Barium acetate

Manufactured by Merck Group

Sourced in United States

Barium acetate is a white, crystalline solid chemical compound. It is a common laboratory reagent used for various analytical and experimental purposes. The primary function of barium acetate is to serve as a source of barium ions in chemical reactions and analyses.

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Lab products found in correlation

10 protocols using barium acetate

Fabrication of Piezoelectric PVDF-Graphene Composite

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PVDF powder with a molecular weight of 534,000, N,N-dimethylformamide (DMF), titanium butoxide and barium acetate were all purchased from Sigma-Aldrich (St. Louis, MO, USA). Graphene nanopowder with 2–10 μm particle sizes was purchased from Nanostructured & Amorphous Materials, Inc. (Houston, TX, USA), and acetone was obtained from DEQ (Monterrey, NL, Mexico).

Aguirre-Corona R.W., Del Ángel-Sánchez K., Ulloa-Castillo N.A., Rodríguez-Salinas J.J., Olvera-Trejo D., Perales-Martínez I.A., Martínez-Romero O, & Elías-Zúñiga A. (2023). β-Phase Enhancement of Force Spun Composite Nanofibers for Sensing Applications. Polymers, 15(17), 3580.

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Extraction and Analysis of Plant Metabolites

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Absolute ethanol, allyl isothiocyanate, barium acetate, ß-mercaptoethanol, cetyltrimethylammonium bromide (CTAB), chloroform, ethylenediaminetetraacetic acid (EDTA 500 mM), formic acid (FA), isoamyl alcohol, lead(II) acetate, phenyl isothiocyanate, polyvinylpyrrolidone (PVP), sodium acetate, sodium chloride, and Tris–HCl pH 7.5 were purchased from Sigma-Aldrich (St. Louis, MO, USA). Aryl sulfatase from Helix pomatia with 10,000 units (type H-1; EC 3.1.6.1) was obtained from Sigma-Aldrich. DEAE Sephadex A-25 was purchased from Cytiva (Marlborough, MA, USA). Glucotropaeolin potassium salt was obtained from Extrasynthese (Genay Cedex, Rhône, France). Plant Total RNA Mini Kit without DNase was purchased from Geneaid (New Taipei City, Taiwan). High-performance liquid chromatography (HPLC) solvents acetonitrile and methanol were purchased from Daejung (Republic of Korea), and water and dichloromethane were obtained from Thermo Fisher Scientific (Waltham, MA, USA).

Truong T.Q., Park Y.J., Jeon J.S., Choi J., Koo S.Y., Choi Y.B., Huynh P.K., Moon J, & Kim S.M. (2024). Myrosinase isogenes in wasabi (Wasabia japonica Matsum) and their putative roles in glucosinolate metabolism. BMC Plant Biology, 24, 353.

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Fatty Acid and Metal Complex Analysis

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Chloroform, HPLC-grade methanol, and HPLC-grade water were purchased from Fisher Scientific (Pittsburgh, PA). All FA standards were purchased from Cayman Chemical (Ann Arbor, MI). United States Pharmacopeia (USP) reference standard corn oil, magnesium chloride, strontium acetate, calcium acetate, barium acetate, and 1,10-phenanthroline (Phen) were purchased from Sigma-Aldrich (St. Louis, MO). FA standards were prepared in methanol to a final concentration of 0.1 mg/mL (m:v). Tris-phenanthroline alkaline earth metal complexes were prepared by mixing the 1:1(mol/mol) metal salt: Phen in methanol to final concentration of 0.1 mg/mL (m:v).^{37 (link),38 (link)}

Randolph C.E., Foreman D.J., Betancourt S.K., Blanksby S.J, & McLuckey S.A. (2018). Gas-phase ion/ion reactions involving tris-phenanthroline alkaline earth metal complexes as charge inversion reagents for the identification of fatty acids. Analytical chemistry, 90(21), 12861-12869.

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Quantification of Glycosaminoglycans in DBS

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(Z)-Pugnac ((Z)-O-(2-acetamido-2-deoxy-D-glucopyranosylidene)amino N-phenylcarbamate) is from Santa Cruz Biotechnology. Ammonium formate, ammonium acetate, barium acetate, and cerium acetate were from Sigma. Quality control DBS were obtained from Dr. Jason Cournoyer, Perkin Elmer Life Sciences. Recombinant β-NGA was prepared by expression in E. coli as described [4 ], Synthesis of 4MU-GalNAc-4-S and 4MU-GalNAc-6-S is given in Supplemental Material. DBS from random newborns were obtained from Prof. C. Auray-Blais, Univ. of Sherbrooke, Quebec. After DBS generation, they were stored for 1 week at ambient temperature and thereafter at −20°C for ~2 y. DBS from MPS patients were obtained with the help of the MPS Society. DBS were generated from patients and received at the Univ. of Washington within ~3 days, then stored at −20°C for up to 1 y. All human samples were handled according to our IRB protocol at the Univ. of Washington.

Kumar A.B., Spacil Z., Ghomashchi F., Masi S., Sumida T., Ito M., Turecek F., Scott C.R, & Gelb M.H. (2015). Fluorimetric Assays for N-Acetylgalactosamine-6-Sulfatase and Arylsulfatase B Based on the Natural Substrates for Confirmation of Mucopolysaccharidoses Types IVA and VI. Clinica chimica acta; international journal of clinical chemistry, 451(0 0), 125-128.

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Synthesis and Characterization of Functionalized Carbon Xerogel Microspheres

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Cannabidiol (CBD) solution in methanol at a concentration of 1 mg∙mL⁻¹ was used as a stock solution for the calibration curve and adsorption experiments (Sigma-Aldrich, St. Louis, MO, USA). Resorcinol (≥90%, Sigma-Aldrich), formaldehyde (mass fraction of 36.5 in H₂O, Sigma-Aldrich), and barium acetate (≥99%, Sigma-Aldrich) were used for the carbon xerogel microsphere (CXM) synthesis, while phosphoric acid (mass fraction of 85% in H2O, Sigma-Aldrich) and melamine (99%, Sigma Aldrich) were used for the material functionalization. Acetone (mass fraction of 99.8% in water, Sigma-Aldrich) was used for the washing protocol. Sodium acetate (99%, Merck KGaA, Darmstadt, DE, Germany), acetic acid (≥90%, Merck KGaA), sodium phosphate dibasic (≥90%, Sigma-Aldrich), and sodium dihydrogen phosphate (≥90%, Sigma-Aldrich) were used for preparing buffer solutions. Finally, standards of cannabidiol CBD (1 mg·mL-1, Sigma-Aldrich) and aflatoxin B1 (AFLA_B1, 20 µg·mL⁻¹ Sigma-Aldrich) were used for calibration curves and adsorption assays.

Cortés F.B., Zapata K., Rojano B.A., Carrasco-Marín F., Gallego J., Hernández M.A, & Franco C.A. (2019). Dual-Purpose Materials Based on Carbon Xerogel Microspheres (CXMs) for Delayed Release of Cannabidiol (CBD) and Subsequent Aflatoxin Removal. Molecules, 24(18), 3398.

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Chitosan-Based Antimicrobial Formulations

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Chitosan (147 kDa, DD = 82%), citral (95%), acetic acid, sodium acetate trihydrate, mercury acetate (99%), potassium acetate (98%), calcium acetate hydrate (99%), barium acetate (99%), manganese II acetate tetrahydrate (98%), cobalt II acetate tetrahydrate (99%), cadmium II acetate dehydrate (99%), chromium III acetate (99%), copper II acetate hydrate (98%), lead II acetate trihydrate (99%), nickel acetate tetrahydrate (98%), zinc II acetate dehydrate (99%) and ethanol were purchased from Sigma Aldrich Co. St. Louis, MO, USA and used as received.

Ailincai D, & Andreica B.I. (2023). Citryl-Imino-Chitosan Xerogels as Promising Materials for Mercury Recovery from Waste Waters. Polymers, 16(1), 19.

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Synthesis of SrWO4:[Er3+]/[Yb3+] Upconversion Phosphor

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Barium acetate ((CH₃CO₂)₂Sr, Sigma-Aldrich), sodium tungstate (Na₂WO₄·2H₂O, Sigma-Aldrich), ytterbium(iii) nitrate pentahydrate (Yb(NO₃)₃·5H₂O, Yb³⁺), and erbium(iii) nitrate pentahydrate (Er(NO₃)₃·5H₂O, Er³⁺). 10 mmol of (CH₃CO₂)₂Sr was dissolved in beaker “A” containing 100 ml of distilled water. In beaker “B”, 10 mmol of Na₂WO₄·2H₂O was dissolved in 100 ml distilled water (Fig. 1). The solution that was completely dissolved in beaker “B” was slowly poured into a stirring beaker “A” and remained there for about 20 minutes. After that, powder was recovered using a centrifuge (4000 rpm, 5 min), and the powder was prepared by rinsing with distilled water 3 times to remove any remaining sodium. The powder was dried in an oven at 80 °C for 16 hours. The up-conversion phosphor was synthesized with SrWO₄ as a host, the precursor made by simultaneously adding Yb(NO₃)₃·5H₂O and Er(NO₃)₃·5H₂O to beaker “A”. The prepared precursor was sintered at 800 °C until the SrWO₄:[Er³⁺]/[ Yb³⁺] phosphor was synthesized. Rare earth [RE] ions of Yb³⁺ were fixed at 0.5 mmol, and the amount of Er³⁺ (0.05, 0.1, 0.15, 0.2, 0.25, 0.3, 0.4, 0.5 mmol) added changed ([Er³⁺]/[Yb³⁺] ∼ 0.1, 0.2, 0.3, 0.4, 0.6, 0.8, 1).^{20,21 (link)}

Yi S.S, & Jung J.Y. (2022). Up-conversion luminescence properties with temperature change of strontium tungstate phosphors. RSC Advances, 12(38), 24752-24759.

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Biomarker Profiling for Metabolic Disorders

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Barium acetate, chloroform, heparin, hydrochloric acid (HCl), isoproterenol, methanol, N-tris-(hydroxymethyl)methyl-2-aminoethanesulfonic acid, phenol, p-nitrophenyl butyrate, sodium acetate, sodium hydroxide (NaOH), sulfuric acid, and trifluoroacetic acid (TFA) were obtained from Sigma-Aldrich (St. Louis, MO, USA). A cholesterol enzymatic kit (Audit Diagnostics, Cork, Ireland), a TG enzymatic kit (Audit Diagnostics, Cork, Ireland), a glucose detection kit (Audit Diagnostics, Cork, Ireland), and plasma TNF-α, IL-6, and leptin ELISA kits (Assay Design, Ann Arbor, MI, USA) were used. A radio immunoprecipitation buffer (Cell Signaling Technology, Beverly, MA, USA) and an enhanced chemiluminescence kit (PerkinElmer, Waltham, MA, USA) were used.

Yang T.H., Chiu C.Y., Lu T.J., Liu S.H, & Chiang M.T. (2019). The Anti-Obesity Effect of Polysaccharide-Rich Red Algae (Gelidium amansii) Hot-Water Extracts in High-Fat Diet-Induced Obese Hamsters. Marine Drugs, 17(9), 532.

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Synthesis of Barium Titanate Nanoparticles

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The following reagents were purchased from Merck (Merck KGaA, Gernsheim, Germany) and used without any further purification: barium acetate (99.999% trace metals basis) Chemical Standard Service (CAS) no. 543-80-6, sodium hydroxide (reagent grade, ≥98% anhydrous) CAS no. 1310-73-2, titanium (IV) isopropoxide (99.999% trace metals basis) CAS no. 546-68-9, 2-propanol (analytical standard, anhydrous) CAS no. 67-63-0, oleic acid (≥99%) CAS no. 112-80-1. To overcome any contamination of our BTO samples, only deionized water (resistivity of 18.2 MΩ cm measured at 25 °C) was used in all preparation steps.

Pasuk I., Neațu F., Neațu Ș., Florea M., Istrate C.M., Pintilie I, & Pintilie L. (2021). Structural Details of BaTiO3 Nano-Powders Deduced from the Anisotropic XRD Peak Broadening. Nanomaterials, 11(5), 1121.

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Synthesis and Characterization of Strontium-Doped Iron Oxides

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Commercially accessible materials and solvents are readily used. The following chemicals were obtained from Sigma-Aldrich: Iron (III) nitrate nonahydrate (Fe(NO₃)₃.9H₂O) with the purity of more than 99.95 %, Strontium (II) nitrate (Sr(NO₃)₂.4H₂O) with the purity of more than 99 %, Nitric acid (HNO₃) with the purity of more than 99 %, Barium acetate (C₄H₆BaO_4.4H₂O) with the purity of more than 98 %, Sodium bicarbonate (NaHCO₃) with the purity of more than 30 %, ethanol (C₂H₅OH) with the purity of more than 99.8 %, acetic acid (CH₃COOH) with the purity of more than 99 %, silicotungstic acid (H₄SiW₁₂O₄₀._nH₂O) with the purity of more than 95 %, Chitosan (C₆H₁₁NO₄) with the purity of more than 99 %; and the following chemicals were obtained from Merck: Citric Acid Monohydrate (C₆H₈O₇. H₂O), Hydrochloric acid (HCl) with the purity of more than 37 %, sodium hydroxide (NaOH) with the purity of more than 99 %, Potassium chloride (KCl), Methyl orange (C₁₄H₁₄N₃NaO₃S) with the purity of more than 99.99 %, and Xylenol Orange tetrasodium (C₃₁H₂₈N₂Na₄O₁₃S).

Rezvani M.A., Hemmatzadeh A., Seyed Dorraji M.S., Nourbakhsh N, & Oroumi G. (2024). New magnetic nanocomposites based on hexafrite and keggin-type -type heteropolyanions: Synthesized and characterized for removal of environmental pollutants. Heliyon, 10(9), e30289.

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