Synthesis and Photocatalytic Properties of Titanium‐Porphyrinic Aerogels

Keum, Yesub; Kim, Bongkyeom; Byun, Asong; Park, Jinhee

doi:10.1002/anie.202007193

Cited by 24 publications

(14 citation statements)

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“…[6] Metal-organic gels are a kind of supramolecular gels containing metal ions, metal-organic moieties, and metal nanoparticles. [7] Incorporation of metal components may enrich or modify gel morphologies, [8] and contribute to improve the optical, [9] electrochemical [10] and mechanical properties. [11,12] A variety of metal-organic gels have been developed for various applications, such as selective adsorption, [11] biosensors, [13,14] and electrocatalysis.…”

Section: Introductionmentioning

confidence: 99%

Self‐Foaming Metal‐Organic Gels Based on Phytic Acid and Their Mechanical, Moldable, and Load‐Bearing Properties.

Xiao

Gong

Zhang

2021

Chemistry A European J

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A catalogue of metal‐organic gels are synthesized from phytic acid (PA) and a diversity of metal ions (Fe3+, Cr3+, Al3+, Ce3+, Y3+, Co2+, Ni2+, Mn2+, Cu2+, Zn2+, Mg2+) upon heating at 80 °C. PA−M gels have various morphologies, including irregular granular (PA−Fe, PA−Al, PA−Ce, PA−Cr, PA−Ni, PA−Co), spongy (PA−Y), and hollow tremella‐like (PA−Cu) morphologies. Interestingly for PA−Fe‐1 : 4 (PA:Fe3+=1 : 4) a large amount of gas is generated during the gelation process leading to a self‐foaming gel. The PA−Fe‐1 : 4 self‐foaming gel shows reversible gel‐sol phase transition. The gel is unusually weakened and transformed into a sol at room temperature, and the sol is reversed to gelation when heated again at 80 °C. PA−Fe‐1 : 4 gel also shows shapeable and load‐bearing properties, and it can bear up to 200 times of its weight, depending on the gas amount fixed in the foam gel and the aging time. This work provides a catalogue of self‐foaming supramolecular gels with tunable properties based on naturally abundant resources.

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Section: Introductionmentioning

confidence: 99%

Self‐Foaming Metal‐Organic Gels Based on Phytic Acid and Their Mechanical, Moldable, and Load‐Bearing Properties.

Xiao

Gong

Zhang

2021

Chemistry A European J

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“…Titanium has two valence states of Ti 4+ and Ti 3+ for electronic energy transition under light. The effect of titanium ions in altering the microbial community is based mainly on its photocatalytic activity, which converts energy from light into chemical energy and triggers redox ( 40 , 41 ). Redox generates various superoxide radicals, which reduce or oxidize the surrounding medium, potentially degrading soil organic matter, pesticides, and herbicides ( 42 ).…”

Section: Discussionmentioning

confidence: 99%

Soil Microbial Communities Altered by Titanium Ions in Different Agroecosystems of Pitaya and Grape

Hou

et al. 2022

Microbiol Spectr

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“…Titanium-oxo clusters (TOCs) recently have received great interest − and are emerging as a class of very promising crystalline materials, promoted by their applications as well-defined and soluble molecular TiO materials, − single-source precursors of TiO oxides, − and the structural and electronic models of nanosized TiO 2 . − Despite the fact that numerous TOCs with or without modified metals or functional ligands have been reported and studied experimentally and theoretically, the calculated electronic state of small clusters (nuclearity <10) showed large variations with varied cluster nuclearity, which is not typical for nanoscale TiO materials. Therefore, synthesis of high nuclearity TOCs and theoretical study based on these large TOCs merit more attention.…”

Section: Introductionmentioning

confidence: 99%

Mono- and Bismetalphenanthroline-Substituted Ti₁₂ Clusters: Structural Variance and the Effect on Electronic State and Photocurrent Property

Wang

Zhai

et al. 2021

Inorg. Chem.

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Despite the numerous titanium-oxo clusters (TOCs) which have been reported, the nature of small clusters (nuclearity < 10) as model compounds showed large deviation from that of nanoscale TiO materials. Therefore, theoretical and experimental studies for large TOCs merit more attention. We recently prepared and crystallographically characterized a series of l a r g e T O C s : 3), and Ti 10 O 14 (OEt) 16 (Mnphphen) 2 (4) (phen = 1,10-phenanthroline, phphen = 4,7-biphenyl-phen). These compounds are derivatives of a Ti 12 parent cluster by replacing one or two of the five-coordinated titanium atoms of the Ti 12 cluster with a transition metal M, Co(II) and Mn(II), that is chelated by a phen group. The effects of mono-and bis-substituted Mphen on the charge and structure of the clusters are discussed. Theoretical evaluation of the frontier orbitals of the clusters is carried out on the basis of the precisely defined crystal structures. Different from the dye molecule to TiO core charge transfer for the dye-modified TOCs, charge transfer in these clusters is from TiO/TiOM to phen/Mphen. The effects of different metal ions and the number of substituted Mphen moieties on the photocurrent properties are evaluated. The results will be of interest to research on cluster chemistry, especially on the TOC chemistry.

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Synthesis and Photocatalytic Properties of Titanium‐Porphyrinic Aerogels

Cited by 24 publications

References 100 publications

Self‐Foaming Metal‐Organic Gels Based on Phytic Acid and Their Mechanical, Moldable, and Load‐Bearing Properties.

Self‐Foaming Metal‐Organic Gels Based on Phytic Acid and Their Mechanical, Moldable, and Load‐Bearing Properties.

Soil Microbial Communities Altered by Titanium Ions in Different Agroecosystems of Pitaya and Grape

Mono- and Bismetalphenanthroline-Substituted Ti₁₂ Clusters: Structural Variance and the Effect on Electronic State and Photocurrent Property

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Synthesis and Photocatalytic Properties of Titanium‐Porphyrinic Aerogels

Cited by 24 publications

References 100 publications

Self‐Foaming Metal‐Organic Gels Based on Phytic Acid and Their Mechanical, Moldable, and Load‐Bearing Properties.

Self‐Foaming Metal‐Organic Gels Based on Phytic Acid and Their Mechanical, Moldable, and Load‐Bearing Properties.

Soil Microbial Communities Altered by Titanium Ions in Different Agroecosystems of Pitaya and Grape

Mono- and Bismetalphenanthroline-Substituted Ti12 Clusters: Structural Variance and the Effect on Electronic State and Photocurrent Property

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Product

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Mono- and Bismetalphenanthroline-Substituted Ti₁₂ Clusters: Structural Variance and the Effect on Electronic State and Photocurrent Property