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Gold solution to catalysis grand challenge

Date:
January 6, 2022
Source:
Cardiff University
Summary:
A simple, low-cost method of directly converting natural gas into useful chemicals and fuels, using the precious metal gold as a key ingredient, has been proposed.
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A simple, low-cost method of directly converting natural gas into useful chemicals and fuels, using the precious metal gold as a key ingredient, has been proposed by researchers at Cardiff University in collaboration with researchers in Lehigh University, USA and the National Centre for Magnetic Resonance in Wuhan, China.

Whilst natural gas is one of the greenest fossil fuels, it still emits dangerous greenhouse gases into the atmosphere when burned.

This has, in turn, led researchers to devise novel ways of converting methane, which accounts for 70-90% of natural gas, into more useful products, such as a fuels and chemicals, in a simple, cost-effective and low-carbon manner.

In a study published today in Nature Catalysis, the team led by researchers from the Cardiff Catalysis Institute has demonstrated, for the time, the direct conversion of methane into methanol and acetic acid using a gold catalyst.

Up until now, this has only been achieved through indirect routes which include multiple steps that are highly energy consuming and very costly.

To achieve the creation of methanol and acetic acid the team reacted methane with oxygen in the presence of a catalyst made from gold and the zeolite ZSM-5.

By examining the catalyst using high-powered electron microscopy, it was revealed that the active catalyst did not contain gold atoms or clusters, but rather gold nanoparticles -- extremely small particles between 3 to 15 nanometres in size that can exhibit significantly different physical and chemical properties to their larger material counterparts.

The production of methanol using this catalyst was expected; however, the novelty of the new method came in the production of acetic acid.

Acetic acid is a common industrial chemical with large quantities used to make products such as ink for textile printing, dyes, photographic chemicals, pesticides, pharmaceuticals, rubber and plastics.

Methanol, meanwhile, is commonly used as a precursor to many other commodity chemicals, as well as a biofuel.

Despite the well-known inertness of the precious metal gold, pioneering research by scientists at the Cardiff Catalysis Institute has demonstrated that it is, in fact, an extremely efficient and reliable catalyst that can be used effectively in many important industrial processes.

Co-author of the study Professor Graham Hutchings, Regius Professor of Chemistry from the Cardiff Catalysis Institute, said: "The oxidation of methane, the main component of natural gas, to selectively form oxygenated chemical intermediates using molecular oxygen has been a long-standing grand challenge in catalysis.

"We have successfully demonstrated this for the very first time in this study, providing an important first step towards the creation of important fuels and chemicals in a simple and cost-effective way."


Story Source:

Materials provided by Cardiff University. Note: Content may be edited for style and length.


Journal Reference:

  1. Guodong Qi, Thomas E. Davies, Ali Nasrallah, Mala A. Sainna, Alexander G. R. Howe, Richard J. Lewis, Matthew Quesne, C. Richard A. Catlow, David J. Willock, Qian He, Donald Bethell, Mark J. Howard, Barry A. Murrer, Brian Harrison, Christopher J. Kiely, Xingling Zhao, Feng Deng, Jun Xu, Graham J. Hutchings. Au-ZSM-5 catalyses the selective oxidation of CH4 to CH3OH and CH3COOH using O2. Nature Catalysis, 2022; DOI: 10.1038/s41929-021-00725-8

Cite This Page:

Cardiff University. "Gold solution to catalysis grand challenge." ScienceDaily. ScienceDaily, 6 January 2022. <www.sciencedaily.com/releases/2022/01/220106122319.htm>.
Cardiff University. (2022, January 6). Gold solution to catalysis grand challenge. ScienceDaily. Retrieved December 21, 2024 from www.sciencedaily.com/releases/2022/01/220106122319.htm
Cardiff University. "Gold solution to catalysis grand challenge." ScienceDaily. www.sciencedaily.com/releases/2022/01/220106122319.htm (accessed December 21, 2024).

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