TY - JOUR
AU1 - Kim, Hyojung
AU2 - Im, In Hyuk
AU3 - Hyun, Daijoon
AU4 - Hilal, Muhammad
AU5 - Cai, Zhicheng
AU6 - Yang, Seok Joo
AU7 - Shim, Young-Seok
AU8 - Moon, Cheon Woo
AB - Smart healthcare and medical services have been among the fastest-growing AI applications. Stretchable electronics are being considered for flexible/stretchable paper displays, wearable computers, artificial electronic skin, and biomedical devices. Complex and dynamic mechanical environments in wearable applications that demand conformation and conformance necessitate stretchable electronic devices with malleable, mechanical properties. Exploring and discovering devices are popular, because electronic devices need flexible memory to store and retrieve data. The resistive switching memory device is the ideal contender for stretchable memory because of its basic metal–insulator–metal structure and the benefits of the patterned and crossbar-structured memory generated by oxygen vacancies and conductive metal filaments. Stretchable electronics and manufacturing methods are appealing, because wearable and integrated electronics systems are in demand. More innovative materials and device architecture have increased electronic device adaptability and lower production costs. This paper describes wearable and stretchable resistive switching memory device structures and materials. Next, it explains their operation and resistive switching. Also introduced are stretchable resistive switching memory electrodes, insulating layers, crossbar array topologies, and artificial synapse memristors. Moreover, stretchable memristors are utilized in smart sensor systems for data processing and storage. They can be employed in environmental sensors or biosensors to enhance signal processing and data storage. The stretchable memristor, now in its initial stage of development, exhibits significant potential and opportunity for enhancement. This early stage highlights the potential for significant progress shortly.
TI - Stretchable resistive switching memory devices for wearable systems
JF - Journal of the Korean Ceramic Society
DO - 10.1007/s43207-025-00497-y
DA - 2025-05-01
UR - https://www.deepdyve.com/lp/springer-journals/stretchable-resistive-switching-memory-devices-for-wearable-systems-1gyAgu9YaS
SP - 397
EP - 411
VL - 62
IS - 3
DP - DeepDyve
ER -