Add to ORKGIntrinsically stretchable semiconductors will facilitate the realization of seamlessly integrated stretchable electronics. However, to date demonstrations of intrinsically stretchable semiconductors have been limited. In this study, a new approach to achieve intrinsically stretchable semiconductors is introduced by blending a rigid high-performance donor-acceptor polymer semiconductor poly[4(4,4dihexadecyl4Hcyclopenta [1,2b:5,4b' ] dithiopen2yl) alt [1,2,5] thiadiazolo [3,4c] pyridine] (PCDTPT) with a ductile polymer semiconductor poly(3hexylthiophene) (P3HT). Under large tensile strains of up to 75%, the polymers are shown to orient in the direction of strain, and when the strain is reduced, the polymers reversibly deform. During cyclic st...
Polymeric semiconductors offer the promise of low-cost, printable, and mechanically robust electroni...
Conjugation breakers (CBs) with different H-bonding chemistry and linker flexibility are designed an...
Organic stretchable electronics have attracted extensive scientific and industrial interest because ...
For wearable and implantable electronics applications, developing intrinsically stretchable polymer ...
MasterResearch on intrinsic stretchable organic semiconductor is receiving a lot of attention in rec...
Electronics are evolving from brittle to flexible and are expected to advance to stretchable. Develo...
Recently, many researchers have tried to develop stretchable semiconducting thin films that can main...
Polymer semiconductors have been widely studied as an important component of stretchable electronic ...
Designing intrinsically stretchable semiconducting polymers with suitable charge transport and mecha...
During past years, organic-based electronic devices revealed high promise to supplement the ubiquito...
Previous breakthroughs in stretchable electronics stem from strain engineering and nanocomposite app...
The pursuit of intelligent optoelectronics could have profound implications on our future daily life...
MasterThe study of deformable organic semiconductor materials has been in the spotlight in the next ...
Stretchable electronic devices have recently gained a lot of attention because of their applications...
Polymer semiconductors are promising materials for stretchable, wearable, and implantable devices du...
Polymeric semiconductors offer the promise of low-cost, printable, and mechanically robust electroni...
Conjugation breakers (CBs) with different H-bonding chemistry and linker flexibility are designed an...
Organic stretchable electronics have attracted extensive scientific and industrial interest because ...
For wearable and implantable electronics applications, developing intrinsically stretchable polymer ...
MasterResearch on intrinsic stretchable organic semiconductor is receiving a lot of attention in rec...
Electronics are evolving from brittle to flexible and are expected to advance to stretchable. Develo...
Recently, many researchers have tried to develop stretchable semiconducting thin films that can main...
Polymer semiconductors have been widely studied as an important component of stretchable electronic ...
Designing intrinsically stretchable semiconducting polymers with suitable charge transport and mecha...
During past years, organic-based electronic devices revealed high promise to supplement the ubiquito...
Previous breakthroughs in stretchable electronics stem from strain engineering and nanocomposite app...
The pursuit of intelligent optoelectronics could have profound implications on our future daily life...
MasterThe study of deformable organic semiconductor materials has been in the spotlight in the next ...
Stretchable electronic devices have recently gained a lot of attention because of their applications...
Polymer semiconductors are promising materials for stretchable, wearable, and implantable devices du...
Polymeric semiconductors offer the promise of low-cost, printable, and mechanically robust electroni...
Conjugation breakers (CBs) with different H-bonding chemistry and linker flexibility are designed an...
Organic stretchable electronics have attracted extensive scientific and industrial interest because ...