Comprehensive Summary Deep-tissue physiological signals are critical for accurate disease diagnosis.Current clinical equipment,however,often falls short of enabling continuous,long-term monitoring.Wearable and implant...Comprehensive Summary Deep-tissue physiological signals are critical for accurate disease diagnosis.Current clinical equipment,however,often falls short of enabling continuous,long-term monitoring.Wearable and implantable flexible electronics offer a promising avenue for addressing this limitation,allowing in vivo signal collection and paving the way for early diagnosis and personalized treatment.A major challenge lies in ensuring that these devices seamlessly integrate with the diverse physiological microenvironments throughout the human body.展开更多
Macroporous hydrogels are water-swollen polymer networks with porous structures beyond the mesh size.They provide high specific surface areas and hieratical mass transfer channels which are desired for emerging applic...Macroporous hydrogels are water-swollen polymer networks with porous structures beyond the mesh size.They provide high specific surface areas and hieratical mass transfer channels which are desired for emerging applications including cell culturing,bio-separation,and drug delivery.A variety of approaches have been developed to fabricate macroporous hydrogels,including gas foaming,porogen templating,phase separation,3D printing,etc.Alternatively,ice templating utilizes the crystallization of water as the porogenation mechanism which doesn't need the leaching of porogens.展开更多
基金supported by the National Natural Science Foundation of China(81971701).
文摘Comprehensive Summary Deep-tissue physiological signals are critical for accurate disease diagnosis.Current clinical equipment,however,often falls short of enabling continuous,long-term monitoring.Wearable and implantable flexible electronics offer a promising avenue for addressing this limitation,allowing in vivo signal collection and paving the way for early diagnosis and personalized treatment.A major challenge lies in ensuring that these devices seamlessly integrate with the diverse physiological microenvironments throughout the human body.
基金supported by the National Natural Science Foundation of China(grant Nos.52273112,U20A6001,22105167)the Start-up funding of Ningbo Research Institute of Zhejiang University(grant No.20201203Z0193).
文摘Macroporous hydrogels are water-swollen polymer networks with porous structures beyond the mesh size.They provide high specific surface areas and hieratical mass transfer channels which are desired for emerging applications including cell culturing,bio-separation,and drug delivery.A variety of approaches have been developed to fabricate macroporous hydrogels,including gas foaming,porogen templating,phase separation,3D printing,etc.Alternatively,ice templating utilizes the crystallization of water as the porogenation mechanism which doesn't need the leaching of porogens.
