In advancing sustainable energy solutions, an international collaborative team of scientists has achieved a significant milestone in low-carbon chemical conversion.
In advancing sustainable energy solutions, an international collaborative team of scientists has achieved a significant milestone in low-carbon chemical conversion. In their recent publication in Nature, the team, led by Professors Zhengxiao GUO of Department of Chemistry at The University of Hong Kong , Weixin HUANG of University of Science and Technology of China, Richard CATLOW of University College London and Junwang TANG of Tsinghua University, have discovered a photocatalytic approach to converting methane to ethanol with high selectivity of around 80% and a methane conversion rate of 2.
3% in a single run using a packed-bed flow reactor. The system achieves an impressive apparent quantum efficiency of 9.4%, which measures how effectively it converts incident photons into electrons that participate in the reaction under specific wavelength conditions. In advancing sustainable energy solutions, an international collaborative team of scientists has achieved a significant milestone in low-carbon chemical conversion. In their recent publication in, the team, led by Professors Zhengxiao GUO of Department of Chemistry at The University of Hong Kong , Weixin HUANG of University of Science and Technology of China, Richard CATLOW of University College London and Junwang TANG of Tsinghua University, have discovered a photocatalytic approach to converting methane to ethanol with high selectivity of around 80% and a methane conversion rate of 2.3% in a single run using a packed-bed flow reactor. The system achieves an impressive apparent quantum efficiency of 9.4%, which measures how effectively it converts incident photons into electrons that participate in the reaction under specific wavelength conditions.Ethanol is well known to spirit up many celebratory occasions, but more significantly, it serves as an ideal liquid hydrogen carrier and a chemical feedstock for a wide range of applications towards carbon neutrality. The global market for ethanol exceeds USD 100 billion, with a current compound annual growth rate of approximately 7%. Methane, the primary constituent of natural and shale gas, is often flared for heating. Despite its potential as a carbon source for chemical synthesis, its inherent chemical inertness poses substantial hurdles to its efficient conversion. Traditional industrial methane conversion is typically conducted via syngas under high temperatures and pressures, a process that is energy-intensive and exhibits poor product selectivity. Efforts to directly convert methane into ethanol often encounter challenges in controlling highly selective carbon-carbon coupling to produce a specific CThe efficient conversion is achieved through a unique intra-molecular junction formed between alternate benzene and triazine units within a covalent triazine framework polymer. The intra-molecular junction enhances the life-time and the efficient separation of photo-generated charges while enabling preferential adsorption of OO to the benzene and triazine units, respectively, to facilitate C-C coupling. Moreover, this intrinsically asymmetric dual-site feature effectively delineates the C-C coupling sites from the hydroxyl radical formation sites, thereby mitigating the risk of overoxidation of the intermediate into COand water. When further enhanced by the addition of Pt, the intramolecular junction photocatalyst demonstrates a very promising ethanol production rate, as stated above. "This is a step-change advancement in the photocatalytic conversion of methane into value-added green chemicals -- not only in terms of a newly identified metal-free"intramolecular junction" for effective C-C coupling; but also by turning methane into a much more desirable liquid chemical, relatively efficiently at ambient conditions," Professor Guo, one of the corresponding authors of the paper, remarked.Conventionally, as in the Fischer−Tropsch synthesis, methane conversion to liquid chemicals requires high temperature and pressure to activate its C−H bond, involving high energy input and multiple steps. Previous attempts in the photocatalytic conversion of methane to a Cproduct often encounter either low selectivity and/or low efficiency, due to the limited capabilities of the specific catalysts. The newly developed CTF-1 catalyst demonstrates over 20 times higher quantum efficiency along with a very high selectivity.Methane is an abundant yet climate-potent gas. Its one-step photocatalytic conversion represents a highly desirable approach to decarbonising the chemical and fuel industries. Particularly in liquid form, ethanol is much easier to store, transport and distribute, compared to gaseous hydrogen. It can be directly reformed onboard of low-carbon vehicles -- on land, at sea or in the air, offering great potential for applications in urban transport, shipping and the upcoming low-altitude economy, thereby paving the way towards carbon neutrality.Led by Professor Guo, the HKU research team will continue to explore innovative options in tailoring the catalyst and intensifying the conversion process, as part of a consortium effort under the UGC Theme-Based Research Scheme and the RGC-EU Collaborative Innovation Scheme.Jijia Xie, Cong Fu, Matthew G. Quesne, Jian Guo, Chao Wang, Lunqiao Xiong, Christopher D. Windle, Srinivas Gadipelli, Zheng Xiao Guo, Weixin Huang, C. Richard A. Catlow, Junwang Tang.Photovoltaics, the conversion of light to electricity, is a key technology for sustainable energy. Since the days of Max Planck and Albert Einstein, we know that light as well as electricity are ... Organic photovoltaics are a promising, economical, next-generation solar cell technology for scalable clean energy and wearable electronics. But the energy conversion loss due to the ... Chemists have been searching for efficient catalysts to convert methane into methanol. Adding water to the reaction can address certain challenges, but it also complicates the process. Now a team has ... Chemists report a new electrocatalyst that converts carbon dioxide and water into ethanol with very high energy efficiency, high selectivity for the desired final product and low ...
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