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Iron Acetate Solution
AE Solutions™
Fe(CH3COO)2
Product
Product Code
Order or Specifications
99% Iron Acetate Solution
FE-AC-02-SOL
 Contact American Elements
99.9% Iron Acetate Solution
FE-AC-03-SOL
 Contact American Elements
99.99% Iron Acetate Solution
FE-AC-04-SOL
 Contact American Elements
99.999% Iron Acetate Solution
FE-AC-05-SOL
 Contact American Elements
Iron Acetate Solutions are moderate to highly concentrated liquid solutions of Iron Acetate. They are an excellent source of Iron Acetate for applications requiring solubabilzed Compound Solutions Packaging, Bulk Quantity materials. American Elements can prepare dissolved homogenous solutions at customer specified concentrations or to the maximum stoichiometric concentration. Packaging is available in 55 gallon drums, smaller units and larger liquid totes. American Elements maintains solution production facilities in the United States, Northern Europe (Liverpool, UK), Southern Europe (Milan, Italy), Australia and China to allow for lower freight costs and quicker delivery to our customers. .American Elements metal and rare earth compound solutions have numerous applications, but are commonly used in petrochemical cracking and automotive catalysts, water treatment, plating, textiles, research and in optic, laser, crystal and glass applications. Ultra high purity and high purity compositions improve both optical quality and usefulness as scientific standards. Nanoscale (See also Nanotechnology Information and Quantum Dots) elemental powders and suspensions, as alternative high surface area forms, may be considered. We also produce Iron Acetate Powder. Additional technical, research and safety (MSDS) information is available as is a Reference Calculator for converting relevant units of measurement.

Iron is a Block D, Group 8, Period 4 element. The electronic configuration is [Ar] 3d6 4s2. In its elemental form iron's CAS number is 7439-89-6. The iron atom has a radius of 124.1.pm and it's Van der Waals radius is 200.pm. Iron is the most commonly used metal for commercial applications due to its hardness, historical availability and low cost. Once used on its own, it is now alloyed with nickel and other elements to produce steel and other high strength, non-corrosive structural metals. Iron as a metal and as its many compounds has numerous uses. It is a primary colorant in glass and ceramics. It is a catalyst. It is the basis for low grade magnets and because of its magnetic properties is used extensively in memory tape. Recent applications for Iron nanoparticles include in water treatment of carbon tetrachloride in contaminated groundwater, magnetic data storage and resonance imaging (MRI) and in certain alloy and catalyst applications. Iron can also be introduced into processes using iron foil, pellets, rod and wire by thin film Chemical Vapor Deposition (CVD) and Physical Vapor Deposition (PVD) processes including Thermal and Electron Beam (E-Beam) Evaporation, Low Temperature Organic Evaporation, Atomic Layer Deposition (ALD), Organometallic and Chemical Vapor Deposition (MOCVD) for specific applications such as fuel cells and solar energy. Iron is available as metal and compounds with purities from 99% to 99.999% (ACS grade to ultra-high purity); metals in the form of foil, sputtering target, and rod, and compounds as submicron and nanopowder. Iron was first discovered by Early Man.
Formula CAS No. Appearance Molecular Weight
Fe(CH3COO)2 3094-87-9 White to Clear Liquid 173.93
PRODUCT CATALOG
Iron Products
Submicron & Nanopowder Tolling Ultra High Purity Sputtering Target Crystal Growth Rod, Plate, Powder, etc.
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Production Catalog Available in 32 Countries
 
Periodic table of the elements science and academic information, elements and advanced materials data, scientific presentations and all pages, designs, concepts, logos, and color schemes herein are the copyrighted proprietary rights and intellectual property of American Elements. American Elements is a U.S. Registered Trademark. © 2001-2009. American Elements. All rights reserved.

 

Recent Research & Development for Iron

  • Enhanced Reactivities of Iron(IV)-Oxo Porphyrin pi-Cation Radicals in Oxygenation Reactions by Electron-Donating Axial Ligands. Kang Y, Chen H, Jeong YJ, Lai W, Bae EH, Shaik S, Nam W. Chemistry. 2009 Aug 20. [Epub ahead of print] PMID: 19697378 [PubMed - as supplied by publisher]

  • New molecules from old classes: revisiting the development of beta-lactams. Page MG, Heim J. IDrugs. 2009 Sep;12(9):561-5. PMID: 19697275 [PubMed - in process]

  • Compliance to iron supplementation during pregnancy. Habib F, Alabdin EH, Alenazy M, Nooh R. J Obstet Gynaecol. 2009 Aug;29(6):487-92. PMID: 19697194 [PubMed - in process]

  • Small (
  • Identification of up-regulated genes in flag leaves during rice grain filling and characterization of OsNAC5, a new ABA-dependent transcription factor. Sperotto RA, Ricachenevsky FK, Duarte GL, Boff T, Lopes KL, Sperb ER, Grusak MA, Fett JP. Planta. 2009 Aug 21. [Epub ahead of print] PMID: 19697058 [PubMed - as supplied by publisher]

  • In vivo transfer of intracellular labels from locally implanted bone marrow stromal cells to resident tissue macrophages. Pawelczyk E, Jordan EK, Balakumaran A, Chaudhry A, Gormley N, Smith M, Lewis BK, Childs R, Robey PG, Frank JA. PLoS One. 2009 Aug 21;4(8):e6712. PMID: 19696933 [PubMed - in process]

  • Lymphotropic nanoparticle-enhanced MRI for independent prediction of lymph node malignancy: a logistic regression model. Pandharipande PV, Mora JT, Uppot RN, Goehler A, Braschi M, Halpern EF, Gazelle GS, Harisinghani MG. AJR Am J Roentgenol. 2009 Sep;193(3):W230-7. PMID: 19696264 [PubMed - in process]

  • Pumping iron: mechanisms for iron uptake by Campylobacter. Miller CE, Williams PH, Ketley JM. Microbiology. 2009 Aug 20. [Epub ahead of print] PMID: 19696110 [PubMed - as supplied by publisher]

  • Transcriptional up-regulation of four genes of the lysine biosynthetic pathway by homocitrate accumulation in Penicillium chrysogenum: homocitrate as a sensor system of the pathway distress. Teves F, Lamas-Maceiras M, García-Estrada C, Casqueiro J, Naranjo L, Ullán RV, Scervino JM, Wu X, Velasco-Conde T, Martín JF. Microbiology. 2009 Aug 20. [Epub ahead of print] PMID: 19696106 [PubMed - as supplied by publisher]

  • Vishweshwaraiah Iron Steel Limited (VISL) fire disasters following steel converter blast, 30 July 2003. Kumar P. Burns. 2009 Aug 18. [Epub ahead of print] PMID: 19695784 [PubMed - as supplied by publisher]

  • Inhibition of sulfate reduction by iron, cadmium and sulfide in granular sludge. Gonzalez-Silva BM, Briones-Gallardo R, Razo-Flores E, Celis LB. J Hazard Mater. 2009 Jul 14. [Epub ahead of print] PMID: 19695775 [PubMed - as supplied by publisher]

  • Magnetic nanoparticles encapsulated into biodegradable microparticles steered with an upgraded magnetic resonance imaging system for tumor chemoembolization. Pouponneau P, Leroux JC, Martel S. Biomaterials. 2009 Aug 18. [Epub ahead of print] PMID: 19695700 [PubMed - as supplied by publisher]

  • Magnetic tagging increases delivery of circulating progenitors in vascular injury. Kyrtatos PG, Lehtolainen P, Junemann-Ramirez M, Garcia-Prieto A, Price AN, Martin JF, Gadian DG, Pankhurst QA, Lythgoe MF. JACC Cardiovasc Interv. 2009 Aug;2(8):794-802. PMID: 19695550 [PubMed - in process]

  • [Immunoglobulin treatment for neonatal hemochromatosis: A case report in a context of immunoglobulin delivery quotas.] Lecointre R, Lima S, Varlet MN, Combe C. Ann Pharm Fr. 2009 Sep;67(5):304-9. Epub 2009 Jul 30. French. PMID: 19695366 [PubMed - in process]

  • Antioxidant enzymes show adaptation to oxidative stress in athletes and increased stress in hemodialysis patients. Knap B, Prezelj M, Buturovic-Ponikvar J, Ponikvar R, Bren AF. Ther Apher Dial. 2009 Aug;13(4):300-5. PMID: 19695063 [PubMed - in process]

  • Efficiency of sediment quality guidelines to predict toxicity: The case of the St. Lawrence River. Desrosiers M, Babut M, Pelletier M, Bélanger C, Thibodeau S, Martel L. Integr Environ Assess Manag. 2009 Aug 20:1. [Epub ahead of print] PMID: 19694492 [PubMed - as supplied by publisher]

  • Iron(III) Complexes of Tripodal Monophenolate Ligands as Models for Non-Heme Catechol Dioxygenase Enzymes: Correlation of Dioxygenase Activity with Ligand Stereoelectronic Properties. Mayilmurugan R, Visvaganesan K, Suresh E, Palaniandavar M. Inorg Chem. 2009 Aug 20. [Epub ahead of print] PMID: 19694480 [PubMed - as supplied by publisher]

  • Synthesis, Structures, and Electronic Properties of [8Fe-7S] Cluster Complexes Modeling the Nitrogenase P-Cluster. Ohki Y, Imada M, Murata A, Sunada Y, Ohta S, Honda M, Sasamori T, Tokitoh N, Katada M, Tatsumi K. J Am Chem Soc. 2009 Aug 20. [Epub ahead of print] PMID: 19694466 [PubMed - as supplied by publisher]

  • Structures and Spin States of Bis(tridentate)-Type Mononuclear and Triple Helicate Dinuclear Iron(II) Complexes of Imidazole-4-carbaldehyde azine. Sunatsuki Y, Kawamoto R, Fujita K, Maruyama H, Suzuki T, Ishida H, Kojima M, Iijima S, Matsumoto N. Inorg Chem. 2009 Aug 20. [Epub ahead of print] PMID: 19694455 [PubMed - as supplied by publisher]

  • Isocyanides Inhibit Human Heme Oxygenases at the Verdoheme Stage. Evans JP, Kandel S, Ortiz de Montellano PR. Biochemistry. 2009 Aug 20. [Epub ahead of print] PMID: 19694439 [PubMed - as supplied by publisher]

 

 

 

 

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