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Rubidium Fluoride Nanoparticles

Rubidium Fluoride Nanoparticles

Rubidium Fluoride Nanoparticles
Product No NRE-5190
CAS 13446-74-7
Purity 99.9%
Formula RbF
APS <100 nm (can be customized)
Color White
Molecular Weight 104.47 g/mol
Density 3.557 g/cm3
Melting Point 795 °C
Boiling Point 1,408 °C

Rubidium Fluoride Nanoparticles

Introduction

Rubidium fluoride nanoparticles is an inorganic compound composed of rubidium (Rb), a soft alkali metal, and fluoride (F). It forms a white crystalline solid and is highly reactive, particularly when exposed to moisture. When rubidium fluoride is reduced to the nanoparticle scale, its properties are significantly altered due to the high surface area and quantum effects, enhancing its reactivity and making it useful for a wide range of applications.

Rubidium fluoride nanoparticles can be synthesized through several methods such as precipitation, sol-gel, or hydrothermal processes, which allow for control over particle size, morphology, and crystallinity. These nanoparticles exhibit unique characteristics such as increased surface reactivity, excellent conductivity, and potential luminescent properties, making them valuable for diverse fields, including catalysis, energy storage, materials science, and electronics.

Properties

High Surface Area: Like most nanoparticles, possess a significantly larger surface area compared to bulk rubidium fluoride, making them more reactive and efficient for chemical reactions and catalytic processes.

Chemical Reactivity: Due to their small size and high surface area, have increased reactivity, making them effective in various chemical processes, such as catalysis, adsorbing reactive species, or acting as intermediates in reactions.

Optical Properties: RbF exhibit interesting optical properties. While the bulk material itself is not known for strong luminescence, when reduced to the nanoparticle scale, their interaction with light can differ, opening up new possibilities in photonic applications.

Thermal Stability: Rubidium fluoride nanoparticles are stable under a wide range of temperatures and can withstand high heat without significant degradation. This is important for high-temperature applications in industries like materials science and electronics.

 

 

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