2017
DOI: 10.1126/sciadv.1701084
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Ultrathin thermoresponsive self-folding 3D graphene

Abstract: Temperature changes induce self-folding of functionalized graphene into well-defined ultrathin 3D microstructures.

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Cited by 157 publications
(140 citation statements)
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“…The nanoscrolls could also hybridize with additional functional materials. Furthermore, by integrating 2D materials with thermoresponsive layers, complex 3D self‐folded mesostructures could be formed with reversible deformation …”
Section: Release Methodsmentioning
confidence: 99%
“…The nanoscrolls could also hybridize with additional functional materials. Furthermore, by integrating 2D materials with thermoresponsive layers, complex 3D self‐folded mesostructures could be formed with reversible deformation …”
Section: Release Methodsmentioning
confidence: 99%
“…Since the first experimental discovery of this material in 2004, graphene, a new class of 2D materials with planar honeycomb arrays, has attracted increasing interest in a wide range of technological fields . Due to the unique thermal and mechanical properties of graphene including 1) high optical density in the IR region, 2) excellent thermal conductivity, 3) great mechanical strength with ultralight weight, and 4) negative CTE graphene is a promising candidate for photothermal and photomechanical actuators.…”
Section: Carbon‐based Soft Materials For Photoresponsive Actuator Designmentioning
confidence: 99%
“…The actuator strip fabricated could be scaled to 3 mm × 12 mm and presented a revisable contracting‐to‐stretching motion under an alternating IR stimulus (10 mW cm −2 ) with excellent cycle behavior repeating for at least 1000 cycles at a quick alternating stimulus of 1 Hz. However, insufficient light‐to‐heat conversion was demonstrated owing to the lower light absorption of white light (≈2.3%) compared with bulk carbon materials (> 80%) …”
Section: Carbon‐based Soft Materials For Photoresponsive Actuator Designmentioning
confidence: 99%
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“…[12] mG/ PNIPAm exhibits new characteristic peaks at 1642, 1540, and 1367-1460 cm À1 in the FTIR spectrum compared with reduced graphene oxide (rGO), which belong to the absorption of PNIPAm (Figure 1f). [13] TheX RD pattern of mG/ PNIPAm shows two broad peaks at 7.58 8 and 228 8 due to the introduction of PNIPAm (Figure 1g). [9c] Ther GO and mG/ PNIPAm reduced under hydrazine hydrate vapor have high Ocontents of 19.68 %a nd 22.50 %, respectively,w hich were attributed to the abundance of oxygen-containing functional groups (e.g.,O À C = O; Figure S2 b, c).…”
mentioning
confidence: 99%