Mostofa K. Khan scite author profile

Cellulose nanocrystals (CNCs), known for more than 50 years, have attracted attention because of their unique properties such as high specific strength and modulus, high surface area, and fascinating optical properties. Just recently, however, their potential in supramolecular templating was identified by making use of their self-assembly behavior in aqueous dispersions in the presence of compatible precursors. The combination of the mesoporosity, photonic properties, and chiral nematic order of the materials, which are available as freestanding films, has led to a significant number of interesting and promising discoveries towards new functional materials. This Review summarizes the use of cellulose derivatives, especially CNCs, as novel templates and gives an overview of the recent developments toward new functional materials.

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Responsive Mesoporous Photonic Cellulose Films by Supramolecular Cotemplating

Giese¹,

Blusch²,

Khan³

et al. 2014

Angew Chem Int Ed

154

129

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Cellulose-based materials have been and continue to be exceptionally important for humankind. Considering the bioavailability and societal relevance of cellulose, turning this renewable resource into an active material is a vital step towards sustainability. Herein we report a new form of cellulose-derived material that combines tunable photonic properties with a unique mesoporous structure resulting from a new supramolecular cotemplating method. A composite of cellulose nanocrystals and a urea-formaldehyde resin organizes into a chiral nematic assembly, which yields a chiral nematic mesoporous continuum of desulfated cellulose nanocrystals after alkaline treatment. The mesoporous photonic cellulose (MPC) films undergo rapid and reversible changes in color upon swelling, and can be used for pressure sensing. These new active mesoporous cellulosic materials have potential applications in biosensing, optics, functional membranes, chiral separation, and tissue engineering.

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Flexible Mesoporous Photonic Resins with Tunable Chiral Nematic Structures

Khan¹,

Giese²,

Yu³

et al. 2013

Angew Chem Int Ed

160

108

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Tunable Mesoporous Bilayer Photonic Resins with Chiral Nematic Structures and Actuator Properties

2014

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Chiral nematic structures with different helical pitch from layer to layer are embedded into phenol-formaldehyde bilayer resin composite films using cellulose nanocrystals (CNCs) as templates. Selective removal of CNCs results in mesoporous resins with different pore size and helical pitch between the layers. Consequently, these materials exhibit photonic properties by selectively reflecting lights of two different wavelengths and concomitant actuation properties.

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Imprinting of Photonic Patterns with Thermosetting Amino-Formaldehyde-Cellulose Composites

et al. 2013

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A family of new amino resin-cellulose nanocrystal composites is reported. Owing to the chiral nematic order of the cellulose nanocrystals (CNCs) embedded in the amino resin polymer, the materials appear highly iridescent and their color can be controlled by the addition of salt. The freshly prepared samples are highly flexible and their color can be manipulated by applying pressure to the films. Colored chiral nematic patterns can be permanently recorded in the composite films, suggesting their application for security features, pressure sensors, and decoration.

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Mostofa K. Khan

Functional Materials from Cellulose‐Derived Liquid‐Crystal Templates

Responsive Mesoporous Photonic Cellulose Films by Supramolecular Cotemplating

Flexible Mesoporous Photonic Resins with Tunable Chiral Nematic Structures

Tunable Mesoporous Bilayer Photonic Resins with Chiral Nematic Structures and Actuator Properties

Imprinting of Photonic Patterns with Thermosetting Amino-Formaldehyde-Cellulose Composites

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