Nickel Titanium Concentrate

Linear Formula: NiTi

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(2N) 99% Nickel Titanium Concentrate
NI-TI-02-CONC Pricing
(3N) 99.9% Nickel Titanium Concentrate
NI-TI-03-CONC Pricing
(4N) 99.99% Nickel Titanium Concentrate
NI-TI-04-CONC Pricing
(5N) 99.999% Nickel Titanium Concentrate
NI-TI-05-CONC Pricing


Appearance Solid
Melting Point N/A
Boiling Point N/A
Density N/A

Health & Safety Information

Signal Word N/A
Hazard Statements N/A
Hazard Codes N/A
Risk Codes N/A
Safety Statements N/A
Transport Information N/A


Nickel Titanium ConcentrateAmerican Elements offers Nickel Titanium Concentrate with a majority nickel titanium base component. Preparation of nickel titanium concentrate typically involves the removal of water from an nickel titanium solution. American Elements specializes in producing high purity Nickel Concentrate with the smallest possible average grain sizes for use in preparation of pressed and bonded sputtering targets and in 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), Metallic-Organic and Chemical Vapor Deposition (MOCVD). Nickel Titanium concentrate is similar to powder in that it is made up of minute, dry particles of pure substance. Concentrate is also useful in any application where high surface areas are desired such as water treatment and in fuel cell and solar applications. Nanoparticles also produce very high surface areas. Our standard Concentrate particle sizes average in the range of - 325 mesh, - 100 mesh, 10-50 microns and submicron (< 1 micron). We can also provide many materials in the nanoscale range. We also produce Nickel Titanium as disc, granules, ingot, pellets, foil, foil, wire, and sputtering target. Nickel Titanium concentrate is advantageous for transportation since it reduces weight and volume. A solution can be reproduced at the time of usage with the addition of a solvent.



Chemical Identifiers

Linear Formula NiTi
MDL Number N/A
EC No. N/A

Packaging Specifications

Typical bulk packaging includes palletized plastic 5 gallon/25 kg. pails, fiber and steel drums to 1 ton super sacks in full container (FCL) or truck load (T/L) quantities. Research and sample quantities and hygroscopic, oxidizing or other air sensitive materials may be packaged under argon or vacuum. Shipping documentation includes a Certificate of Analysis and Safety Data Sheet (SDS). Solutions are packaged in polypropylene, plastic or glass jars up to palletized 440 gallon liquid totes, and 36,000 lb. tanker trucks.

Related Products & Element Information


See more Nickel products. Nickel (atomic symbol: Ni, atomic number: 28) is a Block D, Group 4, Period 4 element with an atomic weight of 58.6934. Nickel Bohr ModelThe number of electrons in each of nickel's shells is [2, 8, 16, 2] and its electron configuration is [Ar]3d8 4s2. Nickel was first discovered by Alex Constedt in 1751. The nickel atom has a radius of 124 pm and a Van der Waals radius of 184 pm. In its elemental form, nickel has a lustrous metallic silver appearance. Nickel is a hard and ductile transition metal that is considered corrosion-resistant because of its slow rate of oxidation. Elemental NickelIt is one of four elements that are ferromagnetic and is used in the production of various type of magnets for commercial use. Nickel is sometimes found free in nature but is more commonly found in ores. The bulk of mined nickel comes from laterite and magmatic sulfide ores. The name originates from the German word kupfernickel, which means "false copper" from the illusory copper color of the ore.


See more Titanium products. Titanium (atomic symbol: Ti, atomic number: 22) is a Block D, Group 4, Period 4 element with an atomic weight of 47.867. The number of electrons in each of Titanium's shells is [2, 8, 10, 2] and its electron configuration is [Ar] 3d2 4s2. Titanium Bohr ModelThe titanium atom has a radius of 147 pm and a Van der Waals radius of 187 pm. Titanium was discovered by William Gregor in 1791 and first isolated by Jöns Jakob Berzelius in 1825. In its elemental form, titanium has a silvery grey-white metallic appearance. Titanium's properties are chemically and physically similar to zirconium, both of which have the same number of valence electrons and are in the same group in the periodic table. Elemental TitaniumTitanium has five naturally occurring isotopes: 46Ti through 50Ti, with 48Ti being the most abundant (73.8%). Titanium is found in igneous rocks and the sediments derived from them. It is named after the word Titanos, which is Greek for Titans.

Recent Research

Adsorptive removal of nickel(II) ions from aqueous environment: A review., Raval, Nirav P., Shah Prapti U., and Shah Nisha K. , J Environ Manage, 2016 Sep 1, Volume 179, p.1-20, (2016)

Cytotoxicity and intracellular dissolution of nickel nanowires., Perez, Jose E., Contreras Maria F., Vilanova Enrique, Felix Laura P., Margineanu Michael B., Luongo Giovanni, Porter Alexandra E., Dunlop Iain E., Ravasi Timothy, and Kosel Jürgen , Nanotoxicology, 2016 Sep, Volume 10, Issue 7, p.871-80, (2016)

Sorption kinetics of zinc and nickel on modified chitosan., Tripathi, Nimisha, Choppala Girish, Singh Raj S., Srivastava Prashant, and Seshadri Balaji , Environ Monit Assess, 2016 Sep, Volume 188, Issue 9, p.507, (2016)

Recovery of molybdenum, nickel and cobalt by precipitation from the acidic leachate of a mineral sludge., Vemic, M, Bordas F, Comte S, Guibaud G, Lens P N. L., and van Hullebusch E D. , Environ Technol, 2016 Sep, Volume 37, Issue 17, p.2231-42, (2016)

Dopamine biosensor based on surface functionalized nanostructured nickel oxide platform., Roychoudhury, Appan, Basu Suddhasatwa, and Jha Sandeep Kumar , Biosens Bioelectron, 2016 Oct 15, Volume 84, p.72-81, (2016)

Nickel oxide nanoparticle-based method for simultaneous harvesting and disruption of microalgal cells., Huang, Wen-Can, and Kim Jong-Duk , Bioresour Technol, 2016 Oct, Volume 218, p.1290-3, (2016)

Effect of composites based nickel foam anode in microbial fuel cell using Acetobacter aceti and Gluconobacter roseus as a biocatalysts., Karthikeyan, Rengasamy, Krishnaraj Navanietha, Selvam Ammaiyappan, Wong Jonathan Woon- Chung, Lee Patrick K. H., Leung Michael K. H., and Berchmans Sheela , Bioresour Technol, 2016 Oct, Volume 217, p.113-20, (2016)

Solvent-assisted morphology confinement of a nickel sulfide nanostructure and its application for non-enzymatic glucose sensor., Kim, Soochan, Lee Sang Ha, Cho Misuk, and Lee Youngkwan , Biosens Bioelectron, 2016 Nov 15, Volume 85, p.587-95, (2016)

Contrasting effects of biochar, compost and farm manure on alleviation of nickel toxicity in maize (Zea mays L.) in relation to plant growth, photosynthesis and metal uptake., Rehman, Muhammad Zia- Ur, Rizwan Muhammad, Ali Shafaqat, Fatima Nida, Yousaf Balal, Naeem Asif, Sabir Muhammad, Ahmad Hamaad Raza, and Ok Yong Sik , Ecotoxicol Environ Saf, 2016 Nov, Volume 133, p.218-25, (2016)

Highly efficient electrochemical hydrogen evolution based on nickel diselenide nanowall film., Tang, Chun, Xie Lisi, Sun Xuping, Asiri Abdullah M., and He Yuquan , Nanotechnology, 2016 May 20, Volume 27, Issue 20, p.20LT02, (2016)

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