Recent Progress in Membrane Technologies Based on Metal–Phenolic Networks: A Review

Said, Seleman Mahamoud; Wang, Tao; Feng, Yingnan; Ren, Yongsheng; Zhao, Zhen

doi:10.1021/acs.iecr.2c02651

Cited by 4 publications

(1 citation statement)

References 80 publications

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“…Tannic acid, the entrapment of which provides intensely colored silica ( Figure 15 b,c), can also find application as a pH sensor since its spectral characteristics change significantly when the acidity of the medium is varied. Complexes with metal ions are especially suitable for this purpose [ 376 , 377 , 378 ]. Tannic acid has broad potential for various functionalization of bionanocomposites, in the pores of which it is left after biomimetic synthesis.…”

Section: Tetrakis(2-hydroxyethyl)silane (Theos)mentioning

confidence: 99%

Biomimetic Sol–Gel Chemistry to Tailor Structure, Properties, and Functionality of Bionanocomposites by Biopolymers and Cells

Shchipunov

2023

Materials

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Biosilica, synthesized annually only by diatoms, is almost 1000 times more abundant than industrial silica. Biosilicification occurs at a high rate, although the concentration of silicic acid in natural waters is ~100 μM. It occurs in neutral aqueous solutions, at ambient temperature, and under the control of proteins that determine the formation of hierarchically organized structures. Using diatoms as an example, the fundamental differences between biosilicification and traditional sol–gel technology, which is performed with the addition of acid/alkali, organic solvents and heating, have been identified. The conditions are harsh for the biomaterial, as they cause protein denaturation and cell death. Numerous attempts are being made to bring sol–gel technology closer to biomineralization processes. Biomimetic synthesis must be conducted at physiological pH, room temperature, and without the addition of organic solvents. To date, significant progress has been made in approaching these requirements. The review presents a critical analysis of the approaches proposed to date for the silicification of biomacromolecules and cells, the formation of bionanocomposites with controlled structure, porosity, and functionality determined by the biomaterial. They demonstrated the broad capabilities and prospects of biomimetic methods for creating optical and photonic materials, adsorbents, catalysts and biocatalysts, sensors and biosensors, and biomaterials for biomedicine.

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Section: Tetrakis(2-hydroxyethyl)silane (Theos)mentioning

confidence: 99%