[HTML][HTML] Calcium carbonate: controlled synthesis, surface functionalization, and nanostructured materials
YQ Niu, JH Liu, C Aymonier, S Fermani… - Chemical Society …, 2022 - pubs.rsc.org
Calcium carbonate (CaCO3) is an important inorganic mineral in biological and geological
systems. Traditionally, it is widely used in plastics, papermaking, ink, building materials …
systems. Traditionally, it is widely used in plastics, papermaking, ink, building materials …
Metal-polyphenol complexes as versatile building blocks for functional biomaterials
Natural metal-organic complexes have gained much attention due to their self-assembly
behaviors and photochemical properties. They perform various biological processes …
behaviors and photochemical properties. They perform various biological processes …
Embedding hierarchical pores by mechanochemistry in carbonates with superior chemoselective catalysis and stability
B Zhang, Y Zhu, S Shi, Y Li, Y Luo, Z Huang… - Inorganic …, 2023 - ACS Publications
Hierarchical porosity of carbonates can facilitate their performance in massive applications
as compared to their corresponding bulk samples. Traditional solution-based precipitation is …
as compared to their corresponding bulk samples. Traditional solution-based precipitation is …
Design, fabrication, and biomedical applications of bioinspired peptide–inorganic nanomaterial hybrids
By specifically binding with various inorganic nanomaterials through their functional groups
or introducing special reactivity, the nanostructures and biofunctions of designed peptides …
or introducing special reactivity, the nanostructures and biofunctions of designed peptides …
Highly mineralized biomimetic polysaccharide nanofiber materials using enzymatic mineralization
Many biological high-performance composites, such as bone, antler, and crustacean
cuticles, are composed of densely mineralized and ordered nanofiber materials. The …
cuticles, are composed of densely mineralized and ordered nanofiber materials. The …
Amyloid‐Mediated Fabrication of Organic–Inorganic Hybrid Materials and Their Biomedical Applications
J Zhao, P Yang - Advanced Materials Interfaces, 2020 - Wiley Online Library
Protein assembly with ordered architecture plays an important role in the formation of natural
organic–inorganic hybrid materials, and also determines their distinguished mechanical …
organic–inorganic hybrid materials, and also determines their distinguished mechanical …
Calcium-induced molecular rearrangement of peptide folds enables biomineralization of vaterite calcium carbonate
Proteins can control mineralization of CaCO3 by selectively triggering the growth of calcite,
aragonite or vaterite phases. The templating of CaCO3 by proteins must occur …
aragonite or vaterite phases. The templating of CaCO3 by proteins must occur …
Catalytically active peptides affected by self-assembly and residues order
A Baruch-Leshem, C Chevallard, F Gobeaux… - Colloids and Surfaces B …, 2021 - Elsevier
Amphiphilic peptides that induce catalysis are interesting alternatives to natural enzymes
thanks to robustness of their synthesis and the ability to induce certain types of …
thanks to robustness of their synthesis and the ability to induce certain types of …
[HTML][HTML] Mineral surface-templated self-assembling systems: Case studies from nanoscience and surface science towards origins of life research
RJ Gillams, TZ Jia - Life, 2018 - mdpi.com
An increasing body of evidence relates the wide range of benefits mineral surfaces offer for
the development of early living systems, including adsorption of small molecules from the …
the development of early living systems, including adsorption of small molecules from the …
[HTML][HTML] Spider silk-inspired peptide multiblock hybrid copolymers for self-healable thin film materials
T Koga, T Morishita, Y Harumoto, S Nishimura… - Materials …, 2021 - pubs.rsc.org
Natural biopolymers exhibit smart functions and extraordinary physical properties because
of their optimized and rational molecular structures. Understanding and mimicking such …
of their optimized and rational molecular structures. Understanding and mimicking such …