This course integrates traditional printing processes into the preparation of electronic circuits, flexible lighting, flexible displays, and flexible sensing devices. Through project-based case studies, it focuses on industry trends and ignites the enthusiasm for combining printing processes with emerging industries, demonstrating great foresight.
Through the personalized design of single-layer circuit light-emitting LED lights, the printing process integrates conductive ink with graphic design and functionality, inspiring everyone to start from the basics.
Taking the electrochromic film of Oriental Pearl TV Tower landmark building as the teaching carrier, it deeply integrates the traditional architectural aesthetics with modern printing and electronic technology. It helps us understand the symbiotic relationship between traditional craftsmanship and modern technology, and provides innovative samples for engineering courses through the teaching model of "technology+culture".
Build a three-level training system of "cognition practice reflection". Revealing the quality philosophy behind the "0.01% precision difference" in material configuration, this "microscopic" teaching design deepens our understanding of professional standards.
The teaching mode of "problem oriented+scenario based" intelligent tag RFID effectively enhances the legal awareness and technological ethics literacy in the learning process, providing important reference for the cultivation of engineering talents in the intelligent era.
Each project in this course has practical content, progressing from design to practice. Finally, through the application of smart healthcare such as humidity sensing, smart wearables, and digital microfluidic biochips, practical teaching is carried out. Through learning, not only can one broaden their horizons and knowledge, but they can also actively practice, which is conducive to cross employment in multiple fields such as integrated electronic circuit employment, printing technology, intelligent packaging, biomedicine, and flexible sensing.
