OM Science Organic Semiconductor Sensor Development
OM Science Organic Semiconductor Sensor Development
OM Science Organic Semiconductor Sensor Development
This course introduces the development and application of organic semiconductor sensors, emphasizing sustainable materials and flexible electronics. Learners will gain hands-on experience in material science, fabrication, and real-world sensor deployment without the need for cleanroom facilities.
This course introduces the development and application of organic semiconductor sensors, emphasizing sustainable materials and flexible electronics. Learners will gain hands-on experience in material science, fabrication, and real-world sensor deployment without the need for cleanroom facilities.
This course introduces the development and application of organic semiconductor sensors, emphasizing sustainable materials and flexible electronics. Learners will gain hands-on experience in material science, fabrication, and real-world sensor deployment without the need for cleanroom facilities.
Target Student
Primary Student/ Secondary Student
Category
SEMICONDUCTOR
Number of Session
Session Duration
Course Description
Course Description
Course Description
Organic semiconductors are transforming the future of green electronics with their low toxicity, flexibility, and environmental friendliness. Unlike traditional semiconductor materials that rely on rare or heavy metals, organic semiconductors offer a sustainable alternative with broad applications in wearable technology, environmental monitoring, and biomedical sensing.
This course, co-developed by interdisciplinary teams from CUHK and HKUST, enables learners to explore the potential of organic materials through practical sensor fabrication and deployment. From understanding the fundamentals of materials science to building real-world applications like alcohol detection, sleep apnea monitoring, and muscle signal tracking, students will develop functional sensors using a streamlined, low-barrier fabrication method that requires no cleanroom or toxic processes.
Organic semiconductors are transforming the future of green electronics with their low toxicity, flexibility, and environmental friendliness. Unlike traditional semiconductor materials that rely on rare or heavy metals, organic semiconductors offer a sustainable alternative with broad applications in wearable technology, environmental monitoring, and biomedical sensing.
This course, co-developed by interdisciplinary teams from CUHK and HKUST, enables learners to explore the potential of organic materials through practical sensor fabrication and deployment. From understanding the fundamentals of materials science to building real-world applications like alcohol detection, sleep apnea monitoring, and muscle signal tracking, students will develop functional sensors using a streamlined, low-barrier fabrication method that requires no cleanroom or toxic processes.
Organic semiconductors are transforming the future of green electronics with their low toxicity, flexibility, and environmental friendliness. Unlike traditional semiconductor materials that rely on rare or heavy metals, organic semiconductors offer a sustainable alternative with broad applications in wearable technology, environmental monitoring, and biomedical sensing.
This course, co-developed by interdisciplinary teams from CUHK and HKUST, enables learners to explore the potential of organic materials through practical sensor fabrication and deployment. From understanding the fundamentals of materials science to building real-world applications like alcohol detection, sleep apnea monitoring, and muscle signal tracking, students will develop functional sensors using a streamlined, low-barrier fabrication method that requires no cleanroom or toxic processes.
Highlights
Highlights
Highlights
Learn to design and fabricate organic semiconductor sensors
Use safe, non-toxic materials with no cleanroom required
Co-developed by leading research teams from CUHK and HKUST
Build flexible printed sensors using a simple three-step process
Develop real applications for health, environmental, and industrial monitoring
Visualize real-time data output and sensor behavior
Learn to design and fabricate organic semiconductor sensors
Use safe, non-toxic materials with no cleanroom required
Co-developed by leading research teams from CUHK and HKUST
Build flexible printed sensors using a simple three-step process
Develop real applications for health, environmental, and industrial monitoring
Visualize real-time data output and sensor behavior
Learn to design and fabricate organic semiconductor sensors
Use safe, non-toxic materials with no cleanroom required
Co-developed by leading research teams from CUHK and HKUST
Build flexible printed sensors using a simple three-step process
Develop real applications for health, environmental, and industrial monitoring
Visualize real-time data output and sensor behavior
Learning Outcome
Learning Outcome
Learning Outcome
Understand the principles of organic semiconductor materials
Gain knowledge of low-power, eco-friendly sensor technologies
Fabricate flexible sensors using drop-casting and drying techniques
Analyze sensor data and identify real-world applications
Develop prototypes for detecting alcohol, ammonia, nitrogen oxides, and more
Apply sensors to applications such as air quality testing, muscle signal detection, and sleep disorder monitoring
Learn to visualize and interpret sensor data output
Understand the principles of organic semiconductor materials
Gain knowledge of low-power, eco-friendly sensor technologies
Fabricate flexible sensors using drop-casting and drying techniques
Analyze sensor data and identify real-world applications
Develop prototypes for detecting alcohol, ammonia, nitrogen oxides, and more
Apply sensors to applications such as air quality testing, muscle signal detection, and sleep disorder monitoring
Learn to visualize and interpret sensor data output
Understand the principles of organic semiconductor materials
Gain knowledge of low-power, eco-friendly sensor technologies
Fabricate flexible sensors using drop-casting and drying techniques
Analyze sensor data and identify real-world applications
Develop prototypes for detecting alcohol, ammonia, nitrogen oxides, and more
Apply sensors to applications such as air quality testing, muscle signal detection, and sleep disorder monitoring
Learn to visualize and interpret sensor data output
Equipment Provided by School
Notebook and basic lab stationery
Internet access for accessing digital materials and resources
Optional: smartphone or webcam (for sensor output capture and documentation)
Notebook and basic lab stationery
Internet access for accessing digital materials and resources
Optional: smartphone or webcam (for sensor output capture and documentation)
Notebook and basic lab stationery
Internet access for accessing digital materials and resources
Optional: smartphone or webcam (for sensor output capture and documentation)
Teaching Materials Provided By Semtron
Organic semiconductor material kits (safe and non-toxic)
Flexible substrate sheets for sensor construction
Dropper tools and containers for material application
Sensor testing platform with built-in visualization tools
Access to sample sensor datasets and analysis templates
Instructional guides and training modules
Application scenario case studies (alcohol detection, air quality, biomedical signals)
Organic semiconductor material kits (safe and non-toxic)
Flexible substrate sheets for sensor construction
Dropper tools and containers for material application
Sensor testing platform with built-in visualization tools
Access to sample sensor datasets and analysis templates
Instructional guides and training modules
Application scenario case studies (alcohol detection, air quality, biomedical signals)
Organic semiconductor material kits (safe and non-toxic)
Flexible substrate sheets for sensor construction
Dropper tools and containers for material application
Sensor testing platform with built-in visualization tools
Access to sample sensor datasets and analysis templates
Instructional guides and training modules
Application scenario case studies (alcohol detection, air quality, biomedical signals)
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Do you have questions about our services or want to learn about sustainable living?
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TOUCH