Breakthrough Plastic Battery Requires NO Mining, is Cheaper & Lasts Longer!

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this video is sponsored by click up as Renewable Energy Technologies like wind and solar become cheaper energy storage is increasingly becoming the critical part and limiting factor right now lithium-ion is the King of the Hill due to its relatively low cost and high energy density but we can't just rely on one technology to meet all of our energy needs what if there was a battery technology that was cheaper than lithium ion and didn't use any Metals at all what if we could have a battery that used plastic that's a one company along with a team of MIT researchers are exploring in Boston so how does this new technology stack up to the current battery technology will it be the energy storage solution we've been waiting for what are the pros and cons how might it be used and just how far along are they I'm Ricky and this is Tupa DaVinci a typical battery has three main components two terminals made of different chemicals the anode the cathode and a liquid electrolyte between them primary cells are batteries that can't be recharged like the alkaline batteries in your remote or the aluminum air battery we've covered in the past while those have their place for obvious reasons secondary cells are much more interesting because they're you guessed it rechargeable so good news the plastic polymer battery in this video is a rechargeable secondary cell typically metals like lithium are used in the cathode because it's very light and has one valence electron that is happy to donate other metals like nickel and Cobalt are also added for other characteristics like safety and stability graphite is typically used for the anode although increasingly there is more and more graphene and silicon due to its high conductivity and ability to wedge in and hold lithium ions but the key of course is not just finding the materials are the most conductive or have the highest capacity cost is all also a major factor right now lithium is King because it boasts a high energy density it can undergo multiple Chargers and discharge cycles and it's relatively cost compared to other battery chemistries while the energy World wouldn't be where it is today without lithium ion batteries there's a good reason to continue exploring new battery chemistries mainly because while lithium ion battery prices have fallen over the past few decades recent years have seen a dramatic increase in the price of raw lithium and other metals a lagging indicator of how lithium-on battery prices might fare in the future December 2021 solithium prices leap a jaw-dropping 485 percent year over year according to s p Global not to mention the fact that some of the materials in Lithium-ion batteries including Cobalt magnesium and lithium itself carry some environmental and supply chain question marks this wouldn't be such a big deal 20 years ago but if we're planning gigawatt hours of grid storage and a billion these the next few decades this question mark is of the utmost importance as a company or technology gets more mature it's all about better planning predicting and forecasting that's why we put so much emphasis on our production schedule as a company click up is the modern productivity platform that helps you manage whatever you're up to maybe it's your business or a side hustle we've even started a new click up space to help prioritize and track our Net Zero Home Series we used to use different tools for writing and scheduling but things often slip to the cracks with click up you can actually bring it all together in one place it's packed with features and customization options that no other productivity tool has here's a task for this video I assigned it to Juan to finish the video editing but then he had the nerve to assign me a subtask a CEO's job is never done but it is so fulfilling finishing a task and moving it into the completed column as the head honcho I love creating dashboards to get an overview of how everyone is doing go to www.clickup.com use code 2-bit to get get 15 off click Up's massive unlimited plan for a year I mean you can start reclaiming your time for under five dollars a month huge thanks to click up and you for supporting the show this is where boston-based energy storage company poly Jewel comes in this company is pioneering a brand new battery technology that doesn't use any metal at all instead they use something called conductive polymers and if you're thinking wait a minute don't we already have Lithium Polymer ion batteries or LiPO batteries yes but LiPO batteries have a polymer electrolyte instead of a liquid electrolyte they still have metal cathodes and graphite anodes we've covered polymers on our channel before they're very large molecules consisting of many repeating subunits basically long chains linked together essentially it's Plastics I know I know aren't we trying to get rid of plastics and now you want to put them in batteries stick with me we'll dive into that in just a little bit but essentially these properties allow these materials to be incredibly strong and conductive which means they can act like Metals even though they are entirely organic based materials there are quite a few polymers that are electrically conductive when linked with conjugated double bonds that run along their backbone I know that word conjugation might give you flashbacks to your high school Spanish teacher but here it means alternating single and double bonds this lets the electrons become delocalized meaning they can move over the whole system and be shared by many atoms novel research interconductive polymers isn't new in fact the Nobel Prize for chemistry was awarded to a group of three researchers for their Discovery and development of conductive polymers all the way back in 2000 so what does this look like in a battery and why does it matter polyjule cells are essentially constructed the same way as any other traditional battery but instead of lithium or Cobalt they use conductive polymers as a cathode a carbon graphene hybrid anode and a non-flammable liquid electrolyte during charging ions are stored in the electrode bulk through a feriatic process known as oxidation essentially really rusting when talking about iron during discharging the process is reversed and the ions are expelled from the electrodes through a process called reduction so what makes this new technology so important well compared to lithium ion polyjules batteries have several advantages for one it works around some of the supply chain issues that other batteries face the materials inside these batteries are far more abundant than lithium or Cobalt and can be easily synthesized with widely available industrial chemicals which means no mining because these batteries don't contain a flammable electrolyte or use highly reactive materials like lithium they can forego temperature management and fire suppressant systems that other batteries need to have or at the very least they require much less stuff for thermal and fire management remember every pound of stuff that's needed for things like this is a pound of stuff that adds weight but not energy storage this factor is huge in the energy density of an individual cell versus the density of an entire pack also they can tolerate much colder temp temperatures than lithium-ion battery scan while on Ev today parked in negative 30 degrees Celsius climates would have to actively heat the battery pack and lose range slowly even while parked this might not be the case for the polymer battery because of these features polyjule claims that their levelized cost of energy is about 30 percent less than lithium ion with a Target price point at around 65 dollars per kilowatt hour while this is still quite a bit higher than the 20 per kilowatt hour that some researchers point to as the critical price point for energy storage is still significantly less than lithium ion which hovers between 143 and 250 dollars per kilowatt hour and polygual batteries could potentially last longer than lithium on batteries currently Lithium-ion batteries have lifespans of around 15 to 20 years but polyjule claims that their technology could nearly double that with projected lifespans between 20 and 30 years in the lab polyjules team performed 12 000 charge cycles at a hundred percent and depth of discharge so in terms of cost polygual batteries could be cheaper to build last longer and degrade less over time than their competitors now as we mentioned above the polymers used in these batteries are essentially Plastics and of course we all know plastic is pretty terrible for the environment fortunately according to the company their batteries are 95 recyclable and using polymers for these types of batteries could create a whole new market for recyclable materials which could be a major win but there's little info available on just how much recycled Plastics could be put into the batteries so yes at the end of their life they're recyclable but what could we do with the tons of plastic waste we already have in existence today and what about performance polyjule batteries boast power densities 10 times higher than lithium ion remember power density is a measure of power output per unit volume if electricity is water power density is the size of your hose a larger hose can put up more water at once this was a major feature I mentioned in my graphene super capacitor video the products under development can rapidly discharge up to one megawatt hour in less than 10 seconds then recharge to full capacity in under 5 minutes compare that to a Tesla battery that would require around 30 minutes or so to reach a level of charge of 80 percent now here's where the reality check comes in while these batteries have many advantages over lithium on batteries like greater power density where they simply cannot compete is energy density the amount of electricity they can hold per unit volume remember the water analogy well if power density is the size of the hose energy density is the size of your tank according to the MIT researchers behind Polo Jules technology Lithium-ion batteries have energy densities up to five times greater than the polymer battery under development this means polyjoule would need a battery five times as big to store the same amount of energy so yeah not ideal for say your phone or laptop but the Abundant safety and Longevity might make it an excellent candidate for stationary grid storage when we report on a new battery chemistry or breakthrough the goal isn't to replace today's lithium on batteries because while all this research is going on the lithium ion battery isn't just standing still today's lithium on batteries have less Cobalt than ever some have none at all plus solid state batteries are ever on the horizon this polygel battery isn't a replacement it's a supplement current Tesla powerwalls while beautiful and compact do use that precious lithium-ion battery material for stationary applications for every 5.5 powerwalls Tesla makes they could make a Long Range model Y and while lower energy densities are a no-go for EVS they might be just fine for home storage would you buy a power wall equivalent battery that was five times as big but lasted two to three times as long and cost quite a bit less yeah that's kind of the question isn't it don't forget they have five times the power density which would be great for power surgers for larger appliances like air conditioners and heaters and at grid level they're hugely benefit special for grid balancing power conditioning Peak shaving and more according to Paula Jewell CEO Eli Pastor in 2021 the ideas that we work on in the lab you'll see turned into products three to four years from now and they will still be Innovative and well ahead of the curve when they get to the market but for all we know about polygil and their battery there's just as much that we don't for example efficiency I couldn't find data on this anywhere this is again where lithium ion Reigns Supreme and other batteries we've covered like cryogenic air or pumped Hydro lags behind based on the fact that this data isn't highlighted I'm guessing it's not as good as lithium ion also nearly all the plastic in the world comes from fossil fuel so when it comes to this battery there's two ways this can go this could finally be the solution to the massive mass of plastic we've made of the past 70 years while it was first invented in 1862 by Alexander parks and showcased at the London International exhibition it wouldn't flood Our Lives until the 1950s in 1988 the society for Plastics industry established a system for categorizing many recyclable plastics into groups numbered one through seven shown here if the polyjule battery requires very specific types of plastic then very little recycling will be possible but if they could develop their chemistry to work with a wide range of existing plastic this could be huge there's so little incentive to do the right thing in our world recycling is largely and sadly a sham because it's almost always cheaper for companies to just buy new plastic than to actually buy recycled if we can better standardize new plastics for recyclability and companies like poly Jewel can find novel ways of using it for energy storage this could be a game changer I'm going to try to reach out to polyjule for an on-site or interview and if I do I'll make a follow-up video at this point I have a ton of questions but color me intrigued by the way we talked a little bit about graphene in this video but if you want to learn a whole lot more about this Wonder material check out this video next

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Channel: Two Bit da Vinci

Views: 343,636

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Keywords: two bit da vinci, breakthrough battery, battery materials, polyjoule, plastic battery, batteries without metal, breakthrough plastic battery, future battery tech, future batteries, is mining for battery materials, future battery materials, poly joule, polyjoule battery, polyjoule plastic battery, conductive polymer battery, batteries without metals, batteries without, batteries without lithium, future of batteries

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Length: 13min 0sec (780 seconds)

Published: Thu Sep 22 2022