MSE PRO Palladium (Pd) Nanoparticles Water Dispersion, 15-25nm, 1mg/mL - MSE Supplies LLC

MSE PRO 2.5 mL Palladium (Pd) Nanoparticles (15-25 nm) Water Dispersion, 1 mg/mL

$ 399⁹⁵
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MSE PRO 2.5 mL Palladium (Pd) Nanoparticles (15-25 nm) Water Dispersion, 1 mg/mL

Palladium Nanoparticles have advanced physicochemical attributes, particularly in catalytic domains. Their exceptional performance in catalyzing hydrogenations, oxidations, carbon-carbon bond formations, as well as their pivotal role in electrochemical reactions within fuel cells, highlights their catalytic significance. Beyond catalysis, palladium nanoparticles showcase versatility, finding utility in hydrogen sensing, storage, and diverse medical applications.

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Technical Specifications:

CAS Number	7440-05-3
Chemical Formula	Pd
SKU#	PO9441
Form	Brown-black liquid
Pack Size	2.5mL/bottle
Particle Size	15-25nm
Concentration	1mg/mL
Storage	4°C in a light-protected environment. Do not freeze.
Applications	1. Catalysis: Pd nanoparticles serve as efficient catalysts in numerous chemical reactions, including hydrogenations, Suzuki-Miyaura cross-coupling, and carbon-carbon bond formations due to their high surface area and catalytic activity. 2. Fuel Cells: They are utilized in fuel cell technology as electrocatalysts, aiding in the oxidation of fuels like methanol and hydrogen, crucial for clean energy generation. 3. Electronics: Pd nanoparticles are used in electronics for sensors, conductive coatings, and memory devices due to their electrical conductivity and compatibility with electronic components. 4. Medicine and Healthcare: They find applications in biomedical fields for drug delivery systems, cancer therapy, photothermal therapy, due to their biocompatibility and surface functionalization capabilities. 5. Metallurgy: Pd nanoparticles are utilized in metallurgy processes for plating surfaces and creating specific alloy compositions, enhancing materials' properties.

Reference:

[1]: Saldan, I., Semenyuk, Y., Marchuk, I. et al.Chemical synthesis and application of palladium nanoparticles. J Mater Sci 50, 2337–2354 (2015).

[2]: Phan, T.T.V.; Huynh, T.-C.; Manivasagan, P.; Mondal, S.; Oh, J. An Up-To-Date Review on Biomedical Applications of Palladium Nanoparticles. Nanomaterials 2020, 10, 66.

[3]: MubarakAli, D., Kim, H., Venkatesh, P.S. et al. A Systemic Review on the Synthesis, Characterization, and Applications of Palladium Nanoparticles in Biomedicine. Appl Biochem Biotechnol 195, 3699–3718 (2023).