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Keon Jae Lee

This course aims to provide a general understanding of semiconductor process. This course explores the principles and basic theory of semiconductor device and process. Furthermore, the students will learn the overall semiconductor process such as oxidation, diffusion, ion implantation, lithography, etching, thin film deposition, plasma, metallization, and packaging.

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This course aims to provide a general understanding of semiconductor process. This course explores the principles and basic theory of semiconductor device and process. Furthermore, the students will learn the overall semiconductor process such as oxidation, diffusion, ion implantation, lithography, etching, thin film deposition, plasma, metallization, and packaging.

The lecture notes can be downloaded with registration, that helps students watch the videos. There are quiz problems to check your understanding of the lectures. To receive course certificate., you must score at least 60% of quiz within two chances.

Lecture notes, quiz and certificate are offered to registered students only.

Introduction to Semiconductor Process 2

Week 1 Wet & Dry Etch (1)

Week 2 Wet & Dry Etch (2)

Week 3 Thin Film Deposition (1)

Week 4 Thin Film Deposition (2)

Week 5 Metallization Chemical Mechanical Polishing Strain Engineering

Week 6 Electronic Packaging (1)

Week 7 Electronic Packaging (2)

Week 8 3D Transistor Process

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What's inside

Syllabus

Week 1 Overview of MOSFET theory
Week 2 CMOS Process Integration
Week 3 Cleanroom, RCA Cleaning Crystal Growth
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Week 4 Diffusion & Doping
Week 5 Oxidation
Week 6 Ion Implantation
Week 7 Lithography
Week 8 EUV Lithography

Good to know

Know what's good
, what to watch for
, and possible dealbreakers
Focuses on semiconductor theory, which is the foundation of semiconductor research and development
Provides a comprehensive overview of semiconductor process, encompassing various aspects including oxidation, diffusion, ion implantation, lithography, etching, thin film deposition, plasma, metallization, and packaging
Taught by Keon Jae Lee, an established professional in the field of semiconductor process
Provides lecture notes and quiz problems to reinforce understanding of the material
Offers a certificate upon completion, demonstrating proficiency in core semiconductor process concepts
Requires a minimum score of 60% in the quizzes to receive the certificate, ensuring a level of comprehension

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Activities

Be better prepared before your course. Deepen your understanding during and after it. Supplement your coursework and achieve mastery of the topics covered in Introduction to Semiconductor Process 1 with these activities:
Glossary of Semiconductor Vocab
This glossary will serve as a handy study tool and refresher to cement your understanding of key concepts and terms.
Show steps
  • Identify terms from the textbook chapters
  • Define each term in your own words
  • Organize the terms in a logical order
Review previous coursework in semiconductor physics
Strengthen your understanding of semiconductor physics to provide a solid foundation for this course.
Browse courses on Semiconductor Physics
Show steps
  • Gather your previous coursework materials.
  • Go through your notes, textbooks, and assignments.
  • Review key concepts and equations.
MOSFET and CMOS Summary
Prepare a summary of the essential components of MOSFET and CMOS devices to refresh your understanding.
Show steps
  • Review textbook chapters and lecture notes on MOSFET and CMOS
  • Extract and compile key information into a concise summary
  • Include diagrams or tables for clarification
11 other activities
Expand to see all activities and additional details
Show all 14 activities
Practice solving semiconductor device problems
Refresh your problem-solving skills by practicing with semiconductor device problems.
Browse courses on Semiconductor Device
Show steps
  • Find practice problems from textbooks or online resources.
  • Set aside dedicated time to solve these problems.
  • Check your solutions against the provided answers or consult with an expert.
Electric Field Topology
This step-by-step guided tutorial will walk you through the basics of Electric Field Topology, which is a concept assumed to be learned prior to starting this course.
Show steps
  • Watch the videos on Electric Field Topology basics
  • Solve the practice problems provided in the video lectures
  • Read the provided reference material on the topic
Complete practice problems
Solve practice problems to reinforce your understanding of the fundamental concepts of semiconductor devices and processes.
Browse courses on Semiconductor Device
Show steps
  • Identify the relevant concepts and principles from the lectures and readings.
  • Find and solve practice problems that cover these concepts.
  • Check your answers against the provided solutions.
Diffusion Equations
Repetition is key to retention! Here are additional practice problems to help you master your understanding of Diffusion Equations.
Show steps
  • Review your lecture notes
  • Solve the ten problems in the practice worksheet
  • Compare answers with online forums and ask for help if any
Follow semiconductor process tutorials
Watch and follow video tutorials to gain a practical understanding of various semiconductor manufacturing techniques.
Browse courses on Semiconductor Process
Show steps
  • Identify specific semiconductor process techniques that you want to learn more about.
  • Find high-quality video tutorials that cover these techniques in detail.
  • Follow the steps and explanations provided in the tutorials.
Participate in peer study sessions
Engage in discussions and problem-solving with peers to reinforce your understanding and identify areas where you need further support.
Browse courses on Semiconductor Device
Show steps
  • Find a study partner or group with similar interests.
  • Set up regular study sessions to review materials and work on problems together.
  • Take turns explaining concepts and challenging each other's understanding.
Lithography Process Practice
Additional practice problems on Lithography Process to reinforce your understanding.
Show steps
  • Review the lecture notes and textbook chapter on Lithography Process
  • Download the practice problem set
  • Attempt all problems and refer to online resources for help
Create a semiconductor process diagram
Develop a visual representation of the semiconductor process flow to enhance your understanding of the sequence and interconnections of different steps.
Browse courses on Semiconductor Process
Show steps
  • Gather information and materials on the semiconductor process.
  • Design a diagram that visually represents the process flow.
  • Include details such as process steps, materials used, and equipment involved.
Participate in semiconductor design competitions
Challenge yourself by participating in competitions that require you to design and optimize semiconductor devices or processes, fostering innovation and problem-solving skills.
Browse courses on Semiconductor Device
Show steps
  • Identify relevant semiconductor design competitions.
  • Form a team or work individually on a design proposal.
  • Develop and optimize your design based on competition requirements.
Volunteer at a semiconductor research lab or company
Gain hands-on experience and make industry connections by volunteering at a semiconductor research lab or company, exposing you to real-world applications of semiconductor processes.
Show steps
  • Identify semiconductor research labs or companies that offer volunteering opportunities.
  • Contact the organization to inquire about their volunteer program.
  • Attend volunteer orientation and training sessions.
Contribute to open-source semiconductor projects
Gain practical experience and make valuable contributions to the semiconductor community by participating in open-source projects related to semiconductor design and modeling.
Show steps
  • Identify open-source semiconductor projects that align with your interests.
  • Join the project community and learn about their codebase.
  • Contribute bug fixes, feature enhancements, or documentation improvements.

Career center

Learners who complete Introduction to Semiconductor Process 1 will develop knowledge and skills that may be useful to these careers:
Semiconductor Device Designer
Semiconductor Device Designers play a vital role in creating and improving semiconductor devices. This course can be a valuable resource for aspiring Semiconductor Device Designers, as it covers the principles and theory of semiconductor devices and processes. Understanding these concepts is essential for designing high-performance and reliable semiconductor devices.
Research Scientist (Semiconductors)
Research Scientists in the semiconductor field focus on advancing the knowledge and development of semiconductor materials, devices, and processes. This course can be highly beneficial for aspiring Research Scientists, as it provides a solid foundation in the principles and theory of semiconductor processing. Understanding these concepts is crucial for conducting cutting-edge research in the semiconductor industry.
Semiconductor Manufacturing Engineer
Semiconductor Manufacturing Engineers oversee the day-to-day operations of semiconductor fabrication facilities. This course can be a valuable resource for aspiring Semiconductor Manufacturing Engineers, as it provides insights into the principles and practices of semiconductor processing. Understanding these concepts is essential for optimizing production processes and ensuring the efficient and cost-effective manufacturing of semiconductor devices.
Device Physicist
Device Physicists specialize in understanding the physical principles and properties of semiconductor devices. This course can be beneficial for aspiring Device Physicists, as it covers the principles and theory of semiconductor devices and processes. Understanding these concepts is essential for developing advanced semiconductor devices with enhanced performance and functionality.
Process Engineer
Process Engineers are responsible for designing and optimizing manufacturing processes in the semiconductor industry. This course can be highly beneficial for Process Engineers, as it provides a comprehensive overview of semiconductor processing techniques, including thin film deposition, plasma, and metallization. Understanding these principles is critical for developing efficient and reliable manufacturing processes in the semiconductor industry.
Materials Scientist (Semiconductors)
Materials Scientists in the semiconductor field specialize in the development and characterization of semiconductor materials. This course can be a valuable resource for aspiring Materials Scientists, as it provides insights into the principles and applications of thin film deposition and other semiconductor processing techniques. Understanding these concepts is essential for developing high-quality and reliable semiconductor materials.
Failure Analysis Engineer (Semiconductors)
Failure Analysis Engineers in the semiconductor industry are responsible for identifying and resolving failures in semiconductor devices and processes. This course can be beneficial for Failure Analysis Engineers, as it provides a comprehensive overview of semiconductor processing techniques and failure analysis methodologies. Understanding these concepts is essential for effectively diagnosing and rectifying failures in semiconductor devices.
Yield Engineer (Semiconductors)
Yield Engineers in the semiconductor industry focus on improving the yield and quality of semiconductor devices. This course can be beneficial for Yield Engineers, as it provides a comprehensive understanding of semiconductor processing techniques and yield enhancement strategies. Understanding these concepts is critical for maximizing the efficiency and profitability of semiconductor manufacturing.
Quality Control Engineer (Semiconductors)
Quality Control Engineers in the semiconductor industry are responsible for ensuring the quality and reliability of semiconductor devices and processes. This course can be beneficial for Quality Control Engineers, as it provides a comprehensive overview of semiconductor processing techniques and quality control measures. Understanding these principles is essential for maintaining high standards in semiconductor manufacturing.
Technical Sales Engineer (Semiconductors)
Technical Sales Engineers in the semiconductor industry specialize in selling and supporting semiconductor products and services. This course can be beneficial for Technical Sales Engineers, as it provides a comprehensive understanding of semiconductor processing techniques and their applications. This knowledge enables them to effectively communicate the value and benefits of semiconductor products to potential customers.
Semiconductor Patent Examiner
Semiconductor Patent Examiners evaluate and issue patents for inventions in the semiconductor field. This course may be useful for aspiring Semiconductor Patent Examiners, as it provides a comprehensive understanding of semiconductor processing techniques and their applications. Understanding these concepts is essential for assessing the novelty and patentability of semiconductor inventions.
Semiconductor Technician
Semiconductor Technicians play a crucial role in the semiconductor industry, operating and maintaining advanced equipment used in the fabrication of semiconductor devices. This course may be useful for aspiring Semiconductor Technicians as it delves into various aspects of semiconductor processing, such as oxidation, diffusion, and lithography, providing a solid understanding of the techniques and principles involved in semiconductor device manufacturing.
Semiconductor Marketer
Semiconductor Marketers develop and execute marketing strategies to promote and sell semiconductor products and services. This course may be useful for aspiring Semiconductor Marketers, as it provides insights into the principles and applications of semiconductor technologies. Understanding these concepts can be beneficial in developing effective marketing campaigns targeting engineers and decision-makers in the semiconductor industry.
Intellectual Property Lawyer
Intellectual Property Lawyers specialize in protecting and enforcing the intellectual property rights of individuals and organizations, including those in the semiconductor industry. This course may be useful for aspiring Intellectual Property Lawyers handling cases related to semiconductor technologies, as it provides insights into the principles and practices of semiconductor processing. Understanding these concepts can be advantageous in assessing the validity and infringement of semiconductor patents.

Reading list

We've selected six books that we think will supplement your learning. Use these to develop background knowledge, enrich your coursework, and gain a deeper understanding of the topics covered in Introduction to Semiconductor Process 1.
Provides a good background on semiconductor device physics and operation. It useful reference for students who want to understand the principles and basic theory of semiconductor devices.
Provides a good background on microelectronic circuits, including amplifiers, oscillators, and digital circuits. It useful reference for students who want to understand the design and analysis of microelectronic circuits.
Provides a good overview of electronic materials science, including the properties and applications of semiconductor materials. It useful reference for students who want to learn more about the materials used in semiconductor devices.
Provides a good overview of semiconductor material and device characterization. It useful reference for students who want to learn more about the characterization of semiconductor materials and devices.
Provides a comprehensive overview of semiconductor devices. It good reference for students who want to learn more about the physics and technology of semiconductor devices.

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