2018
DOI: 10.1039/c7nr08367j
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Anisotropic flexible transparent films from remaining wood microstructures for screen protection and AgNW conductive substrate

Abstract: Flexible transparent conductive films or substrates prepared from plastics or cellulose are widely used in optoelectronic devices. However, all of these films or substrates are fabricated by complex and expensive methods, which consume much energy and time. In this work, we report for the first time a remarkably facile and effective approach for fabricating flexible transparent films directly from wood. The resulting films exhibit an array of exceptional optical and mechanical properties. The well-aligned cell… Show more

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Cited by 85 publications
(64 citation statements)
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“…The interface is critical for optical transmittance of TWC. 29,30 The interfacial space of TPC could be increased in a reasonable range by removing lignin, improving the limited swelling of cellulose ber network and inltrating with PU. Between the cellulose ber network of the poplar-polymer composite, the interfacial space linking lumen is also the light pathway for optical transmittance.…”
Section: Optical Properties Of Tpcmentioning
confidence: 99%
“…The interface is critical for optical transmittance of TWC. 29,30 The interfacial space of TPC could be increased in a reasonable range by removing lignin, improving the limited swelling of cellulose ber network and inltrating with PU. Between the cellulose ber network of the poplar-polymer composite, the interfacial space linking lumen is also the light pathway for optical transmittance.…”
Section: Optical Properties Of Tpcmentioning
confidence: 99%
“…There have been several types of ACFs reported. The films that conduct electricity along the thickness direction of the film are known as type I ACFs [24], and films that conduct in two perpendicular directions on the surface are defined as type II ACFs [25]. Based on the reports, the type II aeolotropic conductive materials are still in the stage of laboratory exploration.…”
Section: Introductionmentioning
confidence: 99%
“…17,21,22 There is little done in the area of transparent conductive regenerated cellulose lm; to the best of our knowledge, the thin lm prepared from bacterial cellulose/AgNWs composite exhibited an acceptable transparency $80% and a good conductivity 7.46 U , À1 ; 23 while the transparent lms from remaining wood microstructures and AgNW showed a slight lower transparency $75% and a good conductivity 11 U , À1 . 24 In this work, regenerated cellulose lm was prepared from cellulose dissolution in ionic liquid and regeneration from a water bath. A modied polyol synthesis method was adopted to grow AgNW on the AgCl core with a controlled size.…”
Section: Introductionmentioning
confidence: 99%