Ruthenium on Carbon

Ruthenium on carbon is a commonly used heterogeneous catalyst, whose Ruthenium content can be from 0.1% to 30%.

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Detailed Description

Ruthenium on carbon is a commonly used heterogeneous catalyst, whose ruthenium content can be from 0.1% to 30%. It can be powder and also can be sheet-shaped particle, unshaped particle and columnar. It is mainly used for nitro reduction, double bond hydrogenation, dechlorination, debenzylation, ester hydrocracking, heterocyclic hydrogenation, ketone amine condensation and other continuous reactions with large production capacity.

 

Classification

Catalyst

MF

Ruthenium on carbon

Palladium Content

0.1-30%

Cas No.

7440-18-8

Brand Name

Kaili

Usage

Chemical Accelerator

Carrier state

powdered activated carbon

MOQ

1 gram

Country of origin

China (Mainland)

Supply ability

More than 1 ton a month

Carrier material

coconut shell, coal, wood, peat, etc.

Main Characteristics

High activity, good selectivity, stable performance, small dosage, capable to be used at low temperature and low pressure or even room temperature and normal pressure, high cycle times in the same system, recyclable after purification and reprocessing

Applications

Gas purification, organic synthesis of fine chemicals

Packing

Can be packed according to user requirements

 

Introduction

Ruthenium on Carbon (Ru/C) is a widely used catalyst in a variety of chemical reactions, particularly for hydrogenation, oxidation and carbonylation reactions. It is a heterogeneous catalyst comprising of supported Ru metal on activated carbon. It has a high surface area, which maximizes its efficiency and effectiveness in catalyzing reactions. It also exhibits high selectivity and stability, which makes it well suited for a wide range of applications. 

 

Applications

Hydrogenation:

Ru/C catalyst is widely used in hydrogenation reactions. Hydrogenation reactions involve the addition of hydrogen gas to a molecule or compound, resulting in the formation of a new compound. These reactions are important in the manufacture of a variety of products, including pharmaceuticals, agrochemicals, and food products. The use of Ru/C catalyst in hydrogenation reactions provides high selectivity and yield, which is crucial in large-scale applications.

Oxidation:

Ru/C catalyst is also used in oxidation reactions. These reactions involve the addition of oxygen to a compound, which results in the formation of a new compound. Oxidation reactions are important in the manufacture of a variety of products, including polymers, resins, and fine chemicals. The use of Ru/C catalyst in oxidation reactions provides high selectivity and yield, which is crucial in large-scale applications.

Carbonylation:

Ru/C catalyst is also used in carbonylation reactions. Carbonylation reactions involve the addition of a carbon monoxide molecule to a molecule or compound, which results in the formation of a new compound. Carbonylation reactions are important in the manufacture of a variety of products, including pharmaceuticals, agrochemicals, and fine chemicals. The use of Ru/C catalyst in carbonylation reactions provides high selectivity and yield, which is crucial in large-scale applications.

 

Advantages

High activity:

Ru/C catalyst has a high catalytic activity, which makes it suitable for a wide range of applications. It provides high selectivity and yield, which is important in large-scale applications. Its high activity also minimizes the amount of catalyst required for a particular reaction, resulting in cost savings.

High selectivity:

Ru/C catalyst provides high selectivity, which is crucial in large-scale applications. Selectivity refers to the ability of a catalyst to preferentially catalyze a particular reaction pathway to form a specific product. High selectivity results in less byproduct formation, which reduces waste and simplifies downstream processing.

Stability:

Ru/C catalyst is stable under a wide range of reaction conditions. It does not easily lose its catalytic activity or selectivity even after repeated use. This reduces the need for catalyst regeneration or replacement, resulting in cost savings.

Ease of handling:

Ru/C catalyst is easy to handle and use. It can be stored and transported under normal conditions without any special requirements. This makes it convenient for large-scale applications.

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