Skip to main content

Iron Nanoparticles/Nanopowder and Applications

General Information about Iron 
                                       
Iron is a chemical element with symbol Fe and atomic number 26. It is a metal in the first transition series. It is by mass the most common element on Earth, forming much of Earth's outer and inner core. It is the fourth most common element in the Earth's crust. Iron exists in a wide range of oxidation states, -2 to +7, but +2 and +3 states are the most common.
Iron metal has been used since ancient times, although copper alloys, which have lower melting temperatures, were used even earlier in human history. Pure iron is relatively soft, but is unobtainable by smelting because it is significantly hardened and strengthened by impurities.
Iron chemical compounds have many uses. Iron oxide mixed with aluminium powder can be ignited to create a thermite reaction, used in welding and purifying ores. Iron forms binary compounds with the halogens and the chalcogens. Among its organometallic compounds is ferrocene, the first sandwich compound discovered.
Iron plays an important role in biology, forming complexes with molecular oxygen in hemoglobin and myoglobin; these two compounds are common oxygen transport proteins in vertebrates. Iron is also the metal at the active site of many important redox enzymes dealing with cellular respiration and oxidation and reduction in plants and animals. Iron is a critical element in the metabolism of hundreds of proteins and enzymes involved in diverse body functions, such as oxygen transport, DNA synthesis, and cell growth.
Applications of Iron Nanoparticles/Nanopowder
Iron nanoparticles/nanopowder are highly reactive because of their large surface area. Iron nanoparticles/ nanopowder are known for their electrical and magnetic properties. With these properties Iron nanoparticles/ nanopowder can be used in magnetic probes, magnetic data storage, vacuum seals, magnetic separators and contrast agents in MRI, hard metal degradation, transistor applications. Iron nanoparticles/nanopowder are also used as a primary colorant in glass and ceramics and as a catalyst. Another application of Iron nanoparticles/nanopowder in industry is for treating industrial sites contaminated with chlorinated organic compounds. Research has shown that Iron nanoparticles/nanopowder can be effectively used to treat several forms of ground contamination, including grounds contaminated by polychlorinated biphenyls (PCBs), chlorinated organic solvents, and organochlorine pesticides.
Technical Properties of Our Iron (Fe) Nanoparticle/Nanopowder 99.55%, 22 nm, partially passivated Product
Purity (%):≥99,5
Bulk Density (g/cm3):0,15-0,30
True Density (g/cm3):7,9
Color:black
Crystal Structure:cubic
AVERAGE PARTICLE SIZE (nm):25
SPECIFIC SURFACE AREA (m2/g):45,0-65,0


You may buy Iron (Fe) Nanoparticle/Nanopowder 99.55%, 22 nm, partially passivated for your need from the link given below:
Technical Properties of Our Iron (Fe) Nanoparticles/Nanopowder 99.55%, 22 nm, carbon coated Product
Fe Purity (%):≥99,55
Bulk Density (g/cm3):0,15-0,30
True Density (g/cm3):7,9
Color:black
Crystal Structure:cubic
AVERAGE PARTICLE SIZE (nm):22
SPECIFIC SURFACE AREA (m2/g):45,0-65,0

You may buy Iron (Fe) Nanoparticles/Nanopowder 99.55%, 22 nm, carbon coated for your need from the link given below:
Technical Properties of Our Iron (Fe) Nanoparticle/Nanopowder, 99.55+%, 30-40 nm, metal basis Product
Bulk Density (g/cm3):0,5
True Density (g/cm3):7,9
Color:black
Crystal Structure:cubic
AVERAGE PARTICLE SIZE (nm):30-40
SPECIFIC SURFACE AREA (m2/g):10,0-15,0

You may buy Iron (Fe) Nanoparticle/Nanopowder, 99.55+%, 30-40 nm, metal basis for your need from the link given below:
Technical Properties of Our Iron (Fe) Nanoparticle/Nanopowder 99.55+%, 60-70 nm, metal basis Product
Bulk Density (g/cm3):0,4
True Density (g/cm3):7,9
Color:black
Crystal Structure:cubic
AVERAGE PARTICLE SIZE (nm):60-70
SPECIFIC SURFACE AREA (m2/g):7,0-10,0

You may buy Iron (Fe) Nanoparticle/Nanopowder 99.55+%, 60-70 nm, metal basis for your need from the link given below:
Technical Properties of Our Iron (Fe) Nanoparticle/Nanopowder 99.55+%, 90-100 nm, metal basis Product
Bulk Density (g/cm3):0,7
True Density (g/cm3):7,9
Color:black
Crystal Structure:cubic
AVERAGE PARTICLE SIZE (nm):90-100
SPECIFIC SURFACE AREA (m2/g):4,5-7,0

You may buy Iron (Fe) Nanoparticle/Nanopowder 99.55+%, 90-100 nm, metal basis for your need from the link given below:
Technical Properties of Our Iron (Fe) Nanoparticle/Nanopowder 99.55%, 790 nm Product
True Density (g/cm3):7,9
Color:dark grey
Crystal Structure:cubic
Tmelting (oC):1538
Tboiling (oC):2862
AVERAGE PARTICLE SIZE (nm):800

You may buy Iron (Fe) Nanoparticle/Nanopowder 99.55%, 790 nm for your need from the link given below:

https://nanografi.com/nanoparticles/fe-iron-nanoparticle-99-55-790-nm/
Labels:

Comments

Post a Comment

Popular posts from this blog

Molybdenum Trioxide Nanoparticles/Nanopowder and Applications

General Information about Molybdenum Trioxide                                                     Molybdenum trioxide is chemical compound with the formula MoO3. Its chief application is as an oxidation catalyst and as a raw material for the production of molybdenum metal.  Molybdenum Trioxide  is a very light blue powder. Molybdenum Trioxide Nanoparticles/Nanopowder and Their Applications                                                    Like many  nanoparticles/nanopowder , Molybdenum Trioxide nanoparticles/nanopowder are used as catalysts. These catalysis reactions include hydrogenation catalysis and cracking catalysis. Molybdenum Trioxide nanoparticles/  nanopowder are useful for...
Post a Comment
Read more

Improving Dialysis Process with Graphene

Researchers from Mechanical and Electrical Engineering Departments of MIT recently showed that graphene is a powerful material candidate for use in the dialysis systems (such as hemodialysis machines in medical institutes for filtering human blood). In order to prepare graphene as a dialysis material, researchers used a procedure opposite to the general treatments that nanotechnology people use. Dialysis is a process of filtering different solutions such as human blood by a membrane in order to remove waste molecules, drugs, chemical residues from the solution. In some cases, the process can be used for purification of chemicals or isolation of different molecules for medical diagnosis. It is an essential process for scientists especially in the medical operations. Image Retrieved From: http://www.graphene-nownano.manchester.ac.uk/our-research/examples-of-current-projects/fundamental-science/use-of-graphene-as-bio-membrane/ The traditional membranes used in dialysis are thick ...
Post a Comment
Read more

Rundown about Silicon Oxide Wafer

The main insulating material used in micro-technology is Silicon Dioxide, which in chemical symbols is written as SiO2. In semiconductor technology, SiO2 thin film layers are mainly used as dielectric material film in transistors, capacitors (DRAM) or flash-memories. Silicon Oxide Wafers are produced using crystallization, solid state and other ultra-high purification processes such as sublimation. This process forms a cylindrical ingot, which is then sliced and polished to form wafers. Thermal oxide is a kind of "grown" oxide layer, compared to CVD deposited oxide layer, it has a higher uniformity, and higher dielectric strength, it is an excellent dielectric layer as an insulator . In most silicon- based devices, thermal oxide layer play an important role to pacify the silicon surface to act as doping barriers and as surface dielectrics. The simplest way to produce an insulating silicon oxide layers (SiO2) on silicon wafers is to oxidize silicon with oxygen, which ...
Post a Comment
Read more