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326046

Sigma-Aldrich

Yttrium(III) acetate hydrate

99.9% metals basis

Synonym(s):

Yttrium triacetate

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About This Item

Linear Formula:
(CH3CO2)3Y · xH2O
CAS Number:
Molecular Weight:
266.04 (anhydrous basis)
EC Number:
MDL number:
UNSPSC Code:
12352103
PubChem Substance ID:
NACRES:
NA.23

Quality Level

Assay

99.9% metals basis

form

powder

reaction suitability

core: yttrium
reagent type: catalyst

SMILES string

O.CC(=O)O[Y](OC(C)=O)OC(C)=O

InChI

1S/3C2H4O2.H2O.Y/c3*1-2(3)4;;/h3*1H3,(H,3,4);1H2;/q;;;;+3/p-3

InChI key

JRKVGRAQLBXGQB-UHFFFAOYSA-K

Application


  • Optical study of Yttrium oxide doped with zinc prepared by simple methods: The research investigates the optical properties of yttrium oxide doped with zinc, using yttrium acetate hydrate in the synthesis process. (Bhavani, Ganesan, 2015).

  • Thermal decomposition of yttrium propionate: film and powder: This paper details the thermal decomposition behavior of yttrium propionate, a compound related to yttrium acetate, providing insights into decomposition mechanisms and thermal stability. (Rasi et al., 2018).

  • In Situ Ternary Adduct Formation of Yttrium Polyaminocarboxylates Leads to Small Molecule Capture and Activation: This research investigates the formation of ternary adducts with yttrium complexes, using acetate and other ligands, demonstrating potential applications in small molecule activation. (Tickner et al., 2022).

Storage Class Code

11 - Combustible Solids

WGK

WGK 3

Flash Point(F)

Not applicable

Flash Point(C)

Not applicable

Personal Protective Equipment

dust mask type N95 (US), Eyeshields, Gloves

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Daifeng Li et al.
Advanced science (Weinheim, Baden-Wurttemberg, Germany), 6(23), 1902042-1902042 (2019-12-14)
Recently, various second near-infrared window (NIR-II, 1000-1700 nm) fluorophores have been synthesized for in vivo imaging with nonradiation, high resolution, and low autofluorescence. However, most of the NIR-II fluorophores, especially inorganic nanoprobes, are mainly retained in the reticuloendothelial system (RES)
Qianqian Su et al.
Frontiers in chemistry, 8, 836-836 (2020-10-24)
Lanthanide-based upconversion nanoparticles can convert low-energy excitation to high-energy emission. The self-assembled upconversion nanoparticles with unique structures have considerable promise in sensors and optical devices due to intriguing properties. However, the assembly of isotropic nanocrystals into anisotropic structures is a
Wei Kong et al.
Inorganic chemistry, 56(2), 872-877 (2017-01-06)
Lanthanide-doped upconversion nanoparticles with a suitable surface coating are appealing for biomedical applications. Because high-quality upconversion nanoparticles are typically prepared in an organic solvent and passivated by hydrophobic oleate ligands, a convenient and reliable method for the surface modification of
Shihua Li et al.
ACS nano, 13(2), 2103-2113 (2019-01-16)
The exploitation of gas therapy platforms holds great promise as a "green" approach for selective cancer therapy, however, it is often associated with some challenges, such as uncontrolled or insufficient gas generation and unclear therapeutic mechanisms. In this work, a
Jingwen Mo et al.
Nanomaterials (Basel, Switzerland), 9(12) (2019-12-05)
We describe here an Nd3+-sensitized upconversion fluorescent sensor for epirubicin (EPI) detection in aqueous solutions under 808 nm laser excitation. The upconversion fluorescence of nanoparticles is effectively quenched in the presence of EPI via a fluorescence resonance energy transfer mechanism.

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