Professor Lee Nae-eung Research Team of the Material Engineering published paper on mobile and wearable diagnosis method
- 공과대학
- Hit5015
- 2020-06-26
Professor Lee Nae-eung of the New Material Engineering Department, Research Team
Up-to-date research trends review paper on mobile and wearable-based field diagnosis technologies published in the Chemical Society Review journal
- Discuss the future direction of self-diagnosis technology regardless of location
A research team led by Professor Lee Nae-eung of the Department of New Material Engineering analyzed the latest research trends in mobile and wearable-based self-field detection technologies and published a review paper on future technology development in the British Chemical Society Review, a journal of global review papers.
This review paper was written with the support of the Korea Research Foundation's Mid-Term Researcher Support Project and the University-focused Research Institute Support Project, and was published in the March issue of the renowned international journal 'Chemical Society Review (IF 40.433).
※ Name of the thesis: Present address, callpoints, and proponents of fully integrated mobile and wearable point-of-care testing systems for self-testings
※ Author: Professor Lee Nae-eung (Communicator, Sungkyunkwan University), Tran Quang Trung (first author, Sungkyunkwan University), and Sajal Shrivastava (first author, Sungkyunkwan University)
Thanks to the recent development of chemical and bio-sensors, lap-on-air chips, mobile communication technologies, and wearable electronic technologies, new opportunities are being offered in wearable-based self-detection (POCT) technologies such as mobile and bandage, accessories, patches, and tattoos using smartphones or IOT devices. The implementation of self-discovery technology requires measurement by non-expert users directly to meet requirements such as minimizing user interference, maximizing user convenience, implementing a simple detection platform, securing high diagnostic sensitivity and specificity, enabling immediate clinical evaluation and low-cost consumable materials, etc.
This review paper examined in detail the trends in the development of technologies for on-site detection based on highly integrated mobile and wearable, which have recently been developed overseas and domestically. In particular, the sampling and processing platform, detection probe technology, new materials for signal conversion, signal detection method, and new power technology for self-driving were systematically organized from the perspective of mobile and wearable-based self-detection, and the direction of future technology development needed for commercialization was discussed.
Mobile and wearable-based self-discovery technologies are currently mainly used technologies that are expected to play a pivotal role in non-face-to-face medical diagnostic technology, compared to field detection methods performed by experts near patient beds, and are expected to make an important contribution to the implementation of future smart health technologies.