Is catalysis the new energy vector for a decarbonized economy?
In a decarbonized economy with hydrogen as the new energy vector, catalysis is already playing a key role in producing hydrogen. However, catalysts for the effective storage of hydrogen must be advanced.
Why do we need energy catalytic materials for industrial applications?
Efficient energy conversion and storage are crucial for the sustainable development and growth of renewable energy sources. However, the limited varieties of traditional energy catalytic materials cannot match the fast-expansion requirement of raising various clean energy for industrial applications.
How can catalysts improve the kinetics of hydrogen storage materials?
Numerous catalysts have been studied to improve the hydrogen generation or hydrogen absorption/desorption kinetics in solid hydrogen storage materials. For example, a range of catalysts for the generation of hydrogen through the hydrolysis of AB and NaBH 4 has been successfully developed and demonstrated to achieve extremely fast hydrolysis rates.
Are there real catalysts for solid-state hydrogen storage materials?
Despite the tremendous efforts devoted to the development of additives (so-called catalysts) and the understanding of their roles in improving the kinetics of solid-state hydrogen storage materials, the identification of “real” catalysts is still far from satisfactory.
Why do we need catalysts for Hydrogen recharging?
In general, the individual reactions involved in such technologies need catalysts to allow discharging and recharging hydrogen in a stable and efficient manner. In recent years, the development of hydrogen storage materials and their use in renewable energy systems have experienced rapid growth.
What are the latest developments in catalysis?
This review covers the recent developments in catalysis, Editor’s Choice 2023: Advancing electrocatalysts for a sustainable future. 2021 Journal of Materials Chemistry A most popular articles
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Advances in TiS2 for energy storage, electronic devices, and catalysis ...
As the lightest family member of the transition metal disulfides (TMDs), TiS 2 has attracted more and more attention due to its large specific surface area, adjustable band gap, good visible light absorption, and good charge transport properties. In this review, the recent state-of-the-art advances in the syntheses and applications of TiS 2 in energy storage, …
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The invention of solar cell devices is another important step forward in the field of energy storage. These devices have started a new era of progress in energy storage. In 1839, Becquerel invented the solar cell and made the first machines that used it [55]. Also, the historical timeline of energy storage devices summarize in the Fig. 2. The ...
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When the catalyst has a high adsorption energy, it can easily absorb H atoms to achieve the purpose of H atom diffusion. At the same time, Lin et al. [75] also induced the synthesis of a new type of hydrogen pump catalyst-CeH 2.73 /CeO 2.
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SC is environmentally friendly and inexpensive, has been widely used for energy storage, catalysis, and adsorption, and is becoming an irreplaceable carbon material. A Web of Science search for the term "semi-coke" (Fig. 1) revealed only nine papers published in 2013 and 54 in 2021. This rapid growth indicates that an increasing number of ...
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Various characterization techniques, including scanning electron microscopy-energy dispersive X-ray spectrometer (SEM-EDS), X-ray photoelectron spectroscopy (XPS), UV-vis fluorescence microscopy, and Raman spectroscopy, have been employed to analyze the chemical and structural properties of electrocatalysts [14] supplementing the …
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In a decarbonized economy with hydrogen as the new energy vector, catalysis is already playing a key role in producing hydrogen. However, catalysts for the effective storage of hydrogen must be advanced.
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Metal oxides can be deemed as another critical class of inorganic materials. The 3d transition metal oxides (TMOs) are the most extensively studied oxide materials due to their high accessibility and versatility. For example, titanium dioxide (TiO 2) is the predominant catalyst for photocatalysis because of its suitable band gap capable of absorbing energy from visible light …
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