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ENERGY SCOPE AND TRENDS: Sodium-Ion Battery Market Poised to Reach $2.665 Billion by 2030.

Welcome to Energy Scope and Trends, your weekly source of bite-sized updates on the latest happenings in the energy industry. In this edition of Energy News, we bring you major moments from different energy frontiers that are shaping the future of the sector.

Sodium-Ion Battery Market Poised to Reach $2.665 Billion by 2030: Powering the Future of Energy Storage!

The sodium-ion battery market is projected to surge to a value of $2.665 billion by 2030. This remarkable growth indicates the increasing demand for sodium-ion batteries as a cost-effective and sustainable energy storage solution.

Biwatt Showcases Innovative Sodium-Ion Battery Solutions at WBE 2023: Leading the Charge in Green Energy!

Biwatt, a pioneering player in the energy storage industry, unveiled its groundbreaking sodium-ion battery solutions at the World Battery Expo (WBE) 2023.

Japanese Researchers Develop All-Solid-State Rechargeable Air Battery Using Redox-Active Organic Molecules: Redefining Energy Storage!

Japanese researchers have achieved a significant breakthrough in battery technology with the development of an all-solid-state rechargeable air battery (SSAB) using redox-active organic molecules.

UCLA Scientists Discover New Shape of Lithium Metal for Safer Batteries: Advancing Battery Safety!

Scientists at UCLA have made a remarkable discovery by uncovering a new shape of lithium metal that could significantly enhance battery safety.

The global sodium-ion battery market is expected to reach $2.665 billion by 2030, with a CAGR growth of 11.2%. Sodium-ion batteries offer lower cost, comparable energy densities, increased safety, and excellent cycle life compared to lithium-ion cells.

The rising demand for electric vehicles is driving the sodium-ion battery industry. Europe is the dominant region in the market, with Faradion in the UK developing the world's first sodium-ion battery-powered car. The Naiades project in France aims to develop long-term energy storage using sodium-ion technology.

North America is the second-largest market, driven by electric vehicle adoption and renewable energy projects. The Asia-Pacific region, particularly India and China, is also experiencing increased demand for sodium-ion batteries.

The market covers various applications, including consumer electronics, automobiles, power backup, grid-level applications, and aerospace and defence. Key players in the market include Faradion, AGM Batteries, NEI, Natron Energy, Haldor Topsoe, and Aquion.

Biwatt Showcases Innovative Sodium-Ion Battery Solutions at WBE 2023

Guangzhou, China - Biwatt, a leading player in the energy storage industry, unveiled its cutting-edge sodium-ion battery solutions during the World Battery Expo (WBE) 2023 held in Guangzhou. The showcased solutions target residential energy storage systems, low-speed electric vehicles, and industrial power backup applications.

Biwatt's sodium-ion batteries stand out for their eco-friendliness, safety, stability, and intelligent features. These batteries offer a long cycle life, rapid charging and discharging capabilities, as well as excellent performance in low-temperature conditions. Equipped with smart Battery Management Systems (BMS) and Enhanced Internet of Things (E-IoT) platforms, they provide efficient monitoring and control functionalities.

The company's primary objective is to drive the advancement of the sodium-ion battery industry while offering customers superior digital green energy products and services. By introducing its innovative sodium-ion battery solutions, Biwatt aims to contribute to a greener and more sustainable energy future.

During the event, Biwatt extended an invitation to potential partners to join their sodium-ion ecosystem. By collaborating with industry stakeholders, Biwatt seeks to foster innovation, accelerate research and development efforts, and collectively create a more sustainable energy landscape.

The showcased sodium-ion battery solutions by Biwatt at WBE 2023 demonstrate the company's commitment to pushing the boundaries of energy storage technology. With their eco-friendly attributes, exceptional performance, and intelligent features, Biwatt's sodium-ion batteries have the potential to revolutionize residential energy storage, low-speed electric vehicles, and industrial power backup applications.

As the demand for clean and efficient energy storage solutions continues to grow, Biwatt's sodium-ion battery solutions offer a promising alternative, providing customers with reliable and sustainable means of meeting their energy needs. With its participation in WBE 2023, Biwatt has positioned itself as a key player in the sodium-ion battery market while emphasizing its dedication to driving the industry forward.

As the event draws to a close, the industry eagerly awaits the implementation and commercial availability of Biwatt's sodium-ion battery solutions, anticipating a greener and more sustainable energy future that will benefit both businesses and consumers alike.

Japanese Researchers Develop All-Solid-State Rechargeable Air Battery Using Redox-Active Organic Molecules

Japanese researchers have made a significant breakthrough in battery technology with the development of an all-solid-state rechargeable air battery (SSAB) utilizing redox-active organic molecules and a proton-conductive polymer. This innovative battery design offers several advantages over conventional metal-based batteries and holds potential implications for a carbon-free society.

The SSAB incorporates 2,5-dihydroxy-1,4-benzoquinone (DHBQ) and its polymer (PDBM) as the negative electrode, leveraging their stable and reversible redox reactions in acidic conditions. Unlike metal-based batteries, the use of organic molecules helps overcome challenges such as dendrite formation and environmental impact.

One of the notable features of the SSAB is its outstanding performance and durability. The battery demonstrates high discharge capacity, coulombic efficiency, and cyclability. These characteristics make it a promising candidate for applications in small electronic gadgets that require long-lasting power sources.

The researchers further enhanced the performance and durability of the SSAB by introducing Nafion, a proton-conductive polymer, to the negative electrode. This addition improved the overall efficiency of the battery, paving the way for potential advancements in its commercial viability.

The implications of the SSAB stretch beyond the realm of small electronic devices. This novel battery technology has the potential to extend the lifespan of various gadgets, contributing to reduced electronic waste and a more sustainable future. Moreover, the SSAB's environmentally friendly composition aligns with the global goal of achieving a carbon-free society.

As the demand for energy storage solutions continues to grow, particularly in portable electronics, the development of all-solid-state rechargeable air batteries represents a significant step forward. The utilization of redox-active organic molecules and proton-conductive polymers opens up new possibilities for creating more efficient and sustainable battery technologies.

The Japanese researchers' pioneering work in developing the SSAB sheds light on the potential of organic-based batteries to address current energy storage challenges. With further research and development, these innovative batteries could revolutionize the electronics industry and contribute to a greener and more sustainable future.

While more testing and optimization are required before the SSAB becomes commercially available, this breakthrough serves as a testament to the ongoing efforts in battery research and the continuous drive towards cleaner and more efficient energy solutions.

UCLA Scientists Discover New Shape of Lithium Metal for Safer Batteries

Lithium-metal batteries are a promising technology that could offer twice the energy density of lithium-ion batteries, but they also pose a serious fire and explosion hazard. Now, researchers from UCLA have made a breakthrough that could lead to safer and more efficient lithium-metal batteries.

The researchers, led by assistant professor of chemical and biomolecular engineering Yuzhang Li, found that by preventing corrosion during the deposition of lithium metal on an electrode, they could achieve a unique shape of lithium atoms: the rhombic dodecahedron, a 12-sided figure similar to dice. This shape reduces the risk of short circuits that can cause battery failures.

The study, published in the journal Nature, reveals a fundamental discovery that could change how we understand and design lithium-metal batteries.

Lithium metal is highly reactive and forms a layer of corrosion when exposed to chemicals in the electrolyte solution.

This corrosion affects the shape and structure of the lithium metal, which often grows into spiky filaments that can pierce through the battery separator and cause short circuits.

The UCLA team developed a technique that deposits lithium metal so fast that it outpaces the corrosion reaction. They used a tiny electrode with a high current density to push electricity out faster and adjusted the shape of the electrode to avoid spiky growths. By doing so, they were able to see how lithium metal naturally grows in the absence of corrosion.

To their surprise, they found that lithium metal forms tiny dodecahedrons, no bigger than 2 millionths of a meter, or about the average length of a single bacterium.

These dodecahedrons are consistent with theoretical predictions based on the crystal structure of lithium metal but have never been observed experimentally before.

The researchers used cryo-electron microscopy, or cryo-EM, to image the lithium metal at very low temperatures. Cryo-EM is a technique that beams electrons through frozen samples to show details at the atomic level9. Li was one of the first to demonstrate that cryo-EM can be used to analyze lithium metal, which is normally unstable under an electron beam at room temperature.

Stay tuned for more updates on the latest trends and advancements shaping the energy industry.

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