Product: Tin Nanoparticles (Sn, 99.9%, 60-80nm)
Quality Control: Each lot of NANOSHEL Tin Nanoparticles was tested successfully.
|Tap Density||0.47 g/cm³||Confirm|
|Molecular Weight||118.710 g/mol||Confirm|
|Melting Point||231.93 °C||Confirm|
|Boiling Point||2602 °C||Confirm|
|Specific Surface Area||12~14m²/g||Confirm|
|Thermal Conductivity||66.8 W/m-K||Confirm|
|Available Quantities||25Gms, 50Gms, 100Gms and larger quantities|
|Main Inspect Verifier||Manager QC|
Jules L. Routbort (Argonne National Laboratory, Argonne, USA)
Tin Nanoparticles: We procured Tin Nanoparticles from Nanoshel and are the obtained nanoparticles are well synthesized as per the requirement. I have used tin nanoparticles to enhance the performance of lithium ion battery by incorporating tin nanoparticles in the anode electrode, owing to the increase in interfacial area and decrease in lithium ion transport path length. The melting point of tin can decrease dramatically with particle size reduction to several nanometers owing to its enhanced surface area to volume ratio. The decreased melting point of tin nanosolder is highly desirable for preventing damage to electronic devices, caused by high reflow temperatures. As per my opinion these particles are worth and significant.
Dr. Ms. Kamiko Chang, Ph.D(University of Science and Technology Beijing, China)
Tin Nanoparticles: Nanoshel is very reliable company to get required nanomaterials. As I ordered Tin nanoparticles from Nanoshel, they exhibit many properties, such as grain size, large surface areas, homogeneity and highly reactive surfaces, malleable, flexible and ductile metal because of these properties tin nanoparticles resists oxygen and water and I used these nanoparticles to coat other metals to prevent corrosion. It is also considered to be non-toxic and is therefore used for food packaging, such as tin cans.
Dr. Nicholaos G. Demas (Newcastle University School Of Machanical & Systems Engg. UK)
The most promising candidates to displace commercialized graphite, the operating potential of metallic Sn are slightly higher than graphite, and the extrapolating potential is close to Li to improve the safety of LIBs. Also Sn can be reversibly lithiated up to the end compound Li4, 4 Sn with a theoretical reversible capacity of 994 mAh g-1, almost three times higher than the theoretical value of the conventional graphite anode. However, the practical use of Sn anodes has been hindered by the short cycle life due to a large volume expansion of Sn during lithiation-delithiation process. Almost 300% of its initial volume expansion would result in serious mechanical stress causing rapid cracking and collapse of the structure, and loose contact between the anode and the current collector, thereby drastic capacity fading.
Takeo Oku (Department of Materials Science, The University of Shiga Prefecture, Hassaka 2500, Hikone, Shiga 522-8533, Japan)
Tin Nanoparticles: Tin is a malleable post-transition metal that is not easily oxidized in air. It can be coated onto other metals to prevent corrosion. Tin nanoparticles (Sn) have high surface activity, large specific surface area, good dispersion performance and uniform particle size. Tin nanoparticles dispersed in lubricating oil can be used as multi-purpose oil additives, which have the potential to reduce friction and wear in automobile engines.
Dr. Ms. Guixin (Susan), Ph.D (Switzerland-Institute for Inorganic Chemistry, Zurich, Switzerland)
Tin Nanoparticles: Nanosized tin particles possess distinct properties compared with the bulk tin which have stimulated considerable interest in scientific research and technological applications. Typically, tin has a low melting point and a readiness to form alloys with other metal such as lead and bismuth. It is an important material in solder alloys. It is also used in transparent ant-static films, Anti-microbial, antibiotics and anti-fungal agents. Tin nanoparticles are mostly used in Coatings, plastics, nanofibres, bandages and textiles.
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