TY - JOUR
T1 - A skin-beyond multifrequency camouflage system with self-adaptive discoloration and radar-infrared stealth
AU - Zhang, Zicheng
AU - Wang, Qiye
AU - Li, Zifan
AU - Zhou, Zhe
AU - Xie, Xinyi
AU - Sun, Hongchao
AU - Chen, Chen
AU - Wang, Min
AU - Dong, Xuemei
AU - Wu, Yueyue
AU - He, Zixi
AU - Liu, Bin
AU - Qian, Xinkai
AU - Li, Junyue
AU - Wang, Li
AU - Xiu, Fei
AU - Liu, Juqing
AU - Huang, Wei
N1 - Publisher Copyright:
© 2024 Elsevier B.V.
PY - 2024/8/15
Y1 - 2024/8/15
N2 - Camouflage technology could enhance the safety and security of desirable targets by concealing their signatures from the microwave, vision, infrared detection methods. However, conventional single-band camouflage fails to align with the current trends toward multi-band compatibility and intelligent adaptation. Here a bioskin-inspired multifrequency camouflaging system, including an artificial multispectral camouflage skin and an adaptive processing unit, was designed to simultaneously achieve infrared, radar, and adaptive visual stealth. This skin adopts a vertically stacked structure and utilizes a square patterned indium tin oxide for infrared stealth, a sector-box nesting silver nanowire-graphene (AgGr) metasurface for radar stealth, and a light-controlled AgGr heater to drive thermochromic displays for visible stealth. The system achieves multiband compatible properties with ultralow infrared emissivity of 0.24, high and broad microwave absorption in the 10 GHz-37.5 GHz region, and highly self-adaptive discoloration in response to background-color changes. Our work provides a reliable all-in-one design in flexible smart optoelectronics for future camouflage skin.
AB - Camouflage technology could enhance the safety and security of desirable targets by concealing their signatures from the microwave, vision, infrared detection methods. However, conventional single-band camouflage fails to align with the current trends toward multi-band compatibility and intelligent adaptation. Here a bioskin-inspired multifrequency camouflaging system, including an artificial multispectral camouflage skin and an adaptive processing unit, was designed to simultaneously achieve infrared, radar, and adaptive visual stealth. This skin adopts a vertically stacked structure and utilizes a square patterned indium tin oxide for infrared stealth, a sector-box nesting silver nanowire-graphene (AgGr) metasurface for radar stealth, and a light-controlled AgGr heater to drive thermochromic displays for visible stealth. The system achieves multiband compatible properties with ultralow infrared emissivity of 0.24, high and broad microwave absorption in the 10 GHz-37.5 GHz region, and highly self-adaptive discoloration in response to background-color changes. Our work provides a reliable all-in-one design in flexible smart optoelectronics for future camouflage skin.
KW - Bioinspired systems
KW - Camouflage devices
KW - Flexible electronics
KW - Multifrequency camouflage system
KW - Self-adaptive discoloration
UR - http://www.scopus.com/inward/record.url?scp=85196630338&partnerID=8YFLogxK
U2 - 10.1016/j.cej.2024.152867
DO - 10.1016/j.cej.2024.152867
M3 - 文章
AN - SCOPUS:85196630338
SN - 1385-8947
VL - 494
JO - Chemical Engineering Journal
JF - Chemical Engineering Journal
M1 - 152867
ER -