2020
DOI: 10.1126/sciadv.aba8966
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Photonic paper: Multiscale assembly of reflective cellulose sheets in Lunaria annua

Abstract: Bright, iridescent colors observed in nature are often caused by light interference within nanoscale periodic lattices, inspiring numerous strategies for coloration devoid of inorganic pigments. Here, we describe and characterize the septum of the Lunaria annua plant that generates large (multicentimeter), freestanding iridescent sheets, with distinctive silvery-white reflective appearance. This originates from the thin-film assembly of cellulose fibers in the cells of the se… Show more

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Cited by 13 publications
(5 citation statements)
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“…As shown, the freely standing CAM films show vivid structural colors arising from the chiral nematic organization of rigid cellulose nanocrystals with pitch lengths controlled by local twisted stacking. [ 2,40–42 ] This helical organization in random tactoids can be observed as periodic fingerprints, a signature of chiral nematic phase (Figure S7, Supporting Information). [ 43 ] However, the CAM films show pitch expansion in comparison with traditional CNC materials caused by intercalation of the glucose‐PAM phase into the helicoidal organization ( Figure and Figure S7, Supporting Information).…”
Section: Resultsmentioning
confidence: 99%
“…As shown, the freely standing CAM films show vivid structural colors arising from the chiral nematic organization of rigid cellulose nanocrystals with pitch lengths controlled by local twisted stacking. [ 2,40–42 ] This helical organization in random tactoids can be observed as periodic fingerprints, a signature of chiral nematic phase (Figure S7, Supporting Information). [ 43 ] However, the CAM films show pitch expansion in comparison with traditional CNC materials caused by intercalation of the glucose‐PAM phase into the helicoidal organization ( Figure and Figure S7, Supporting Information).…”
Section: Resultsmentioning
confidence: 99%
“…While nature shows an array of materials with striking optical properties, the biomimicry of such diverse structures is not usually achieved by chitin as a building block and the chitin photonics field has not been much developed. We find it presents an interesting contrast to cellulose photonics as only a few cellulosic species such as Pollia condensata [ 112 ], Margaritaria nobilis [ 113 ] and Lunaria annua [ 114 ] are found to display natural photonic structures. Yet the studies using cellulose nanocrystals as a building block for photonic applications is vast.…”
Section: Chitin-based Materials For Future Advanced Technologiesmentioning
confidence: 99%
“…Unlike dies or pigments, these are observable colors due to light interaction with sub‐micron shapes present in structures as those found in plants, flowers, bird feathers, or insect shells. [ 123–125 ] Structural colors are the basis of chameleon's changing colors due to alterations in organized 3D lattices present on the skin ( Figure a). [ 126 ] In an approach to mimic nature, scientists have used similar strategies to generate and engineer structurally colored materials.…”
Section: Photonic Applications Of Hydrogel Structuresmentioning
confidence: 99%