Litcius/Paper detail

Strong, Shape-Memory Lignocellulosic Aerogel <i>via</i> Wood Cell Wall Nanoscale Reassembly

Jonas Garemark, Jesús E. Perea‐Buceta, Martin Felhofer, Bin Chen, Maria F. Cortes Ruiz, Ioanna Sapouna, Notburga Gierlinger, Ilkka Kilpeläinen, Lars A. Berglund, Yuanyuan Li

2023ACS Nano115 citationsDOIOpen Access PDF

Abstract

High Resolution Image Download MS PowerPoint Slide Polymer shape-memory aerogels (PSMAs) are prospects in various fields of application ranging from aerospace to biomedicine, as advanced thermal insulators, actuators, or sensors. However, the fabrication of PSMAs with good mechanical performance is challenging and is currently dominated by fossil-based polymers. In this work, strong, shape-memory bio-aerogels with high specific surface areas (up to 220 m 2 /g) and low radial thermal conductivity (0.042 W/mK) were prepared through a one-step treatment of native wood using an ionic liquid mixture of [MTBD] + [MMP] − /DMSO. The aerogel showed similar chemical composition similar to native wood. Nanoscale spatial rearrangement of wood biopolymers in the cell wall and lumen was achieved, resulting in flexible hydrogels, offering design freedom for subsequent aerogels with intricate geometries. Shape-memory function under stimuli of water was reported. The chemical composition and distribution, morphology, and mechanical performance of the aerogel were carefully studied using confocal Raman spectroscopy, AFM, SAXS/WAXS, NMR, digital image correlation, etc. With its simplicity, sustainability, and the broad range of applicability, the methodology developed for nanoscale reassembly of wood is an advancement for the design of biobased shape-memory aerogels.

Topics & Concepts

AerogelMaterials scienceNanoscopic scalePolymerRaman spectroscopyShape-memory polymerNanotechnologyShape-memory alloyChemical engineeringSelf-healing hydrogelsNanofiberSmall-angle X-ray scatteringComposite materialScatteringPolymer chemistryOpticsPhysicsEngineeringAdvanced Cellulose Research StudiesAerogels and thermal insulationPolymer composites and self-healing