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Sigma-Aldrich

Yttrium(III) acetate tetrahydrate

99.99% trace rare earth metals basis

Synonym(s):

Acetic acid yttrium(3+) salt, Yttrium triacetate

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About This Item

Linear Formula:
(CH3CO2)3Y . 4H2O
CAS Number:
UNSPSC Code:
12352302
NACRES:
NA.21

Quality Level

Assay

99.99% trace rare earth metals basis

form

powder

impurities

≤150 ppm trace rare earth metals
≤500 ppm trace metals

mp

350 °C (Decomp.)

solubility

H2O: soluble (lit.)

density

1.5 g/cm3

General description

Yttrium acetate tetrahydrate is a white, crystalline salt. The salt is soluble in water and mineral acids as well as solutions, such as methoxyethanol with diethylenetriamine, that complex with the Y3+ cations.

Application

Yttrium acetate is a common reactant in the synthesis of yttrium compounds including yttrium oxides and yttrium fluorides. Yttrium acetate is particularly useful because of its solubility in and low thermal decomposition temperature, which make it attractive for hydrothermal reactions and co-precipitation processing before calcination.

A major application of high-purity yttrium acetate is in the synthesis of sodium yttrium fluoride (NaYF4) nanoparticles. Typically, in these syntheses, yttrium acetate is mixed with oleic acid in octadecene and heated to form Y(oleate)3, which is reacted with ammonium fluoride and sodium hydroxide in methanol at modest temperatures (e.g. 50 C) to form NaYF4 nanoparticles. This synthesis offers great control over particle size and crystallinity and allows for easy incorporation rare-earth metal dopants.
Lanthanide-doped NaYF4 nanoparticles are one of the most studied materials for up conversion. These nanoparticles, which can convert two photons of near-infrared (NIR) light into visible light, have important in-vivo applications because of the deep tissue penetration abilities of NIR. For example, these nanoparticles have been used for in-vivo Zn2+ optical sensing, in-vivo ratiometric sensing of lymphatic inflammation,, and in-vivo sensing of peroxynitrite.

Storage Class Code

11 - Combustible Solids

WGK

WGK 3

Flash Point(F)

Not applicable

Flash Point(C)

Not applicable


Certificates of Analysis (COA)

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Shangfeng Wang et al.
Nano letters, 19(4), 2418-2427 (2019-03-19)
Quantitatively imaging the spatiotemporal distribution of biological events in living organisms is essential to understand fundamental biological processes. Self-calibrating ratiometric fluorescent probes enable accurate and reliable imaging and sensing, but conventional probes using wavelength of 400-900 nm suffer from extremely
Two-Photon Upconversion Laser (Scanning and Wide-Field) Microscopy Using Ln3+-Doped NaYF4 Upconverting Nanocrystals: A Critical Evaluation of their Performance and Potential in Bioimaging.
Pichaandi J, et al.
The Journal of Physical Chemistry C, 115, 19054-19064 (2011)
Zhenglin Yang et al.
Journal of the American Chemical Society, 140(50), 17656-17665 (2018-11-15)
Spatial and temporal distributions of metal ions in vitro and in vivo are crucial in our understanding of the roles of metal ions in biological systems, and yet there is a very limited number of methods to probe metal ions
Juanjuan Peng et al.
Angewandte Chemie (International ed. in English), 56(15), 4165-4169 (2017-03-16)
Drug toxicity is a long-standing concern of modern medicine. A typical anti-pain/fever drug paracetamol often causes hepatotoxicity due to peroxynitrite ONOO- . Conventional blood tests fail to offer real-time unambiguous visualization of such hepatotoxicity in vivo. Here we report a luminescent
Hard Proof of the NaYF4/NaGdF4 Nanocrystal Core/Shell Structure.
Abel K A, et al.
Journal of the American Chemical Society, 131, 14644-14645 (2009)

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