quantum glass battery forbes

According to the, , in recent years the cost to install large-scale battery storage systems was typically thousands of dollars per kilowatt (kW). He has worked in the areas of oil refining, oil production, synthetic fuels, biomass to energy, and alcohol production. , using technology licensed from a top university, believes it has created just such a solution. This battery won't catch on fire if it is cut, punctured or crushed. He teases the opportunity to invest in a company who makes these batteries as a way to make a lot of money. S. Pavlovic. Maslin explained that Zeta has succeeded in stabilizing the sulfur cathode and pointed to test results that show it can be cycled with minimal capacity loss over thousands of cycles. The graphene-carbon nanotube-copper connections introduce no additional electrical resistance that is typically generated at the interface when electrode materials are coated on copper in batteries. The two aforementioned stories are mostly focused on that aspect of the problem. These are chemically bonded to the surface of the graphene that is in turn chemically bonded to a copper substrate. Further, Zeta has eliminated the use of expensive metals such as cobalt in its battery. All Rights Reserved, This is a BETA experience. Robert has 25 years of international engineering experience in the chemicals, oil and gas, and renewable. Lithium ions produced at the lithium electrode travel through the plastic as quickly as they do a liquid electrolyte. Opinions expressed by Forbes Contributors are their own. New York City Mayoral Candidates Propose Paths to Job Recovery: More than three dozen New York City mayoral candidates are vying for one of the toughest jobs in the country: leading the nation's largest city back to pre-pandemic employment levels while trying to find the funding to do so. Finally, batteries have historically been an expensive way to store energy. He is author of Utility Forecaster at Investing Daily, and of the book Power Plays: Energy Options in the Age of Peak Oil. The problem of energy density concerns the ability to store energy in a specific volume (or weight). That means the Zeta battery is ready to work after virtually any period of storage. It’s one to keep an eye on. Finally, batteries have historically been an expensive way to store energy. the ability to store energy in a specific volume (or weight). Robert has 25 years of international engineering experience in the chemicals, oil and gas, and renewable energy industries, and holds several patents related to his work. In comparison, the capital costs of. Forbes calls it simply: “The battery that could change the world.” Trust me, it’s amazing. The Model 3 is powered by the same type of lithium-ion battery technology found in many consumer electronics. Impact 50: Investors Seeking Profit — And Pushing For Change, Fracking Ramps Back Up As Oil Becomes A Hot Commodity Again, Billionaire Names Oil Stocks He Calls ‘The Investment Opportunity Of My Career’, How Fossil Fuels, Ironically, Are Critical In The Development Of Renewable Energy Sources, Policies Come And Policies Go, But The Market Is In The Driver's Seat, Last Oil Company Standing: President Biden’s Executive Actions Could Drive New Round Of Major Mergers, The Oil Industry Jumps On The Low Carbon Bandwagon. Professor Zimmerman has developed a battery that replaces the liquid electrolyte in the battery with a flame-retardant plastic. Mark Bissett, lecturer in nanomaterials at The University of Manchester, poses for a photograph... [+] holding a model showing the hexagonal structure of graphene inside a laboratory at the National Graphene Institute facility, part of the The University of Manchester, in Manchester, U.K., on Thursday, April 12, 2018. It is all about a new type of battery that will usher in the next energy revolution. Dare we hope for a radical new technological breakthrough that will allow us to throw around phrases like “quantum nanophase glass battery technology” with gusto and abandon? The glass battery is a type of solid-state battery.It uses a glass electrolyte and lithium or sodium metal electrodes. © 2021 Forbes Media LLC. Matt says matter-of-factly that the quantum glass is virtually irreplaceable since it can last up to 150 years. Based on Zeta’s measurements, it is estimated that more than 90% of its battery capacity will remain after 10 years of storage at full charge, unlike regular lithium-ion batteries that will have at best 10% capacity over the same period of storage. But there are a couple of problems with these types of batteries that need to be resolved. Building a Better Lithium Battery. Robert Rapier is a chemical engineer in the energy industry. It isn't surprising that companies are working to solve each of these battery challenges. Safety mainly concerns the possibility that lithium-ion batteries can catch fire if damaged. Last year I wrote about A Battery That Could Change The World, which addressed the development of a solid-state lithium battery that won't catch fire if damaged. For reasons that are explained in the documentary, the use of lithium-metal electrodes enables a greater energy density than conventional lithium-ion batteries. Matt has found the next battery (quantum glass battery) that will probably take over from the Lithium-ion battery leading to what he considers a battery revolution. You may opt-out by. All Rights Reserved, This is a BETA experience. It's sounding pretty darn good, and what's more is that this quantum glass battery is said to fully charge in 60 seconds and is expected to go 1,000 miles on a single charge. Zeta potential is also a measure of the effective electric charge on a nanoparticle surface. Batteries have low energy density compared to liquid fuels. Thus, tremendous effort has gone into battery development in recent years. The Zeta battery can thus be charged safely within a few minutes. holding a model showing the hexagonal structure of graphene inside a laboratory at the National Graphene Institute facility, part of the The University of Manchester, in Manchester, U.K., on Thursday, April 12, 2018. In comparison, the capital costs of producing electricity by power plants can be under $1,000/kW. The new battery technology uses a form of glass, doped with reactive “ alkali ” metals like lithium or sodium, as the battery’s electrolyte (the medium between cathode and electrode that ions travel across when the battery charges and discharges). Then you pour in a liquid so that the ions can move around. Emerging variations of the current lithium-ion battery have taken about 10 years of research. Editor’s note: “7 Battery Stocks for High-Powered Gains” was previously published in August 2020.It has since been updated to include the most relevant information available. Lithium metal can be used for the negative electrode, which could potentially double the battery's energy density. Though others have been trying to develop sulfur-based cathode for decades, they just could not get it to cycle well, and the battery dies after just a couple of hundred cycles at most. Since the wind could stop blowing at any time, and the sun's radiation can only be captured during the day, these sources of power need to be backed up. It has since been updated to include the most relevant information available. does anyone have a patent on quantum glass battery .WHO. Photographer: Matthew Lloyd/Bloomberg, , which addressed the development of a solid-state lithium battery that won't catch fire if damaged. (Photo by VCG/VCG via Getty Images). The combination of a dendrite-free electrode with the seamless interface enables fast charging and discharging of the Zeta battery, unlike in a graphite-based lithium-ion battery where very fast charging can cause lithium dendrites to form on top of graphite. This can cause the battery to fail, which may result in a fire or explosion. These are exactly the kinds of breakthroughs that are needed if battery storage is to be adopted widely by utilities seeking to smooth out the intermittency of renewables like wind and solar power. The interview didn't mention any shortcomings with the battery or any potential challenges in commercializing it. Thus, the lithium-ion battery was born, albeit with a lower energy storage capacity than a battery utilizing a solid lithium-metal electrode. What Is Behind The U.S. Navy’s ‘UFO’ Fusion Energy Patent? Exhibition Center on April 25, 2018 in Beijing, China. Further, Zeta has eliminated the use of expensive metals such as cobalt in its battery. That translates to a significant reduction in battery cost. Robert has 25 years of international engineering experience in the chemicals, oil and gas, and renewable energy industries, and holds several patents related to his work. Test results published in several scientific journals including Nature Magazine show that the Zeta battery has: If their research and test results are accurate, Zeta Energy may hold the new gold standard in energy storage. Three key issues that companies are working to address are safety, energy density, and cost. Still in development and research phase. Opinions expressed by Forbes Contributors are their own. However, the result is a lower lithium storage capacity than a battery utilizing a solid, continuous lithium-metal electrode. 25/08/2020 at 11:37 pm. Consider energy density. Reply. An ideal battery would contain solid lithium electrodes while avoiding the dendrite problem. Maslin explained that Zeta has succeeded in stabilizing the sulfur cathode and pointed to test results that show. results published in several scientific journals including Nature Magazine show that the Zeta battery has: Up to 3 times the energy storage capacity of lithium-ion batteries, Faster charge time (minutes instead of hours), Little degradation over charge/recharge cycles, Significantly lighter than lithium-ion batteries, Significantly lower cost than lithium-ion batteries, Impact 50: Investors Seeking Profit — And Pushing For Change, Guyana’s Election Controversy Threatens Its Energy Future, Chesapeake Energy Finally Succumbs With Chapter 11 Filing, Deloitte: COVID-19 Fallout Demands That U.S. Shale Completely Transform Its Operations, The Oil And Gas Situation: The E&P Sector Faces A Reckoning. If these dendrites bridge the gap between the anode and cathode (the two opposite electrodes in a battery), a short circuit results. This has happened in laptops, cell phones, and EVs. (Jump to the 30:40 mark in the video to see the portion on Professor Zimmerman's work). Abstract: This patent application is directed to thermal management systems of vehicles with an electric powertrain. Horses and oxen were the height of portable power in the 18th century. In an interview I conducted with Maslin, he provided a description of the new battery along with peer-reviewed data from the 10+ years of research and testing that led to its development. More specifically, the battery system and one or more powertrain components and/or cabin climate control components of a vehicle share the same thermal circuit as the battery module through which heat can be exchanged between the battery module and one or more … Robert has appeared on 60 Minutes, The History Channel, CNBC, Business News Network, CBC, and PBS, and his energy-themed articles have appeared in numerous media outlets, including the Wall Street Journal, Washington Post, Christian Science Monitor, and The Economist. For Oil And Gas Companies, COVID-19 Considerations Know No Borders, The Mood In U.S. Shale Slowly Shifts To One Of Cautious Optimism About The Future, OPEC+ Extension Sets Up Very Favorable Oil Price Conditions For The Rest Of 2020, OPEC+ Extension Sets Up Favorable Oil Price Conditions For The Rest Of 2020, As Renewables Overtake Coal, Power Grids Must Cope With Inertia Challenge. The resulting three-dimensional carbon anode approaches the theoretical maximum for storage of lithium metal – about 10 times the lithium storage capacity of graphite used in lithium-ion batteries. It indicates, "Click to perform a search". The NOVA special was reportedly the first television interview he had done on his work. Professor Zimmerman's work has been done mostly in stealth. Furthermore, the Zeta lithium-sulfur battery does not self-discharge to any appreciable extent and holds charge for a significantly long time, thus boasting a superb shelf life. Cost-effective storage of power could enable essentially unlimited penetration of renewables into the grid. Called the quantum glass or forever battery, a battery with enduring power can help solve all the issues that hold back the widespread use of electricity-powered devices. Robert has 25 years of international engineering experience in the chemicals, oil and gas, and renewable. The quantum simulations came out favorably, which suggests that as IBM’s quantum processors become more powerful they will be able to make fundamental progress in battery design. According to the Energy Information Administration, in recent years the cost to install large-scale battery storage systems was typically thousands of dollars per kilowatt (kW). The NOVA documentary profiled the work of Professor Mike Zimmerman of Tufts University. But if the battery performs as advertised, it could significantly help advance the move to greener power production, and in the penetration of EVs. More recently, I wrote about a different approach to the problem of fires in lithium-ion batteries, which quickly dissipates the heat released from a fire in a cell before it can spread. The plastic also physically prevents the electrodes from forming the dendrites that can short out the battery. Test. In fact, it can continue to produce power despite significant damage. FLOYD. According to published research, the hybrid anode is one of the best-known conductors of electricity, and when the battery is charged, lithium metal is deposited on the sidewalls of the carbon nanotubes and in the pores between the nanotubes. The dendrite problem can be resolved by replacing the lithium-metal electrode with a carbon electrode that has a layered sheet structure (i.e., graphite), which hosts discrete tiny lithium ions between the layers. Although graphene battery technology remains some years away, it’s a tantalizing prospect for future smartphones, gadgets, electric vehicles, and much more. Quantum Battery. For the electrical grid, increased penetration of renewables poses some challenges because of their intermittent nature. Matt says matter-of-factly that the quantum glass is virtually irreplaceable since it can last up to 150 years. You may opt-out by. A company called. But lithium-metal electrodes can develop finger-like structures called dendrites that will eventually short-circuit the battery. Thus, Zeta’s anode-cathode combination means a packaged lithium-sulfur battery with three times the energy storage capacity of lithium-ion batteries. RECOMMENDED: Go here to see my no.1 recommendation for making money online Introduction to the Quantum Glass Battery. Although the Lithium-ion battery has served us well so far, it is still inefficient and we could do with a much-improved battery that overcomes its drawbacks. However, the greater efficiency of an electric motor versus a combustion engine substantially narrows the gap for usable energy. It addresses both the energy density problem and the danger of fire if the battery is damaged. In summary, the Zeta battery addresses both energy density and safety. Enter the battery that could change the world. An ideal battery would contain solid lithium electrodes while avoiding the dendrite problem. More recently, I wrote about a. to the problem of fires in lithium-ion batteries, which quickly dissipates the heat released from a fire in a cell before it can spread. This means no heat is generated at this interface. No resistance at the interface means electrons can travel to the electrode much more rapidly. The effort is paying off, with prices for battery cells falling by 70 percent between 2012 and 2017, according to PV Magazine. A new type of battery being commercialized by a Tufts University professor promises to address two of the most significant shortcomings of lithium-ion batteries. Though others have been trying to develop sulfur-based cathode for decades, they just could not get it to cycle well, and the battery dies after just a couple of hundred cycles at most. A cathode that matches the high capacity anode is required to unleash the boost in energy density, but current cathodes do not have enough capacity to match the lithium metal anode. If these batteries are damaged, they can explode or catch fire. The topic is of intense interest to me, as the development of better, cheaper batteries is critical for both the future of electric vehicles (EVs) and for the future electrical grid. Development of better batteries is critical as more electric vehicles hit the roads, and as electric utilities seek better options for storing power from intermittent renewables. If damaged, all of the energy stored inside the battery can release over a short period of time, and the result can be a hot, intense fire. Batteries have low energy density compared to liquid fuels. In a normal battery, you have some ingredients, like lithium or alkaline, and a separator, like a piece of cloth that you put between them. The word "Insider". One issue hanging over this idea of a quantum glass battery that will go for 1000 miles, and recharge in about 60 seconds, is the issue of kwh requirements to recharge a typical EV battery QUICKLY; and the infrastructure needed to accommodate that. However, the greater efficiency of an electric motor versus a combustion engine substantially narrows the gap for usable energy. Robert Rapier is a chemical engineer in the energy industry. McCall thinks that this new battery technology will grow as much as 67,976% in the coming years. In summary, the Zeta battery addresses both energy density and safety. The key innovation in the Zeta battery is a hybrid anode created from graphene and carbon nanotubes. The batteries of the future could exploit quantum physics. He is author of Utility Forecaster at Investing Daily, and of the book Power Plays: Energy Options in the Age of Peak Oil. electricity by power plants can be under $1,000/kW. Gasoline, for example, has about 100 times the volumetric energy density of a Li-ion battery pack. This battery won't catch on fire if it is cut, punctured or crushed. Zeta’s second key innovation is a hybrid cathode created from sulfur and carbon, which has 8 times the capacity of current cathodes based on metal oxide. Gasoline, for example, has about 100 times the volumetric energy density of a Li-ion battery pack. The solution to this problem was to replace the lithium-metal electrode with a carbon electrode with a lattice structure that houses lithium ions. The “Quantum Glass Battery” presentation by Matt McCall is an ad for his research service, Investment Opportunities. BEIJING, CHINA: A Tesla Model 3 car is on display during the Auto China 2018 at China International... [+] Exhibition Center on April 25, 2018 in Beijing, China. Researchers are studying ways to use graphene in batteries, and the material has the potential to significantly boost performance in a much-needed technology. The "Quantum glass" battery term was made-up by investment expert Matt McCall and they are really just a type of solid-state battery. 05/06/2019 at 5:06 am. Nobody yet. (Photo by VCG/VCG via Getty Images). A prototype solid-state battery based on lithium and glass faces criticism over claims that its capacity increases over time Illustration: iStockphoto But costs need to continue to decline to make widespread use of utility-scale battery storage a reality. Battery improvements are needed to increase the range of EVs, and cheaper batteries can help drive down the costs of EVs so more consumers can afford them. Last year I wrote about A Battery That Could Change The World, which addressed the development of a solid-state lithium battery … © 2021 Forbes Media LLC. Robert has appeared on 60 Minutes, The History Channel, CNBC, Business News Network, CBC, and PBS, and his energy-themed articles have appeared in numerous media outlets, including the Wall Street Journal, Washington Post, Christian Science Monitor, and The Economist. Importantly, lower battery storage costs would be a critical enabler for utilities seeking to incorporate higher levels of intermittent renewables into the power mix. Despite the breakthrough, building the ideal battery requires more than perfecting the anode. How soon that will be remains uncertain, but if we’re banking on battery breakthroughs to solve the climate crisis, it’s good news that Big Blue is on board. I recently spoke to Zeta Energy CEO Charles Maslin, who explained that Zeta is the sixth Greek letter and corresponds to carbon, the sixth element in the periodic table. A major battery performance concern is self-discharge – you charge the battery then store it, but when you use it later, only a fraction of the stored battery capacity is left. A magnifying glass. With such a promising concept still in development, it would be wise for investors to observe the stocks of quantum glass battery manufacturers. But the solution to one problem can create another. Lithium-ion batteries have become the battery of choice in many consumer electronics such as laptops, and in electric vehicles such as those produced by Tesla. ’s second key innovation is a hybrid cathode created from sulfur and carbon, which has 8 times the capacity of current cathodes based on metal oxide. The technology appears to address multiple shortcomings of current lithium-ion batteries and has done so at a lower price point. We also sell power products and accessories such as battery chargers, inverters, cables, plug, sockets and much more. Lithium-ion batteries also suffer from one other shortcoming that has been the subject of numerous news articles. The impact of the “Quantum Glass” Battery The biggest beneficiary of the new battery revolution, as Matt sees it, will be the electric car: “NOWHERE will the coming ‘Quantum Glass’ Battery revolution have a more profound — more truly far-reaching — impact than in the worldwide multi-trillion-dollar automotive industry…” Reply. The Model 3 is powered by the same type of lithium-ion battery technology found in many consumer electronics. This breakthrough device could change just about everything in your life – from how you get around to how you communicate with others… even the way you think about the world. Goodenough's new battery – co-developed with Maria Helena Braga of the University of Porto, Portugal, and described in a paper published in 2016 – is a solid-state battery that uses a lithium-glass electrolyte with a conductivity similar to a liquid electrolyte, and a lithium or sodium metal anode that does not produce dendrites. He has formed a company, Ionic Materials, and recently raised $65 million to commercialize this solid-state battery. Researchers are studying ways to use graphene in batteries, and the material has the potential to significantly boost performance in a much-needed technology. Steam engines dominated the 19th century. But lithium deposits called dendrites can spontaneously grow from the lithium metal electrodes whenever the battery is being charged. Forbes sells an extensive range batteries for any need including but not limited to: electronic devices, vehicles (motorcycles, cars, trucks, caravans), deep cycle, off grid solar and dual battery systems. A company called Zeta Energy, using technology licensed from a top university, believes it has created just such a solution. "A quantum battery is a tiny, nano-size battery meant to be used for applications on the nano scale," explained U of A chemist Gabriel Hanna, who was principal investigator on … BP’s Big Writedown: A Harbinger For A Declining Industry Or Of A Struggling Company? Lithium metal can be used for the negative electrode, which could potentially double the battery's energy density. He has worked in the areas of oil refining, oil production, synthetic fuels, biomass to energy, and alcohol production. it can be cycled with minimal capacity loss over thousands of cycles. Job Postings For Solar Work Up Sharply During Pandemic, Data Shows, Oil Prices Are Running Ahead Of The Fundamentals, Amazon Builds Climate Lead In Offshore Wind Deal. Importantly, lower battery storage costs would be a critical enabler for utilities seeking to incorporate higher levels of intermittent renewables into the power mix.