Structure Color Tuners of Cholesteric Cellulose Nanocrystal

The broad utility of cellulose nanocrystals (CNCs) as green, vivid, and long-term photonic films is restricted by their coloration instability and limited gamut. Herein, four polyols, two monosaccharides, two organic acids, and four amino acids were doped into a CNC for a detailed structure and colo...

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Veröffentlicht in:	Industrial & engineering chemistry research 2021-06, Vol.60 (24), p.8776-8787
Hauptverfasser:	Li, Qin, Guo, Mengna, Liu, Dagang, Qiao, Huanhuan, Gustave, Williamson, Prempeh, Nana, Cai, Yongqing, Peng, Jingnan
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Sprache:	eng
Schlagworte:	Materials and Interfaces
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container_end_page	8787
container_issue	24
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container_title	Industrial & engineering chemistry research
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creator	Li, Qin Guo, Mengna Liu, Dagang Qiao, Huanhuan Gustave, Williamson Prempeh, Nana Cai, Yongqing Peng, Jingnan
description	The broad utility of cellulose nanocrystals (CNCs) as green, vivid, and long-term photonic films is restricted by their coloration instability and limited gamut. Herein, four polyols, two monosaccharides, two organic acids, and four amino acids were doped into a CNC for a detailed structure and color hue investigation. The results show that polyols and saccharides bearing neural multihydroxyl groups promoted a doping-amount-dependent red-shift reflection. Polyols were also found to improve the flexibility of CNCs as effective plasticizers. Organic tartaric or malic acid showed effects on the overall blue shift although a switch from blue shift to red shift happened at a doping amount of 8 wt %. Nevertheless, amphoteric amino acids with multifunctional groups show limited regulating effects due to their poor compatibility and complicated interactions with CNCs. Therefore, acidic or alkaline functional groups, the isoelectric point, a compatible saccharide ring, the molecular weight, and crystallization of dopants are crucial factors for tuning the structure and properties of CNCs.
doi_str_mv	10.1021/acs.iecr.1c01223
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Herein, four polyols, two monosaccharides, two organic acids, and four amino acids were doped into a CNC for a detailed structure and color hue investigation. The results show that polyols and saccharides bearing neural multihydroxyl groups promoted a doping-amount-dependent red-shift reflection. Polyols were also found to improve the flexibility of CNCs as effective plasticizers. Organic tartaric or malic acid showed effects on the overall blue shift although a switch from blue shift to red shift happened at a doping amount of 8 wt %. Nevertheless, amphoteric amino acids with multifunctional groups show limited regulating effects due to their poor compatibility and complicated interactions with CNCs. 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title	Structure Color Tuners of Cholesteric Cellulose Nanocrystal
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