | EM field for microelectronics | 3 | ||
| Materials for energy conversion and storage | 3 | Fundamental of Non-Volatile Memory | 3 | ||
| Optoelectronics and nanophotonics | 3 | Phương pháp viết bài báo khoa học | 2 | ||
| Application Programming | 3 | Khởi nghiệp | 2 | ||
3. JOB OPPORTUNITIES
- Integrated Circuits (ICs) design specialists, focusing on product research and development at domestic and international semiconductor chip design companies, as well as Foreign direct investment (FDI) enterprises in Vietnam.
- Employment in production lines and managing fabrication processes in semiconductor components and chips manufacturing plants.
- Involvement in packaging and testing phases as well as quality insurance of semiconductor products.
- Experts responsible for consulting technical support for semiconductor chip production projects and the commercialization process.
- Opportunities in the production and sale of electronic devices and components, as well as in the materials science industry.
4. CONTACT INFORMATION
– About the training program:
Department of Advanced Materials Science and Nanotechnology (AMSN)
Tel: (+84-24) 32 12 11 62
Email: [email protected]
Add: Room 304, 3rd floor, A21 building, University of Science and Technology of Hanoi
– About Admission:
Department of Admission
Tel: (+84)24 77 74 77 48/ (+84)24 77 72 77 48
Email: [email protected]
Website:
Add: Room 102, 1st floor, A21 building, University of Science and Technology of Hanoi
The post Bachelor in Semiconductor and IC Technology appeared first on University of Science and Technology of Hanoi.
]]>The post Bachelor in Advanced Materials Science and Nanotechnology appeared first on University of Science and Technology of Hanoi.
]]>1. INTRODUCTION
Materials are found in all sectors of our modern society from healthcare, and environmental treatment to energy conversion storage and communication technology. With the emergence of nanotechnology (the technology deals with designing and fabrication of materials and devices at the nanoscale) in the last decades, the application of materials is given an even larger dimension.
The mission of the Advanced Materials Science and Nanotechnology (AMSN) undergraduate program at the University of Science and Technology of Hanoi is to provide students with a strong foundation in materials science and nanotechnology. Therefore, the program’s curriculum places special emphasis on the fundamental principles that underlie the knowledge and implementation of materials structure, processing, characterization, and performance of all classes of materials. Courses in the program develop students’ knowledge of modern materials science with the application of nanotechnology and teach them to apply skills gained to create innovative solutions to practical problems. Furthermore, to prepare our students for their successful engagement in society they are trained with communication, leadership, and teamwork skills.
2. PROGRAM
The curriculum begins in the second academic year of Goodd889 cá cược trực tuyến. This second year is devoted to a basic understanding of physics and the chemistry of materials. In the third academic year, students study material fabrication and synthesis, tools for material characterization, and consolidate their knowledge of nanomaterials in life science, energy, and environment application. In addition, students are trained to take part in a research project by completing a group project. Subsequently, they are invited to perform an internship of at least three months in a leading research laboratory or an R&D department in Vietnam or overseas.
| Year | Subject | Number of ECTS | Subject | Number of ECTS | Total of ECTS |
| Foundation | English | 8 | Common scientific courses | 38 | 60 |
| Science Management | 2 | Oriented scientific courses | 12 | ||
| Second year | French 2 | 8 | Fundamentals of Materials Science | 3 | 60 |
| Mathematics for Physics | 3 | Organic Chemistry II | 3 | ||
| Electromagnetism II | 3 | Magnetism & Magnetic materials | 3 | ||
| Inorganic Chemistry | 3 | Materials Design and Simulation | 3 | ||
| Introduction of micro-nano technology | 2 | Micro and Nanofabrication | 3 | ||
| Statistical Mechanics | 4 | Physical Chemistry | 3 | ||
| Electrochemistry | 3 | Colloid Chemistry and Soft Matter | 3 | ||
| Optics | 2 | Semiconductor | 3 | ||
| Solid-state physics | 3 | Analytical Chemistry | 3 | ||
| Philosophy I | 0 | ||||
| Optional courses (choose 1 out of 2) | |||||
| Project Management | 2 | Law on Intellectual Property rights | 2 | ||
| Third year | French | 7 | Smart Hybrid Materials | 3 | 60 |
| Quantum Mechanics | 3 | Materials Characterization Techniques I | 3 | ||
| Chemistry of Polymer | 3 | Materials Characterization Techniques II | 3 | ||
| Inorganic Materials | 3 | Engineering Practices | 3 | ||
| Nanochemistry | 3 | Group Project | 6 | ||
| Internship (3 months) | 15 | ||||
| Optional courses (choose 2 scientific courses, 1 soft skill course) | |||||
| Nanobiotechnology and BioMEMS | 3 | Nanoelectronics | 3 | ||
| Biosensors | 3 | Silicon Photonics | 3 | ||
| Plasmonic and Applications | 3 | Materials for Energy Conversion and Storage | 3 | ||
| Lasers | 3 | Plasma Physics and Applications | 3 | ||
| Materials for Environmental application | 3 | Industrial process in electronic device manufacturing | 2 | ||
| Optoelectronics and Nanophotonics | 3 | Start-up | 2 | ||
| Scientific Writing and Communication | 2 | ||||
3. PROGRAM OUTCOMES
The outcomes of the bachelor’s program in Advanced Materials Sciences and NanoTechnology are listed below:
- The curriculum is developed to promote learning, learning how to learn, and to instill in students a commitment to lifelong learning (e.g. commitment to critical inquiry, development of study and information-processing skills, and a willingness to experiment with new ideas and practices).
- The curriculum offers graduates the ability to do advanced studies, to develop their own personality, have an academic attitude, and be competent in their field of study. The graduates should also have transferable skills, and leadership skills, and should be oriented to the job market and be able to develop their careers.
- The curriculum has clearly formulated learning outcomes, reflecting the relevant demands and needs of all stakeholders.
- The curriculum offers to graduates the ability to apply the fundamentals of nanotechnology and applications.
- The curriculum offers graduates an understanding of material properties in various fields such as physics, chemistry, energy, semiconductor, ….
- The curriculum offers graduates an appreciation for the influence of nanotechnology in modern industry.
4. JOB OPPORTUNITIES
Graduates with Diploma in Advanced Materials Science and Nanotechnology can find great job opportunities from international agencies and different industrial sectors like materials for energy (solar panel production, batteries, LED), materials for healthcare (drug formulation, sensing kit developer, cosmetics), materials for the environment (water depollution, evaluation of biomass), materials for microelectronics, composites, etc. Appropriate job positions could be R&D research assistant, Quality Control engineer, product developer or production technician. Evidently, qualified students are encouraged to join academia either with a master’s training or with a research assistant position within high education and research institutions.
5. CONTACT INFORMATION
- About the training program
Department of Advanced Materials Science and Nanotechnology (AMSN)
Tel: (+84-24) 32 12 11 62
Email: [email protected]
Add: Room 304, 3rd floor, A21 building, University of Science and Technology of Hanoi
- About Admission
Department of Admission
Tel: (+84)24 77 74 77 48/ (+84)24 77 72 77 48
Email: [email protected]
Website:
Add: Room 102, 1st floor, A21 building, University of Science and Technology of Hanoi
The post Bachelor in Advanced Materials Science and Nanotechnology appeared first on University of Science and Technology of Hanoi.
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