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14007

Sigma-Aldrich

Potassium titanium oxide oxalate dihydrate

Synonym(s):

Dipotassium oxodioxalatotitanate(IV) dihydrate, Oxotitanium potassium ethanedioate hydrate (1:2:2:2)

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About This Item

Empirical Formula (Hill Notation):
C4K2O9Ti · 2H2O
CAS Number:
Molecular Weight:
354.13
EC Number:
MDL number:
UNSPSC Code:
12161600
PubChem Substance ID:
NACRES:
NA.22

form

solid

Quality Level

reaction suitability

core: titanium
reagent type: catalyst

SMILES string

O.O.[K+].[K+].[O-]C(=O)C(=O)O[Ti](=O)OC(=O)C([O-])=O

InChI

1S/2C2H2O4.2K.2H2O.O.Ti/c2*3-1(4)2(5)6;;;;;;/h2*(H,3,4)(H,5,6);;;2*1H2;;/q;;2*+1;;;;+2/p-4

InChI key

PGGRHIGITIPOBF-UHFFFAOYSA-J

General description

Potassium titanium oxide oxalate dihydrate is used as a catalyst in organic synthesis because of its excellent water solubility. It can be easily separated from the reaction mixture after the completion of the reaction.

Application

Potassium titanium oxide oxalate (PTO) dihydrate can be used as:
  • A catalyst to synthesize chromene derivatives via three-component condensation reaction of aromatic aldehydes, malononitrile, and resorcinol/ naphthol.
  • An electrolyte to functionalize the surface of aluminum alloy with TiO2 layer by plasma electrolytic oxidation (PEO).

PTO can be used as a precursor to synthesize titanium dioxide (TiO2) nanoparticles.

Storage Class

13 - Non Combustible Solids

wgk_germany

WGK 3

flash_point_f

Not applicable

flash_point_c

Not applicable

ppe

Eyeshields, Gloves, type N95 (US)


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Ultrasonic synthesis of substituted chromenes by utilizing potassium titanium oxalate
Manake AP, et al.
Materials Today: Proceedings, 26, 3487-3491 (2020)
Formation of multi-functional TiO2 surfaces on AA2024 alloy using plasma electrolytic oxidation
Ignjatovic, S, et al.
Applied Surface Science, 544, 148875-148875 (2021)
Rusen Zou et al.
iScience, 24(2), 102094-102094 (2021-03-23)
Microbial electrosynthesis system (MES) has recently been shown to be a promising alternative way for realizing in situ and energy-saving synthesis of hydrogen peroxide (H2O2). Although promising, the scaling-up feasibility of such a process is rarely reported. In this study
Lipei Qin et al.
Scientific reports, 8(1), 16198-16198 (2018-11-06)
Visible light-driven water splitting (VLWS) into hydrogen and oxygen is attractive and depends on efficient photocatalysts. Herein, we demonstrate the first exploration of the capability to control the morphology of nanostructured TiO2 in conjunction with the choice of a suitable
Solvent?Mediated Dimension Tuning of Semiconducting Oxide Nanostructures as Efficient Charge Extraction Thin Films for Perovskite Solar Cells with Efficiency Exceeding 16%.
Wu W Q, et al.
Advanced Energy Materials, 6(7), 1502027-1502027 (2016)

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