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A potentially cheaper and 'cooler' way of hydrogen transport
Comparison of the hydrogenase cycle found in nature with the compound developed in the study. Hydrogenases extract an electron from a single hydrogen molecule at room temperature for use in other biological processes. The compound developed in the current study undergoes a similar process to store electrons from hydrogen.
A potentially cheaper and 'cooler' way of hydrogen transport
by Simon Mansfield
Sydney, Australia (SPX) Oct 30, 2023

In the continued effort to move humanity away from fossil fuels and towards more environmentally friendly energy sources, researchers in Japan have developed a new material capable storing hydrogen energy in a more efficient and cheaper manner. The new hydrogen energy carrier can even store said energy for up to three months at room temperature. Moreover, since the material is nickel based, its cost is relatively cheap. The results were reported in Chemistry-A European Journal.

As humanity combats the ongoing climate crisis, one avenue researchers focus on is the transition into alternative sources of energy such as hydrogen. For several decades now Kyushu University has been investigating ways to more efficiently use and store hydrogen energy in the effort to realize a carbon neutral society.

"We have been working on developing new materials that can store and transport hydrogen energy," explains Professor Seiji Ogo of Kyushu University's International Institute for Carbon-Neutral Energy Research who led the research team. "Transporting it in its gaseous state requires significant energy. An alternative way of storing and transporting it would be to 'split-up' the hydrogen atoms into its base components, electrons and protons."

Many candidates have been considered as possible hydrogen energy carries such as ammonia, formic acid, and metal hydrides. However, the final energy carrier had not yet been established.

"So, we looked to nature for hints. There are a series of enzymes called hydrogenases that catalyze hydrogen into protons and electrons and can store that energy for later use, even at room temperature," continues Ogo. "By studying these enzymes our team was able to develop a new compound that does exactly that."

Not only was their new compound able to extract and store electrons at room temperature, further investigations showed that it can be its own catalyst to extract said electron, something that had not been possible with previous hydrogen energy carriers. The team also showed that the energy could be stored for up the three months.

Ogo also highlights the fact that the compound uses an inexpensive element: nickel. Until now, similar catalysts have used expensive metals like platinum, rhodium, or iridium. Now that nickel is a viable option for hydrogen energy storage, it can potentially reduce the cost of future compounds.

The team intends to collaborate with the industrial sector to transfer their new findings into more practical applications.

"We would also like to work on improving storage time and efficiency as well as investigate the viability of cheaper metals for such compounds, " concludes Ogo. "Hopefully our findings will contribute to the goal of decarbonization so that we can build a greener and environmentally friendly future."

Research Report:Single-Step Synthesis of NiI from NiII with H2

ai.energy-daily.com analysis

Relevance Ratings:

1. Energy Industry Analyst: 9/10
2. Stock and Finance Market Analyst: 7/10
3. Government Policy Analyst: 8/10

Comprehensive Analyst Summary:

The article discusses a significant breakthrough in hydrogen energy storage by researchers at Kyushu University in Japan. By developing a new nickel-based material, the team has potentially revolutionized hydrogen transport by making it more efficient, cheaper, and stable for up to three months at room temperature. These advancements could be pivotal in humanity's ongoing struggle against climate change by making hydrogen a more viable alternative to fossil fuels.

For the Energy Industry Analyst:

This development is highly relevant as it addresses core challenges in hydrogen energy-storage and transport. Improving efficiency and reducing costs are major hurdles to the widespread adoption of hydrogen as a clean energy source. The new material could fundamentally alter the hydrogen supply chain, making it more accessible and appealing for large-scale energy projects.

For the Stock and Finance Market Analyst:

This innovation has significant financial implications. Companies engaged in hydrogen production, storage, or transportation may find their operational costs significantly reduced, which could attract increased investment in hydrogen technologies. Additionally, firms manufacturing similar catalysts using expensive metals may face competition, affecting stock values.

For the Government Policy Analyst:

From a policy perspective, this research supports goals of decarbonization and energy transition. Governments may find it easier to incorporate hydrogen into their energy mix, which could influence energy policies, subsidies, and even international trade.

Comparative Analysis:

Over the past 25 years, the energy sector has experienced shifts from coal to natural gas, increased renewable energy adoption, and the advent of electric vehicles-all with varying degrees of government support and market adoption. Hydrogen has often been touted as the energy carrier of the future, but its progress has been stymied by inefficiencies and high costs. This research seems to align with, and potentially accelerate, the trend towards cleaner, more efficient energy solutions. However, it stands out because of its potential to overcome longstanding barriers to hydrogen adoption, specifically its storage and transport.

Five Investigative Questions:

1. How quickly can this research move from the lab to commercial application?

2. What are the potential safety concerns related to the new nickel-based material for hydrogen storage?

3. How would this advancement impact existing infrastructure and technologies built around less efficient hydrogen storage methods?

4. What would be the financial implications for companies currently invested in older, more expensive hydrogen storage technologies?

5. What policy changes would be necessary to facilitate the mass adoption of this new hydrogen storage material?

By examining these questions, analysts can gain a more nuanced understanding of the article's implications across various sectors.

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