Recent Advances in Freeform Electronics
In this course, the learners will understand fundamental basic backgrounds of p-n junctions, diodes and MOSFETs (Metal Oxide Semiconductor Field Effect Transistors). Also, recent approaches on flexible / stretchable electronics, transparent optoelectronics, and printed electronics using one dimensional or two dimensional nanomaterials will be introduced. Furthermore, the formation of high-performance, transparent thin films or conductors using novel materials such as cellulose nanofibers or metal nanofibers is included for course materials.
Monthly Subscription Starting at AED 99 + VAT
- Level Professional
- المدة 12 ساعات hours
- الطبع بواسطة Yonsei University
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Offered by
عن
In this course, the learners will understand fundamental basic backgrounds of p-n junctions, diodes and MOSFETs (Metal Oxide Semiconductor Field Effect Transistors). Also, recent approaches on flexible / stretchable electronics, transparent optoelectronics, and printed electronics using one dimensional or two dimensional nanomaterials will be introduced. Furthermore, the formation of high-performance, transparent thin films or conductors using novel materials such as cellulose nanofibers or metal nanofibers is included for course materials. Examples of device fabrications, including touch screen panels, gas / chemical / bio sensors, smart contact lenses, wireless and transparent antennas, and OLEDs, are also introduced for next generation electronic devices.الوحدات
Introduction Video
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1
Videos
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Videos
- Introduction Video
1.1 Electrical resistance
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1
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1
Readings
1
Videos
- 1.1 Electrical Resistance
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Readings
- References
1.2 p-n junction
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1
Videos
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1
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1
Videos
- 1.2 p-n junction
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Readings
- References
1.3 MOSFET (Metal Oxide Semiconductor Field-Effect Transistor)
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1
Videos
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1
Readings
1
Videos
- 1.3 MOSFET (Metal Oxide Semiconductor Field-Effect Transistor)
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Readings
- References
1.4 SOI (Silicon-on-Insulator) Wafers
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1
Videos
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Videos
- 1.4 SOI (Silicon-on-Insulator) Wafers
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Readings
- References
Module 1 Quiz
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1
Assignment
1
Assignment
- Module 1 Quiz
Module 1 Discussion prompt
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1
Discussion
1
Discussions
- High-k materials
2.1 Foldable Substrates
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Videos
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- 2.1 Foldable Substrates
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- References
2.2 Stretchable Interconnects
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- 2.2 Stretchable Interconnects
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- References
2.3 High-Resolution 3D Printing
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Videos
- 2.3 High-Resolution 3D Printing
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- References
2.4 3D Printing of Liquid Metal
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Videos
- 2.4 3D Printing of Liquid Metal
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Readings
- References
Module 2 Quiz
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Assignment
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Assignment
- Module 2 Quiz
3.1 Conventional Stretchable Electrodes
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1
Videos
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1
Readings
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Videos
- 3.1 Conventional Stretchable Electrodes
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Readings
- References
3.2 Alternative Electrodes_1
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- 3.2 Alternative Electrodes_1
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- References
3.3 Alternative Electrodes_2
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- 3.3 Alternative Electrodes_2
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- References
3.4 Alternative Electrodes_3
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- 3.4 Alternative Electrodes_3
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- References
3.5 Alternative Electrodes_4
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- 3.5 Alternative Electrodes_4
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- References
Module 3 Quiz
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Assignment
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Assignment
- Module 3 Quiz
4.1 Monolithic Graphite-Graphene FETs
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Videos
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Videos
- 4.1 Monolithic Graphite-Graphene FETs
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- References
4.2 Hybrid Materials-based FET Sensors
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Videos
- 4.2 Hybrid Materials-based FET Sensors
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- References
4.3 Smart Contact Lens
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- 4.3 Smart Contact Lens
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- References
4.4 Pressure & Alcohol Sensors
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- 4.4 Pressure & Alcohol Sensors
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- References
4.5 Transparent Finger Sensors
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Videos
- 4.5 Transparent Finger Sensors
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- References
Module 4 Quiz
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Assignment
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Assignment
- Module 4 Quiz
Module 4 Discussion prompt
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Discussion
1
Discussions
- Smart contact lens
5.1 Introduction of Printing Technology
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Videos
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- 5.1 Introduction of Printing Technology
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- References
5.2 Fundamental of E-jet Printing
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- 5.2 Fundamental of E-jet Printing
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- References
5.3 High-Resolution E-jet Printing
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- 5.3 High-Resolution E-jet Printing
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- References
5.4 E-jet Printing for Electronics
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Videos
- 5.4 E-jet Printing for Electronics
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- References
5.5 Charged Liquid Printing using E-jet
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Videos
- 5.5 Charged Liquid Printing using E-jet
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- References
5.6 E-jet Printing : Application for Biotechnology
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Videos
- 5.6 E-jet Printing : Application for Biotechnology
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- References
Module 5 Quiz
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Assignment
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Assignment
- Module 5 Quiz
Module 5 Discussion prompt
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Discussion
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Discussions
- E-jet printing
6.1 Cellulose Research Motivation
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1
Videos
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Videos
- 6.1 Cellulose Research Motivation
6.2 Cellulose Hybrid Film
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- 6.2 Cellulose Hybrid Film
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- References
6.3 Cellulose Hybrid Film: Applications
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- 6.3 Cellulose Hybrid Film: Applications
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- References
6.4 Cellulose Hybrid Film-High Performance Device
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- 6.4 Cellulose Hybrid Film: High Performance Device
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6.5 Metal Nanofibers based Device
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- 6.5 Metal Nanofibers based Device
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Module 6 Quiz
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Assignment
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Assignment
- Module 6 Quiz
Auto Summary
Explore the cutting-edge world of freeform electronics with "Recent Advances in Freeform Electronics," a comprehensive course designed for professionals in the Science & Engineering domain. Guided by expert instructors from Coursera, this course delves into the essentials of p-n junctions, diodes, and MOSFETs (Metal Oxide Semiconductor Field Effect Transistors), while also presenting the latest innovations in flexible, stretchable, and transparent optoelectronics. Learners will gain insights into the use of one-dimensional and two-dimensional nanomaterials in printed electronics, and discover the potential of novel materials like cellulose and metal nanofibers in creating high-performance, transparent thin films and conductors. The course covers practical examples of advanced device fabrication, including touch screen panels, gas and biosensors, smart contact lenses, wireless antennas, and OLEDs, positioning participants at the forefront of next-generation electronic devices. With a total duration of 720 minutes, this professional-level course offers flexible subscription options, including Starter and Professional plans, catering to the needs of dedicated learners eager to advance their expertise in this dynamic field. Join now and become part of the future of electronics innovation.
Jang-Ung Park