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Controlled Deformation of Soft Nanogel Particles Generates Artificial Biominerals with Ordered Internal Structure

Yingxiang Dong, Jialin Chi, Zelun Ren, Biao Xiong, Ziqing Liu, Wenjun Zhang, Lijun Wang, Syuji Fujii, Steven P. Armes, Yin Ning

2023Angewandte Chemie International Edition21 citationsDOI

Abstract

Biominerals can exhibit exceptional mechanical properties owing to their hierarchically-ordered organic/inorganic nanocomposite structure. However, synthetic routes to oriented artificial biominerals of comparable complexity remain a formidable technical challenge. Herein we design a series of soft, deformable nanogels that are employed as particulate additives to prepare nanogel@calcite nanocomposite crystals. Remarkably, such nanogels undergo a significant morphological change-from spherical to pseudo-hemispherical-depending on their degree of cross-linking. This deformation occurs normal to the growth direction of the (104) face of the calcite and the underlying occlusion mechanism is revealed by in situ atomic force microscopy studies. This model system provides new mechanistic insights regarding the formation of oriented structures during biomineralization and offers new avenues for the design of synthetic nanocomposites comprising aligned anisotropic nanoparticles.

Topics & Concepts

NanogelNanocompositeBiomineralizationMaterials scienceCalciteNanoparticleNanotechnologyDeformation (meteorology)Chemical engineeringDeformation mechanismAnisotropyMorphology (biology)Composite materialChemistryMineralogyMicrostructureDrug deliveryGeologyPaleontologyEngineeringQuantum mechanicsPhysicsCalcium Carbonate Crystallization and InhibitionBone Tissue Engineering MaterialsClay minerals and soil interactions