Articles tagged with "energy-storage"
US battery breakthrough boasts 1,300 cycles and zero Chinese materials
Boston-based startup Pure Lithium, led by CEO Emilie Bodoin, has developed a lithium metal battery that promises significant advancements over conventional lithium-ion cells. The battery boasts over 1,300 charge-discharge cycles and eliminates reliance on critical minerals such as graphite, cobalt, nickel, and manganese—materials often sourced or processed in China. Instead, Pure Lithium uses a proprietary “Brine to Battery” process to extract pure lithium metal anodes directly from brine, paired with a vanadium cathode that enhances fire resistance and allows operation at temperatures up to 700°C. This design not only improves energy density but also reduces material costs and environmental concerns associated with traditional lithium-ion batteries. This innovation comes amid growing U.S. efforts to reduce dependence on China, which currently dominates around 90% of global rare earth production and supplies half of America’s critical mineral imports. Pure Lithium’s approach aligns with national priorities to secure domestic supply chains for clean energy technologies. The company is expanding its lithium production and
energylithium-batterybattery-technologymaterials-scienceenergy-storageclean-energysupply-chain-independenceNew battery to power Chinese flying taxis with more speed, safety
Chinese battery manufacturer Gotion High-tech has partnered with eVTOL developer Ehang to equip Ehang’s flagship EH216 aerial vehicle with Gotion’s advanced 46-series cylindrical battery cells. This upgrade promises to enhance the EH216’s performance by providing longer range, stronger power output, and improved safety. The collaboration builds on a prior agreement from December 2023 and aims to accelerate the commercialization of low-altitude urban air mobility by improving battery technology tailored for short-range autonomous flights. Ehang, a pioneer in China’s eVTOL sector, has demonstrated significant progress with its EH216-S model, which currently offers a top speed of 80.8 mph and a flight duration of up to 25 minutes. Notably, Ehang tested a version with solid-state batteries that achieved a continuous flight of over 48 minutes, highlighting ongoing efforts to advance battery technology for aerial applications. Gotion, ranked as the sixth-largest global power battery manufacturer with a 3.4% market share,
energybattery-technologyeVTOLaerial-vehicleselectric-vertical-takeoff-and-landingenergy-storageurban-air-mobilityPoll: Two-thirds of Canadians favour developing clean energy over fossil fuels, while 85% wish to maintain or increase federal climate action - Clean Energy Canada
A recent survey by Abacus Data for Clean Energy Canada reveals strong Canadian support for prioritizing clean energy development over fossil fuels. Two-thirds (67%) of respondents favor investing in clean energy projects such as critical minerals, renewable power, and energy storage, compared to 33% who prefer conventional fossil fuel projects like oil, gas, and LNG. While both sectors are seen as important to Canada’s economy over the next decade, clean energy holds a slight edge, especially among those who view one sector as "very important." This reflects a broad consensus that clean energy will play a crucial role in the country’s future. Support for federal climate action remains robust amid ongoing climate challenges, with 85% of Canadians wanting the government to maintain or increase efforts to combat climate change. Only 14% believe the government should reduce its climate initiatives. This support spans regions and political affiliations, including 72% in Alberta and 70% of Conservative supporters. Younger Canadians (ages 18-29) are particularly
clean-energyrenewable-powerenergy-storageclimate-actionsustainable-constructionlow-carbon-materialselectric-vehicle-chargingA Deeper Look at Hidden Damage: Nano-CT Imaging Maps Internal Battery Degradation - CleanTechnica
The article discusses advances in understanding and improving lithium-ion battery recycling through high-resolution nano-CT imaging, led by researchers at the National Renewable Energy Laboratory (NREL). Lithium-ion batteries rely on scarce and valuable minerals such as lithium, nickel, cobalt, manganese, and graphite, with much of the global supply chain controlled by China. To reduce dependence on foreign markets and extend the lifespan of critical materials, direct recycling of battery cathodes within the United States is being explored as a more efficient and cost-effective alternative to traditional recycling methods, which are energy-intensive and break materials down to their elemental forms. NREL’s nano-CT scanner, capable of 50-nanometer spatial resolution, allows nondestructive, real-time visualization of internal battery structures, revealing microscopic degradation that impacts battery performance. Researchers found that although end-of-life battery materials retained similar energy capacity to new cells, their charging rates were significantly reduced due to morphological damage—specifically, particle cracking within the cathode microstructure. This insight
energybattery-technologylithium-ion-batteriesnano-CT-imagingmaterials-sciencebattery-recyclingenergy-storageInfinite Machine's e-bike offers 33 mph speed, 40-mile range
Infinite Machine has launched the Olto, a sleek, futuristic electric moped designed specifically for urban commuters and compliant with Class 2 e-bike regulations. The Olto features a metallic body with hidden wiring, full front and rear suspension, and a clean aesthetic. It offers a top speed of 20 mph in standard mode for bike lane use, with an unlocked off-road mode reaching 33 mph. The moped is powered by a removable, UL-certified 48V 25Ah battery providing a real-world range of 40 miles, which can be fast-charged to 50% in one hour or fully charged in three hours. The Olto integrates advanced automotive-level security features, including GPS and LTE tracking, an electronic motor and wheel lock, a steering column lock, and a built-in U-lock mount, all supported by an auxiliary battery to maintain protection even when the main battery is removed. Practical design elements include a long bench seat with hidden footpegs and grab handles for a
electric-bikee-bikebattery-technologyurban-mobilityelectric-vehicleIoT-securityenergy-storageXiaomi files solid-state EV battery patent with layered electrode design
Chinese tech giant Xiaomi has filed a patent for a solid-state battery featuring a novel layered electrode design aimed at addressing key challenges in ionic conductivity and energy density. The design incorporates multiple electrode layers around a current collector, with a solid polymer-metal salt electrolyte penetrating vertically to shorten ion travel distance and enhance performance. Xiaomi’s prototype boasts a cell-to-body (CTB) structure with a volume efficiency of 77.8%, a compact 120 mm battery pack height integrated into the vehicle floor, and delivers a CLTC-rated range exceeding 745 miles. It also supports fast charging, adding 500 miles of range in just 10 minutes. The design is reportedly compatible with existing lithium battery manufacturing lines, facilitating potential mass production and easing the transition to solid-state technology. Xiaomi’s move reflects growing momentum in the automotive industry toward solid-state batteries, which promise improvements in safety, energy density, and thermal stability compared to traditional lithium-ion cells. Major automakers like BMW, Toyota, SAIC, and battery
energysolid-state-batteryelectric-vehiclebattery-technologyenergy-storagefast-charginglithium-ion-batteryXPENG G7 Scores 10,000 Orders in Just 46 Minutes - CleanTechnica
XPENG’s latest electric SUV, the G7, has made a strong market debut, securing 10,000 pre-orders within just 46 minutes of availability. Priced starting at RMB 235,800 (approximately $32,870), the G7 offers advanced features including an 800V electrical architecture, 5C superfast charging, and a CLTC-rated range of 702 kilometers (436 miles), though real-world range may be somewhat lower. The vehicle is positioned between XPENG’s G6 and G9 models in terms of size and pricing, with dimensions of 4,892 mm in length and a wheelbase of 2,890 mm. A notable technological highlight of the G7 is its use of XPENG’s new Turing AI chip in the Ultra trim, delivering over 2,200 TOPS of computing power and enabling Level 3 autonomous driving capabilities. The Max trim retains the Nvidia Orin X chip. The G7’s combination of competitive pricing,
electric-vehiclesAI-chipsuperfast-charging800V-architectureenergy-storageautonomous-drivingXPENG-G7AIR ONE’s electric air taxi races toward first piloted flight by 2026
EDAG Group and AIR have formalized their partnership through a letter of intent to jointly develop and manufacture the AIR ONE electric air taxi, building on two years of collaboration. EDAG is responsible for producing key structural components, including folding wings, engine arms, and a modular cabin that can be reconfigured for passengers or cargo. The AIR ONE is designed in multiple variants, with a fully electric model offering about one hour of flight time and a payload capacity of 250 kilograms, while a hybrid version could extend the range up to 450 kilometers. Currently in assembly and testing, the AIR ONE features a compact design with a wingspan of 7 meters and a top speed of 155 mph (250 km/h). It boasts fast charging capabilities, reaching full charge in about one hour and 20%-80% charge in half that time, minimizing downtime. The cargo variant provides 70 cubic feet of space for transporting equipment such as pallets or stretchers. The $150,000 passenger edition has sold
electric-aircrafteVTOLenergy-storagehybrid-propulsionbattery-technologyelectric-mobilityaerospace-materialsNew zinc-iodine battery retains 99.8% capacity after 500 cycles
Scientists at the University of Adelaide in Australia have developed a novel dry electrode technology for zinc-iodine batteries that significantly enhances their performance and stability. This breakthrough involves mixing active materials as dry powders and rolling them into thick, self-supporting electrodes, combined with adding 1,3,5-trioxane to the electrolyte. This chemical induces the formation of a flexible protective film on the zinc anode during charging, preventing dendrite growth—needle-like structures that can cause short circuits. The new electrodes achieve a record-high active material loading of 100 mg/cm², resulting in pouch cells retaining 88.6% capacity after 750 cycles and coin cells maintaining 99.8% capacity after 500 cycles. Zinc-iodine batteries are considered safer, more sustainable, and cost-effective alternatives to lithium-ion batteries for large-scale and grid energy storage, but have historically lagged in performance. This innovation addresses those limitations by reducing iodine leakage, minimizing self-discharge, and extending cycle life
energybattery-technologyzinc-iodine-batteryenergy-storagesustainable-energygrid-storagematerials-scienceBattery manufacturer Powin files for bankruptcy months after landing $200M loan
Powin, an Oregon-based battery manufacturer specializing in grid-scale lithium-iron-phosphate (LFP) batteries primarily sourced from China, filed for Chapter 11 bankruptcy on June 12, 2025. The company disclosed it has over $300 million in debt but will continue operations while restructuring. Powin recently laid off nearly 250 employees, retaining only 85, and replaced former CEO Jeff Waters with Brian Krane, the chief projects officer. Despite securing $200 million in financing from KKR and previously receiving growth equity from investors like Energy Impact Partners, GIC, and Trilantic Energy Partners, Powin struggled financially, possibly due to tariffs impacting its reliance on Chinese battery cells. Founded during the first clean tech boom over a decade ago, Powin had grown significantly alongside the surge in grid-scale battery storage, ranking fourth worldwide in installed capacity. The bankruptcy filing did not specify the exact causes of the debt increase, but supply chain challenges and tariff pressures are implied factors. The restructuring under
energybattery-technologygrid-scale-storagelithium-iron-phosphateclean-techenergy-storagePowin-bankruptcy10 Solar Energy Facts You Should Know — USA Edition - CleanTechnica
The article from CleanTechnica highlights the rapid growth and dominance of solar energy in the United States as the leading source of new electricity generation capacity. Key statistics from the Solar Energy Industries Association (SEIA) reveal that as of 2024, there are nearly 280,000 solar jobs and over 10,000 solar businesses nationwide. Solar power projects are being installed at a remarkable pace—on average, one every 54 seconds—with solar accounting for 81.5% of all new U.S. power capacity in 2024. The country now has more than 250 gigawatts (GW) of installed solar capacity, enough to power over 41 million average homes, and boasts 51 GW of solar module manufacturing capacity. Despite these impressive figures, the article notes a slowdown in solar growth in early 2025 compared to the previous year, attributed primarily to federal policy uncertainty, especially regarding tax credits, and regulatory changes in California. Nonetheless, solar energy remains the clear electricity winner
solar-energyrenewable-energysolar-powerenergy-capacitysolar-industryenergy-storagesolar-manufacturingSodium Batteries Are Coming For Your Gasmobiles
The article discusses the emerging role of sodium-ion batteries as a promising alternative to lithium-ion batteries, particularly in stationary energy storage and potentially in electric vehicles (EVs). California startup Unigrid is advancing toward large-scale production of next-generation sodium batteries, initially targeting residential energy storage with plans to expand into commercial, industrial, utility-scale, and EV markets, including two-wheelers, three-wheelers, passenger cars, and off-road vehicles. The California Energy Commission (CEC) has awarded Unigrid nearly $3 million to develop a pilot production line in San Diego capable of producing 250 to 750 cylindrical sodium batteries per day. These batteries aim to offer higher volumetric energy density than current commercial options due to proprietary electrolyte and anode chemistry. Sodium batteries are attractive because they use abundant and inexpensive materials like salt, addressing supply chain and ethical concerns tied to lithium, cobalt, and other materials used in lithium-ion batteries. While sodium batteries currently have comparable costs to lithium-ion batteries, they offer advantages in safety—being less prone to failure or fire under extreme conditions—and environmental impact, as they avoid the hazardous and volatile substances found in lithium-ion battery fabrication. Although sodium batteries have historically faced challenges limiting their use in mobility applications, Unigrid claims its new anode formula improves performance, and other innovators are also making progress. The article indicates that sodium batteries could soon become viable for EVs, but details on cost reductions and performance improvements remain partially undisclosed.
energybatteriessodium-ion-batteriesenergy-storageelectric-vehiclesbattery-technologyrenewable-energyArtificial Intelligence Models Improve Efficiency of Battery Diagnostics - CleanTechnica
The National Renewable Energy Laboratory (NREL) has developed an innovative physics-informed neural network (PINN) model that significantly enhances the efficiency and accuracy of diagnosing lithium-ion battery health. Traditional battery diagnostic models, such as the Single-Particle Model (SPM) and the Pseudo-2D Model (P2D), provide detailed insights into battery degradation mechanisms but are computationally intensive and slow, limiting their practical use for real-time diagnostics. NREL’s PINN surrogate model integrates artificial intelligence with physics-based modeling to analyze complex battery data, enabling battery health predictions nearly 1,000 times faster than conventional methods. This breakthrough allows researchers and manufacturers to non-destructively monitor internal battery states, such as electrode and lithium-ion inventory changes, under various operating conditions. By training the PINN surrogate on data generated from established physics models, NREL has created a scalable tool that can quickly estimate battery aging and lifetime performance across different scenarios. This advancement promises to improve battery management, optimize design, and extend the operational lifespan of energy storage systems, which are critical for resilient and sustainable energy infrastructures.
energybattery-diagnosticsartificial-intelligenceneural-networkslithium-ion-batteriesbattery-healthenergy-storageSolid lithium-air battery delivers 4x energy, 1,000 lifecycles
Researchers at the Illinois Institute of Technology and Argonne National Laboratory have developed a solid-state lithium-air battery that achieves four times the energy density of traditional lithium-ion batteries, potentially rivaling gasoline in energy storage capacity. This breakthrough is enabled by a novel four-electron chemical reaction at room temperature, allowing the formation and reversible decomposition of lithium oxide (Li₂O), which stores significantly more energy than the lithium superoxide or lithium peroxide reactions used in previous lithium-air batteries. The battery employs a solid ceramic-polymer electrolyte embedded with lithium-rich nanoparticles, replacing flammable liquid electrolytes to enhance safety and electrochemical stability. A key component of this innovation is the trimolybdenum phosphide (Mo₃P) catalyst, which facilitates the stable four-electron transfer reaction over extended use. The battery demonstrated durability of at least 1,000 charge-discharge cycles at room temperature without significant degradation. Cryogenic transmission electron microscopy confirmed the reversible lithium oxide reaction, validating the approach. With an estimated energy density of 1,200 watt-hours per kilogram, this technology promises to dramatically extend electric vehicle range, reduce battery size and weight, and improve the safety and efficiency of renewable energy storage. Supported by major funding agencies, this advancement could pave the way for a new generation of high-capacity, safe, and sustainable batteries.
energylithium-air-batterysolid-state-electrolytebattery-technologyenergy-storageelectric-vehiclesmaterials-scienceMitra Chem is raising $50M for its cheaper, domestic battery materials
Mitra Chem, a battery materials startup focused on enhancing lithium-iron-phosphate (LFP) batteries to store more energy, has raised $15.6 million toward a planned $50 million funding round, according to a regulatory filing. LFP batteries are gaining traction among automakers aiming to reduce electric vehicle (EV) costs, but currently, all LFP materials are sourced from outside the United States. Mitra Chem aims to develop cheaper, domestically produced battery materials to address this supply chain gap. The company previously secured funding led by GM and Social Capital, and South Korean firm L&F Corporation is expected to participate in the new round following a $10 million investment earlier in 2025. This fundraising effort comes amid a challenging environment for battery startups, with EV sales growing slower than anticipated and political pressures mounting. The House reconciliation bill proposes ending EV tax credits by 2025 or 2026, potentially impacting market incentives, though the Senate has yet to respond. Mitra Chem also received a $100 million Department of Energy grant last year to build a battery materials plant in Michigan, underscoring federal support for domestic battery manufacturing. The article highlights the strategic importance of Mitra Chem’s efforts to localize and reduce costs in the EV battery supply chain during a period of industry uncertainty.
battery-materialslithium-iron-phosphateelectric-vehiclesenergy-storagedomestic-manufacturingclean-energyEV-batteriesEnergy Drive Secures £20m Investment From Pears Family - CleanTechnica
Energy Drive, a company specializing in industrial energy efficiency, has secured a £20 million investment from the Pears Family. This funding will be used to partially buy back stakes from some founding shareholders and a South African private equity investor, as well as to support the company’s expansion into European and North American markets. Energy Drive focuses on optimizing industrial motors—particularly large fans and pumps—by deploying variable speed drives and intelligent motor controls that reduce energy consumption by an average of 43%. Their systems are installed and operated as-a-service, with Energy Drive owning and maintaining the equipment, thus eliminating capital expenditure and maintenance costs for clients. The company’s technology significantly cuts emissions, saving nearly one million kilograms of CO2, SO2, and NOx annually. Energy Drive currently operates over 250 systems worldwide across industries such as mining, metals, manufacturing, chemicals, and utilities, partnering with major firms like ArcelorMittal and Liberty Steel. Their solutions optimize the performance of medium and low voltage industrial motors by matching motor speed to operational needs, monitored remotely 24/7 and verified by independent third parties. This approach ensures guaranteed energy savings and supports the global drive toward industrial energy efficiency without upfront costs for clients.
energyindustrial-motorsenergy-efficiencyvariable-speed-drivesemissions-reductionenergy-storageindustrial-technologySolid-state battery breakthrough promises 50% more range in one charge
Researchers from Skolkovo Institute of Science and Technology (Skoltech) and the AIRI Institute have achieved a significant breakthrough in solid-state battery technology by using machine learning to accelerate the discovery of high-performance battery materials. Their innovation could enable electric vehicles (EVs) to travel up to 50% farther on a single charge while improving safety and battery lifespan. The team employed graph neural networks to rapidly identify optimal materials for solid electrolytes and protective coatings, overcoming a major hurdle in solid-state battery development. This approach is orders of magnitude faster than traditional quantum chemistry methods, enabling quicker advancement in battery design. A key aspect of the research is the identification of protective coatings that shield the solid electrolyte from reactive lithium anodes and cathodes, which otherwise degrade battery performance and increase short-circuit risks. Using AI, the team discovered promising coating compounds such as Li3AlF6 and Li2ZnCl4 for the solid electrolyte Li10GeP2S12, a leading candidate material. This work not only enhances the durability and efficiency of solid-state batteries but also paves the way for safer, more durable, and higher-performing EVs and portable electronics, potentially reshaping the future of energy storage.
energysolid-state-batterybattery-materialselectric-vehiclesmachine-learningneural-networksenergy-storageAuto Industry Crash on Horizon from Lack of Rare Earth Minerals & Magnets? - CleanTechnica
The article from CleanTechnica highlights a looming crisis in the auto industry due to China's tightening control over rare earth minerals and magnets, essential components for both electric and gas-powered vehicles. China currently dominates over 90% of the global rare earth supply chain and has recently imposed export restrictions amid escalating trade tensions with the West. These restrictions have led to significant disruptions, with several European automotive suppliers halting production lines because export licenses for these critical materials are scarce—only about 25% of requests have been approved. Consequently, some Chinese magnet manufacturers have paused production, potentially exacerbating future shortages. This supply chain bottleneck threatens not only the automotive sector but also other industries reliant on rare earth elements, such as robotics and military defense systems. The electric vehicle industry is particularly vulnerable since rare earth metals are vital for electric motors and catalytic converters. If the situation persists, the auto industry in the US and Europe could face temporary shutdowns, causing widespread industrial and economic impacts. The article underscores the urgency of resolving these supply chain issues to avoid a severe disruption in vehicle manufacturing and related sectors.
rare-earth-mineralselectric-vehiclesautomotive-industrysupply-chainmagnetsenergy-storagematerials-shortageCongratulations to the #AAMAS2025 best paper, best demo, and distinguished dissertation award winners - Robohub
The 24th International Conference on Autonomous Agents and Multiagent Systems (AAMAS 2025), held from May 19-23 in Detroit, recognized outstanding contributions in the field with awards for best paper, best demo, and distinguished dissertation. The Best Paper Award went to the team behind "Soft Condorcet Optimization for Ranking of General Agents," led by Marc Lanctot and colleagues. Several other papers were finalists, covering topics such as commitments in BDI agents, curiosity-driven partner selection, reinforcement learning for vehicle-to-building charging, and drone delivery systems. The Best Student Paper Award was given to works on decentralized planning using probabilistic hyperproperties and large language models for virtual human gesture selection. In addition, the Blue Sky Ideas Track honored François Olivier and Zied Bouraoui for their neurosymbolic approach to embodied cognition, while the Best Demo Award recognized a project on serious games for ethical preference elicitation by Jayati Deshmukh and team. The Victor Lesser Distinguished Dissertation Award, which highlights originality, impact, and quality in autonomous agents research, was awarded to Jannik Peters for his thesis on proportionality in selecting committees, budgets, and clusters. Lily Xu was the runner-up for her dissertation on AI decision-making for planetary health under conditions of low-quality data. These awards underscore the innovative research advancing autonomous agents and multiagent systems.
robotautonomous-agentsmultiagent-systemsdronesreinforcement-learningenergy-storageAIClean energy investment hits new highs and shows no sign of slowing
The article discusses a significant shift in global energy investment trends, highlighting that clean energy is projected to attract nearly double the investment of fossil fuels in the coming years. Specifically, clean energy investments are expected to reach $2.15 trillion by 2025, compared to $1.15 trillion for fossil fuels. The data indicates a steady decline in fossil fuel investments over the past decade, while clean energy investments have shown a robust upward trajectory, suggesting a strong commitment to the energy transition. The International Energy Agency (IEA) data supports the notion that unless there is a drastic change in direction, clean energy investment is likely to continue growing. Despite the positive trends, the article raises concerns about the pace of investment needed to achieve net-zero emissions by 2050, which requires an average of $4.5 trillion annually. While current trends suggest that this goal may be attainable, the article notes that clean energy growth may eventually plateau, similar to patterns observed in the mid-2010s. The author emphasizes that the increasing affordability of clean energy technologies, particularly in developing economies, positions them favorably for future growth. Additionally, the modular nature of renewables and energy storage solutions makes them attractive to investors, as they can be deployed at various scales and prices to meet rising energy demands.
clean-energyinvestmentrenewable-energyfossil-fuelsenergy-transitionenergy-storagenet-zeroFully Solar-Powered Off-Grid EV Charging Station in South Africa - CleanTechnica
solar-powerEV-chargingrenewable-energyoff-gridclean-technologyenergy-storagesolar-arrayHow ‘Ice Battery’ powers 4,000+ US buildings, cuts cooling energy use by 40%
energycoolingIce-Batteryenergy-savingspower-demandrefrigerationenergy-storageItaly's largest airport uses recycled EV batteries for power
energyrecycled-batteriesrenewable-energyenergy-storagesustainabilityelectric-vehiclesairport-innovationNew quantum battery design promises nanoscale energy storage
energyquantum-batteryenergy-storagetopological-propertiesfast-chargingsustainable-energymicro-energy-devicesNIO Sales Increase 13% in May - CleanTechnica
electric-vehiclesclean-energyrenewable-energyNIOsales-growthenergy-storageautomotive-technologyCalifornia Has Over 15,000 MW Of Energy Storage - CleanTechnica
energyenergy-storageclean-energyCaliforniagrid-stabilitybattery-systemsrenewable-energyTrump’s Harvard Ban Echoes USSR’s Historic Mistake To China's Long-Term Gain - CleanTechnica
energyclean-technologysolar-energyelectric-vehiclesgeopolitical-influenceclimate-scienceenergy-storageChina Dominates Global Trade of Battery Minerals - CleanTechnica
battery-mineralslithiumcobaltgraphitebattery-supply-chainenergy-storageclean-technologyPower Up: Redodo’s Memorial Day Sale Offers Up To 55% Off LiFePO₄ Batteries - CleanTechnica
energybatteriesLiFePO₄solar-powerenergy-storageBluetooth-technologyoff-grid-solutionsBMW tests all-solid-state battery for extended range in i7 EV
energysolid-state-batterieselectric-vehiclesbattery-technologyBMWenergy-storageautomotive-innovationSEIA: Solar & Storage Industry Statement on U.S. International Trade Commission Injury Determination - CleanTechnica
solar-energysolar-manufacturingclean-energyrenewable-energyenergy-policysolar-industryenergy-storageSolar, Gas, & Battery: Why Apex 300’s 3-Part Backup Plan Is a Hurricane Season Must-Have - CleanTechnica
energysolar-powerbattery-backuphurricane-preparednessenergy-storagebackup-systemsrenewable-energyNew CO₂-capturing battery stores 2.5x more energy, could power mars gear
energyCO₂-capturelithium-batteryrenewable-energyenergy-storageclean-technologyMars-explorationMetal-free solar battery stores power for 2 days with 90% retention
energysolar-batteryorganic-materialsenergy-storagesustainable-technologysolar-harvestingcharge-retentionSolid-state battery breakthrough promises 100x charging power
solid-state-batteriesenergy-storagesodium-batteriesionic-conductivitysustainable-materialsbattery-technologyenergy-densityTexas Welcomes More Solar Factories Despite Anti-Solar Bills
solarenergysolar-factoriesrenewable-energyTexassolar-panelsenergy-storageHauling Renewable Energy Around By Freight Car -- Not A Prank!
renewable-energyfreight-railenergy-storageelectric-locomotivessolar-powerwind-energybattery-technologyA New Flow Battery Takes On The Data Center Energy Crisis
energyflow-batteryrenewable-energyenergy-storagedata-centerssustainable-technologyclean-technologyTwo New Renewable Energy Technologies That Just Might Work - CleanTechnica
renewable-energyenergy-storagepumped-hydroocean-energyFraunhoferStEnSeaclean-technologyWith New EV Charging Stations, Norway’s Excellent EV Adventure Is About To Get More Excellent
electric-vehiclesEV-chargingenergy-storagegrid-infrastructurerenewable-energybattery-technologydemand-responseQuả cầu bêtông 400 tấn lưu trữ năng lượng dưới biển sâu
energyrenewable-energyenergy-storageunderwater-technologyFraunhofer-InstituteStEnSeasustainable-energyThủ tướng Phạm Minh Chính tiếp Chủ tịch Tập đoàn Hoa Điện Trung Quốc
energyrenewable-energyclean-energyhydropowerenergy-storageenergy-policysustainable-developmentEVNGENCO2 và CSG LMI hợp tác phát triển thủy điện tích năng tại Việt Nam
energyhydropowerrenewable-energyenergy-storagesustainable-developmentVietnamenergy-efficiencyEVNGENCO2 và CSG LMI Trung Quốc ký bản ghi nhớ hợp tác phát triển thủy điện tích năng
energyhydropowerrenewable-energyenergy-storagesustainable-developmentelectricity-generationinternational-cooperationNorway Has More Energy Transition Plans In The Works
energyEVoffshore-windenergy-storagecharging-stationsbattery-innovationrenewable-energyGetting Big Batteries (BESS) & Pumped Hydro (PHES) to Play Well Together
energybatteriespumped-hydrorenewable-energyenergy-storagegrid-managementbattery-technologyThe Bluetti Apex 300: Scalable Power, Smarter Energy, & A Step Beyond Backup
energyenergy-storagesolar-powersmart-energy-managementbackup-powermodular-designoff-grid-solutionsRooftop Solar Is Winning (Trump Is Losing)
rooftop-solarclean-energysolar-panelsenergy-storagesolar-as-a-serviceenergy-incentivesrenewable-energyCan Quantum Computers Handle Energy’s Hardest Problems?
energyquantum-computingNRELenergy-storagepower-grid-reliabilitycomputational-problemsadvanced-computingShell Subsidiary sonnen Heats Up Virtual Power Plant Race In Texas
energyvirtual-power-plantTexas-electricity-gridenergy-storagesolar-energygrid-stabilityrenewable-energyPhase-Shifting Hot Bricks Pack More Energy Storage Punch Into Smaller Spaces
energyenergy-storagethermal-energyrenewable-energysolar-energywind-energyindustrial-processesCalifornians Could Save $6.5 Billion With Community Solar & Storage
community-solarenergy-storageCaliforniaclean-energycost-savingsrenewable-energyelectricity-customers