Diatom-inspired multiscale mineralization of patterned protein–polysaccharide complex structures

Abstract: Marine diatoms construct their hierarchically ordered, three-dimensional (3D) external structures called frustules through precise biomineralization processes. Recapitulating the remarkable architectures and functions of diatom frustules in artificial materials is a major challenge that has important technological implications for hierarchically ordered composites. Here, we report the construction of highly ordered, mineralized composites based on fabrication of complex self-supporting porous structures—made o… Show more

“…The enhancement of the C 1s peak is due to the presence of the C−C, CC, CN, and C−N groups in PANi molecules and the −CH 3 and −CH 2 − groups in stearic acid. 32 The high-resolution XPS spectrum of the N 1s region of MF is deconvoluted into three peaks, centered at 398 eV (N−), 399.4 eV (−NH − ), and 400.4 eV (−N + −). As compared to the MF, a new N 1s peak at 402.25 eV could be observed over TiO 2 -PANi@MF, which is mainly because of the protonated imine species (N + ) caused by the surface OH groups of TiO 2 with an interchain H-bonding.…”

“…Figure c shows that both the MF substrate and TiO 2 -PANi@MF exhibit only the C 1s, O 1s, and N 1s features. The enhancement of the C 1s peak is due to the presence of the C–C, CC, CN, and C–N groups in PANi molecules and the −CH 3 and −CH 2 – groups in stearic acid . The high-resolution XPS spectrum of the N 1s region of MF is deconvoluted into three peaks, centered at 398 eV (N−), 399.4 eV (−NH – ), and 400.4 eV (−N + −).…”

“…Diatoms are the most successful planktonic photosynthetic organisms in nature for light energy utilization. 32 The hierarchical structures of diatoms consist of a chitin porous skeleton network covered by an inner layer of a biosilicaassociated protein and an outer biosilica layer. The porous skeleton network and unique nano-aperture architectures of silica endow diatoms with inherently superior light-harvesting capability.…”

“…Diatoms are the most successful planktonic photosynthetic organisms in nature for light energy utilization . The hierarchical structures of diatoms consist of a chitin porous skeleton network covered by an inner layer of a biosilica-associated protein and an outer biosilica layer.…”

Diatom-Inspired TiO₂-PANi-Decorated Bilayer Photothermal Foam for Solar-Driven Clean Water Generation

“…The enhancement of the C 1s peak is due to the presence of the C−C, CC, CN, and C−N groups in PANi molecules and the −CH 3 and −CH 2 − groups in stearic acid. 32 The high-resolution XPS spectrum of the N 1s region of MF is deconvoluted into three peaks, centered at 398 eV (N−), 399.4 eV (−NH − ), and 400.4 eV (−N + −). As compared to the MF, a new N 1s peak at 402.25 eV could be observed over TiO 2 -PANi@MF, which is mainly because of the protonated imine species (N + ) caused by the surface OH groups of TiO 2 with an interchain H-bonding.…”

“…Figure c shows that both the MF substrate and TiO 2 -PANi@MF exhibit only the C 1s, O 1s, and N 1s features. The enhancement of the C 1s peak is due to the presence of the C–C, CC, CN, and C–N groups in PANi molecules and the −CH 3 and −CH 2 – groups in stearic acid . The high-resolution XPS spectrum of the N 1s region of MF is deconvoluted into three peaks, centered at 398 eV (N−), 399.4 eV (−NH – ), and 400.4 eV (−N + −).…”

“…Diatoms are the most successful planktonic photosynthetic organisms in nature for light energy utilization. 32 The hierarchical structures of diatoms consist of a chitin porous skeleton network covered by an inner layer of a biosilicaassociated protein and an outer biosilica layer. The porous skeleton network and unique nano-aperture architectures of silica endow diatoms with inherently superior light-harvesting capability.…”

“…Diatoms are the most successful planktonic photosynthetic organisms in nature for light energy utilization . The hierarchical structures of diatoms consist of a chitin porous skeleton network covered by an inner layer of a biosilica-associated protein and an outer biosilica layer.…”

Diatom-Inspired TiO₂-PANi-Decorated Bilayer Photothermal Foam for Solar-Driven Clean Water Generation

“… Protein class Description Reference Silicatein A bioorganic–inorganic hybrid material is produced by the incorporation of nanoparticles into sponge spicules [ 73 ] Bacterial biofilm protein (CsgA), silaffin A diatom frustule-like structure is built by harnessing a curli biofilm protein, a chitin-binding domain, and a silaffin peptide, which together serve as a scaffold for silica mineralization. The construction of an artificial photosynthesis system is achieved upon colonization of the material with living cells [ 74 ] Silaffin Recombinant silaffin peptides from diatoms, which nucleate the formation of silica nanostructures, are produced in E. coli with different post-translational modifications, obtaining nanostructures with different properties [ 75 ] A genetically engineered diatom produces silaffin peptides fused to proteins of interest, resulting in the immobilization of the protein in the diatom silica [ 75 ] A genetically engineered diatom produces a silica matrix displaying antibodies on its surface. This material is applied for the targeted delivery of chemotherapeutic drugs [ 76 ] A genetically engineered diatom produces a silica matrix that incorporates proteins of interest.…”

Synthetic biology as driver for the biologization of materials sciences

Micro/Nanofabrication, Assembly, and Actuation Based on Microorganisms: Recent Advances and Perspectives