• Here's Where the Juice That Powers Batteries Comes From

    Ashlee Vance explores lithium mining in Chile’s Atacama Desert. Watch the full episode of 'Hello World: Chile': https://www.youtube.com/watch?v=ii1aMY-vU70 Like this video? Subscribe to Bloomberg on YouTube: http://www.youtube.com/Bloomberg?sub_confirmation=1 And subscribe to Bloomberg Politics for the latest political news: http://www.youtube.com/BloombergPolitics?sub_confirmation=1 Bloomberg is the First Word in business news, delivering breaking news & analysis, up-to-the-minute market data, features, profiles and more: http://www.bloomberg.com Connect with us on... Twitter: https://twitter.com/business Facebook: https://www.facebook.com/bloombergbusiness Instagram: https://www.instagram.com/bloombergbusiness/ Bloomberg Television brings you coverage of the biggest business sto...

    published: 07 Jan 2017
  • The Lithium Extraction Process - Educational 3D Animated Video

    The Lithium Extraction Process - Educational 3D Animated Video For more information and to request a FREE estimate, contact us today: Website: http://www.imaker.ca Email: info@imaker.ca United States Call: +1-800-212-8840 International Clients: +1-604-675-6999

    published: 08 Jul 2016
  • Lithium Nevada Project Overview

    published: 04 Jan 2012
  • Smart Battery Lithium Ion Battery Factory

    Smart Battery Lithium Ion Battery Factory

    published: 16 Nov 2016
  • How It's Made - Lithium Batteries

    On this episode of How It's Made, we learn all about the manufacturing process that goes into making lithium batteries.

    published: 14 Jul 2016
  • Lithium Mining in Bolivia's Salt Flats | Global 3000

    With its vast reserves of lithium, Bolivia has a very valuable natural resource. Mining it with as little foreign involvement as possible would keep the profits and benefits in Bolivia. The lithium lies within a crust of salt, three and a half thousand meters up in the Andes. Find out more: www.dw.de/dw/episode/9798/0,,15846247,00.html

    published: 17 Apr 2012
  • Lithium: an unexpected journey | Ben Lillie | TEDxNewYork

    This talk was given at a local TEDx event, produced independently of the TED Conferences. Why are there two rock songs about lithium but none about, say, beryllium? In a talk at once funny, profound, and educational, Ben Lillie weaves a tale about the origin of the mysterious element we know as lithium. Ben Lillie is a former particle physicist and the director of The Story Collider, a live series that features true stories about science.

    published: 15 Jan 2015
  • Lithium-ion batteries: How do they work?

    Smartphone, cordless screwdriver, laptops and defibrillators: Everyone knows the lithium-ion battery - or the Li-Ion Battery - for energy storage in a variety of modern appliances. A great future for the battery is predicted in the modern electric car. But how does this battery work? The animation shows how the components of the battery work together to release energy and to recharge the battery again. The goal: BASF wants to make the electric car of tomorrow reliable and suitable for everyday use with lithium-ion batteries. BASF helps to increase the mobility of the electric car by making the lithium-ion battery even more powerful. This film explains the principle of the lithium-ion battery: The battery is enclosed in an aluminum and copper layer. In between are a positive electrode, t...

    published: 17 Oct 2011
  • Darstellung von Lithium (How to make lithium metal)

    Ein Beispiel für die industrielle Herstellung der Alkalimetalle. (Schmelzflusselektrolyse) An example of the industrial production of the alkali metals. (Fused salt electrolysis)

    published: 19 Jun 2013
  • Things to know about Lithium || Obsessed Scientist

    Lithium is rare in universe .Although it was one of the three elements. Along with hydrogen and helium .To be created in Big Bang The element was discovered on earth in 1817 by Johan August Afredson in Stockholm Where he investigated Petalite. One of the first Lithium mineral to be discovered. He deduced that petalite contains an unknown metal ,Which he called Lithium From the Greek word for a stone Lithos, Although he never produced any, He reasoned that it is a new alkali metal and lighter than sodium . However unlike sodium, Which Humphry Davy had isolated in 1807, By the electrolysis of sodium hydroxide. Afredson was unable to produce lithium by the same method. A sample of lithium was finally extracted in 1855, By the electrolysis of molten lithium chloride. Once lithium discover...

    published: 01 Apr 2015
  • The lithium mine (EN)

    World of Chemistry - The world seen through the eyes of a chemist How is lithium obtained ?

    published: 25 Mar 2016
  • Making Lithium Hydroxide (precursor to lithium drugs and CO2 absorber)

    In this video, we will be making lithium hydroxide by reacting lithium metal with water! I plan to use the lithium hydroxide to make some lithium based drugs (used to treat bipolar disorder) and to make lithium peroxide (reacts with CO2 and produces O2) I plan to do an Q and A video, so if you have any questions you'd like me to address in the video, leave them in the comments. Patreon: https://www.patreon.com/user?u=2448989&ty=h Facebook: https://www.facebook.com/Nile-Red-1648800202046876/

    published: 30 Jan 2016
  • How Lithium-Ion Batteries Are Made

    Technology Review visits Leyden Energy's pilot production line in Fremont, California to see how batteries are made.

    published: 24 May 2011
  • Next-Gen 2170 Lithium Ion Batteries

    Tesla and Panasonic have partnered to mass-produce lithium-ion battery cells that will be used in energy storage products, as well as the Tesla Model 3. The high performance cylindrical 2170 cell was jointly designed and engineered by Tesla and Panasonic to offer the best performance at the lowest production cost in an optimal form factor for both electric vehicles and energy products. Visit http://bit.ly/2ArkiJ7 for more from the show floor!

    published: 12 Jan 2018
  • Make a Lithium Thionyl Chloride Battery

    How to make a Lithium Thionyl Chloride Battery capable of generating 2.8v with enough current to power a LED. Warning: Thionyl Chloride is EXTREMELY toxic and this experiment must be performed in a fumehood by an experienced chemist with proper safety precautions. Lithium thionyl chloride batteries offer excellent shelf life (sometimes over a decade) and energy density. Their main drawback is they are not rechargeable but for low power applications like memory backup they are extremely useful. At very low power levels, they can outlast the device they are installed in, making the recharge issue a non-issue. As seen in this experiment, they are also extremely simple to make. A solution of lithium tetrachloroaluminate in thionyl chloride serves as the electrolyte and the lithium and carb...

    published: 23 May 2009
  • 3D printed battery: new smart inks to produce lithium-ion microbatteries

    Originally published on January 03, 2014 A new kind of "smart ink" developed by Harvard scientist Jennifer Lewis, head of the university's Lewis Lab, could enable traditional 3D printers to print tiny battery electrodes the size less than a human hair. To make the ink, nanoparticles of lithium titanium oxide are added to a vial of deionized water and ethylene glycol. Ceramic balls are used as agitators to break down the particles. The mixture is spun for 24 hours, after which the balls and larger particles are removed using filters and a centrifuge. The resulting ink is placed in a syringe, which is then inserted into a high-pressure dispenser housed in a traditional 3D printer. The custom-made syringe's nozzle tips, as small as one micrometer wide at the opening, allow precise patterni...

    published: 03 Feb 2014
  • China's First Automatic Production Line of Lithium ion Battery Begins Operation

    China's first domestically developed automatic production line of high capacity lithium-ion batteries was put into operation on Tuesday in Xinyu, east China's Jiangxi Province. The whole automatic production line possesses proprietary intellectual property rights. With a two billion yuan investment value, the project will build three production lines during the preliminary stage. When put into operation, production lines will produce high capacity lithium-ion battery of two billion watt per hour, with an annual value of four billion yuan. More on: http://www.cctvplus.com/news/20170322/8045985.shtml#!language=1 Subscribe us on Youtube: https://www.youtube.com/c/CCTVPlus CCTV+ official website: http://www.cctvplus.com/ LinkedIn: https://www.linkedin.com/company/cctv-news-content Facebook...

    published: 22 Mar 2017
  • Team Orion LiPo Battery Production Insight

    With Team Orions latest video they give you the chance to get an insight into their World Champion battery production! Learn how the world's fastest lipo batteries are produced under the surveillance of Team Orion's Research and Development Manager Oscar Jansen. RC-Area - Daily RC News - www.rc-area.co.uk

    published: 08 Aug 2012
  • How it's made Lithium Ion batteries

    This is a segment from "How it's made" on lithium ion batteries

    published: 04 Mar 2008
  • Technology For More Efficient Lithium Production - Pure Energy

    Pure Energy Minerals plans to use new technologies to produce lithium faster, more efficiently and greener than others. To see more videos like this one go to www.b-tv.com.

    published: 31 Oct 2017
  • Tesla's new 2170 battery cell

    As it turns out, Tesla, and its battery partner Panasonic, started production of cells for qualification at the plant in December, but today, it confirmed the start of “mass production”...

    published: 23 Jan 2017
  • The Elements: Lithium

    This is the old video. For and updated version with a new reaction and much better sound quality check this out. https://youtu.be/oeAgajcTvQQ Lithium is the third element on the periodic table and the first of the alkaline metals. This video goes over just a few reaction involving lithium metal to produce Oxide's, Hydroxide's, and Chloride's. Reactions: Lithium and Water- This reaction shows just how reactive lithium is by reacting it with a very weak acid water. This is a very exothermic reaction that will sometimes ignite one of the reactants, Hydrogen on fire with a bright red flame. 2Li+2H2O-2LiOH+H2 Lithium and Oxygen- This reaction shows the incredibly exothermic reaction of Lithium and oxygen to make Lithium Oxide. This Is Very Important! When I Say Pure Oxygen I Mean Enriched O...

    published: 01 Oct 2013
  • 3D printed battery: new smart inks to produce lithium-ion microbatteries

    Originally published on January 03, 2014 Sign up for a free trial of News Direct's animated news graphics at http://newsdirect.nma.com.tw/Reuters.aspx A new kind of "smart ink" developed by Harvard scientist Jennifer Lewis, head of the university's Lewis Lab, could enable traditional 3D printers to print tiny battery electrodes the size less than a human hair. To make the ink, nanoparticles of lithium titanium oxide are added to a vial of deionized water and ethylene glycol. Ceramic balls are used as agitators to break down the particles. The mixture is spun for 24 hours, after which the balls and larger particles are removed using filters and a centrifuge. The resulting ink is placed in a syringe, which is then inserted into a high-pressure dispenser housed in a traditional 3D printe...

    published: 03 Feb 2014
  • How is a Lithium-Ion Pouch-Cell Manufactured in the Lab?

    Without them, today's mobile phones, mp3-players, notebooks and electric vehicles would be unthinkable: Lithium-Ion Batteries. But how do they work? What do they consist of? How are they manufactured? -- Scientists from the Institute for Applied Materials (IAM-WPT) at the Karlsruhe Institute of Technology (KIT), a partner of the knowledge and innovation community KIC InnoEnergy, give an answer to these questions in this video. Dr. Bauer provided us with further information in an extensive interview on the technical production of lithium-ion batteries: "New technologies for cost-efficient, safe and reliable energy" - http://explore-house.eu/en/2013/09/04/new-technologies-for-cost-efficient-safe-and-reliable-energy-storage/ German version: http://youtu.be/OgK6Eno_PlM

    published: 14 May 2014
developed with YouTube
Here's Where the Juice That Powers Batteries Comes From

Here's Where the Juice That Powers Batteries Comes From

  • Order:
  • Duration: 6:23
  • Updated: 07 Jan 2017
  • views: 1707621
videos
Ashlee Vance explores lithium mining in Chile’s Atacama Desert. Watch the full episode of 'Hello World: Chile': https://www.youtube.com/watch?v=ii1aMY-vU70 Like this video? Subscribe to Bloomberg on YouTube: http://www.youtube.com/Bloomberg?sub_confirmation=1 And subscribe to Bloomberg Politics for the latest political news: http://www.youtube.com/BloombergPolitics?sub_confirmation=1 Bloomberg is the First Word in business news, delivering breaking news & analysis, up-to-the-minute market data, features, profiles and more: http://www.bloomberg.com Connect with us on... Twitter: https://twitter.com/business Facebook: https://www.facebook.com/bloombergbusiness Instagram: https://www.instagram.com/bloombergbusiness/ Bloomberg Television brings you coverage of the biggest business stories and exclusive interviews with newsmakers, 24 hours a day: http://www.bloomberg.com/live Connect with us on... Twitter: https://twitter.com/bloombergtv Facebook: https://www.facebook.com/BloombergTelevision Instagram: https://www.instagram.com/bloombergtv
https://wn.com/Here's_Where_The_Juice_That_Powers_Batteries_Comes_From
The Lithium Extraction Process - Educational 3D Animated Video

The Lithium Extraction Process - Educational 3D Animated Video

  • Order:
  • Duration: 5:17
  • Updated: 08 Jul 2016
  • views: 9885
videos
The Lithium Extraction Process - Educational 3D Animated Video For more information and to request a FREE estimate, contact us today: Website: http://www.imaker.ca Email: info@imaker.ca United States Call: +1-800-212-8840 International Clients: +1-604-675-6999
https://wn.com/The_Lithium_Extraction_Process_Educational_3D_Animated_Video
Lithium Nevada Project Overview

Lithium Nevada Project Overview

  • Order:
  • Duration: 5:45
  • Updated: 04 Jan 2012
  • views: 21336
videos
https://wn.com/Lithium_Nevada_Project_Overview
Smart Battery Lithium Ion Battery Factory

Smart Battery Lithium Ion Battery Factory

  • Order:
  • Duration: 4:00
  • Updated: 16 Nov 2016
  • views: 105183
videos https://wn.com/Smart_Battery_Lithium_Ion_Battery_Factory
How It's Made - Lithium Batteries

How It's Made - Lithium Batteries

  • Order:
  • Duration: 4:30
  • Updated: 14 Jul 2016
  • views: 150807
videos
On this episode of How It's Made, we learn all about the manufacturing process that goes into making lithium batteries.
https://wn.com/How_It's_Made_Lithium_Batteries
Lithium Mining in Bolivia's Salt Flats | Global 3000

Lithium Mining in Bolivia's Salt Flats | Global 3000

  • Order:
  • Duration: 4:45
  • Updated: 17 Apr 2012
  • views: 30038
videos
With its vast reserves of lithium, Bolivia has a very valuable natural resource. Mining it with as little foreign involvement as possible would keep the profits and benefits in Bolivia. The lithium lies within a crust of salt, three and a half thousand meters up in the Andes. Find out more: www.dw.de/dw/episode/9798/0,,15846247,00.html
https://wn.com/Lithium_Mining_In_Bolivia's_Salt_Flats_|_Global_3000
Lithium: an unexpected journey | Ben Lillie | TEDxNewYork

Lithium: an unexpected journey | Ben Lillie | TEDxNewYork

  • Order:
  • Duration: 11:42
  • Updated: 15 Jan 2015
  • views: 168401
videos
This talk was given at a local TEDx event, produced independently of the TED Conferences. Why are there two rock songs about lithium but none about, say, beryllium? In a talk at once funny, profound, and educational, Ben Lillie weaves a tale about the origin of the mysterious element we know as lithium. Ben Lillie is a former particle physicist and the director of The Story Collider, a live series that features true stories about science.
https://wn.com/Lithium_An_Unexpected_Journey_|_Ben_Lillie_|_Tedxnewyork
Lithium-ion batteries: How do they work?

Lithium-ion batteries: How do they work?

  • Order:
  • Duration: 2:42
  • Updated: 17 Oct 2011
  • views: 388949
videos
Smartphone, cordless screwdriver, laptops and defibrillators: Everyone knows the lithium-ion battery - or the Li-Ion Battery - for energy storage in a variety of modern appliances. A great future for the battery is predicted in the modern electric car. But how does this battery work? The animation shows how the components of the battery work together to release energy and to recharge the battery again. The goal: BASF wants to make the electric car of tomorrow reliable and suitable for everyday use with lithium-ion batteries. BASF helps to increase the mobility of the electric car by making the lithium-ion battery even more powerful. This film explains the principle of the lithium-ion battery: The battery is enclosed in an aluminum and copper layer. In between are a positive electrode, the cathode, and a negative electrode, the anode. The cathode consists of a lithium metal oxide, the anode is a graphite layer. In order for the Li ions to migrate into the cell, the cell is filled with an electrolyte. The electrolyte of the battery must be extremely clean. Cathode and anode in the battery are split by a separator, which is permeable to the Lithium-ion. In addition, the process of charging and discharging is displayed. Further information about battery, electric car and the portfolio of BASF can be found at: http://www.battery-solutions.basf.com We create chemistry: For further information visit http://www.basf.com
https://wn.com/Lithium_Ion_Batteries_How_Do_They_Work
Darstellung von Lithium (How to make lithium metal)

Darstellung von Lithium (How to make lithium metal)

  • Order:
  • Duration: 3:54
  • Updated: 19 Jun 2013
  • views: 9105
videos
Ein Beispiel für die industrielle Herstellung der Alkalimetalle. (Schmelzflusselektrolyse) An example of the industrial production of the alkali metals. (Fused salt electrolysis)
https://wn.com/Darstellung_Von_Lithium_(How_To_Make_Lithium_Metal)
Things to know about Lithium || Obsessed Scientist

Things to know about Lithium || Obsessed Scientist

  • Order:
  • Duration: 4:36
  • Updated: 01 Apr 2015
  • views: 5852
videos
Lithium is rare in universe .Although it was one of the three elements. Along with hydrogen and helium .To be created in Big Bang The element was discovered on earth in 1817 by Johan August Afredson in Stockholm Where he investigated Petalite. One of the first Lithium mineral to be discovered. He deduced that petalite contains an unknown metal ,Which he called Lithium From the Greek word for a stone Lithos, Although he never produced any, He reasoned that it is a new alkali metal and lighter than sodium . However unlike sodium, Which Humphry Davy had isolated in 1807, By the electrolysis of sodium hydroxide. Afredson was unable to produce lithium by the same method. A sample of lithium was finally extracted in 1855, By the electrolysis of molten lithium chloride. Once lithium discovery has been announced Other soon found it to be present in all kind of things such as Grapes, sea wood, tobacco, vegetables, milk & blood. Another lithium ore is Spodumene , Which is like Petalite is a lithium aluminum silicate. And there is a large deposit of this one in South Dakota World production of lithium compound is around 40000 tonnes an year And reserves are estimated to be around 7 million tonnes & industrial production of itself is reported to be about 7500 tonnes a year and this is produced by the electrolysis of molten lithium chloride & potassium chloride in steel cells at temperature 450 degree Celsius Lithium is moderately toxic, As discovered in 1940’s . When patient were given lithium chloride as a salt substitute, However in small does it is prescribed as a treatment for manic depression,Its calming effect on brain was first noted in 1949 By an Australian doctor John Cade , Of the Victoria department of mental hygiene He had injected guine pigs with a 0.5% solution of lithium, Carbonate that made them docile for several hours Cade then gave his most mentally disturbed patients an injection of the same solution The main responded so well that within days he was transferred to a normal hospital ward and soon back to work Other patient responded similarly and now Lithium Therapy is used all around the world to treat this mental condition. Lithium is used commercially in various ways Lithium oxide goes into glass and glass ceramic Lithium metal goes into alloy with magnesium & aluminum, And it improves the strength while making them lighter, Magnesium lithium alloy is used in protective armors plating and aluminum Lithium reduces the weight of aircraft their by saving fuel, Lithium sitrate made by stearic acid with lithium hydroxide is an all Purpose high temperature greases contain it, It even works well at temperature -60 degree Celsius and had been used for vehicles in Antarctic Lithium batteries which operate at 3 volts or more, Are sued in devices where compactness and lightness are all important, They are implanted to supply the electrical energy for heart pacemakers Lithium heads group 1 of the alkali metal group in periodic table Lithium reacts vigorously with water,Storing is a problem.Cannot be kept under the oil as sodium can,So in order to store it is being coated with petroleum jelly Somewhat surprisingly it does not react with oxygen unless heated to 100 degree Celsius.But it reacts with nitrogen from the atmosphere to form a red brown compound called Lithium Nitride. The melting point of lithium is 453.65 k and boiling point is 1615 k The hydrogen of hydrogen bomb is actually the compound of Lithium Hydride in which lithium is lithium 6 isotope and hydrogen is hydrogen 2 isotopes. This compound is capable of releasing massive amount of energy The naturally occurring stable isotope of lithium 6 and lithium 7 Creator : Abhishek Gupta
https://wn.com/Things_To_Know_About_Lithium_||_Obsessed_Scientist
The lithium mine (EN)

The lithium mine (EN)

  • Order:
  • Duration: 3:42
  • Updated: 25 Mar 2016
  • views: 9981
videos
World of Chemistry - The world seen through the eyes of a chemist How is lithium obtained ?
https://wn.com/The_Lithium_Mine_(En)
Making Lithium Hydroxide (precursor to lithium drugs and CO2 absorber)

Making Lithium Hydroxide (precursor to lithium drugs and CO2 absorber)

  • Order:
  • Duration: 13:44
  • Updated: 30 Jan 2016
  • views: 96006
videos
In this video, we will be making lithium hydroxide by reacting lithium metal with water! I plan to use the lithium hydroxide to make some lithium based drugs (used to treat bipolar disorder) and to make lithium peroxide (reacts with CO2 and produces O2) I plan to do an Q and A video, so if you have any questions you'd like me to address in the video, leave them in the comments. Patreon: https://www.patreon.com/user?u=2448989&ty=h Facebook: https://www.facebook.com/Nile-Red-1648800202046876/
https://wn.com/Making_Lithium_Hydroxide_(Precursor_To_Lithium_Drugs_And_Co2_Absorber)
How Lithium-Ion Batteries Are Made

How Lithium-Ion Batteries Are Made

  • Order:
  • Duration: 2:19
  • Updated: 24 May 2011
  • views: 59486
videos
Technology Review visits Leyden Energy's pilot production line in Fremont, California to see how batteries are made.
https://wn.com/How_Lithium_Ion_Batteries_Are_Made
Next-Gen 2170 Lithium Ion Batteries

Next-Gen 2170 Lithium Ion Batteries

  • Order:
  • Duration: 1:40
  • Updated: 12 Jan 2018
  • views: 42008
videos
Tesla and Panasonic have partnered to mass-produce lithium-ion battery cells that will be used in energy storage products, as well as the Tesla Model 3. The high performance cylindrical 2170 cell was jointly designed and engineered by Tesla and Panasonic to offer the best performance at the lowest production cost in an optimal form factor for both electric vehicles and energy products. Visit http://bit.ly/2ArkiJ7 for more from the show floor!
https://wn.com/Next_Gen_2170_Lithium_Ion_Batteries
Make a Lithium Thionyl Chloride Battery

Make a Lithium Thionyl Chloride Battery

  • Order:
  • Duration: 1:44
  • Updated: 23 May 2009
  • views: 51657
videos
How to make a Lithium Thionyl Chloride Battery capable of generating 2.8v with enough current to power a LED. Warning: Thionyl Chloride is EXTREMELY toxic and this experiment must be performed in a fumehood by an experienced chemist with proper safety precautions. Lithium thionyl chloride batteries offer excellent shelf life (sometimes over a decade) and energy density. Their main drawback is they are not rechargeable but for low power applications like memory backup they are extremely useful. At very low power levels, they can outlast the device they are installed in, making the recharge issue a non-issue. As seen in this experiment, they are also extremely simple to make. A solution of lithium tetrachloroaluminate in thionyl chloride serves as the electrolyte and the lithium and carbon rods are simply inserted in. The cell can produce up to 3.5volts depending on the purity and quality of the components. Our cell in the video used waste chemicals we had leftover around the lab so the voltage is not that high. But it did produce enough power to light a small light emitting a diode. Commercial cells use lithium foil and spongy carbon for greater current but the concept is still the same.
https://wn.com/Make_A_Lithium_Thionyl_Chloride_Battery
3D printed battery: new smart inks to produce lithium-ion microbatteries

3D printed battery: new smart inks to produce lithium-ion microbatteries

  • Order:
  • Duration: 1:21
  • Updated: 03 Feb 2014
  • views: 9131
videos
Originally published on January 03, 2014 A new kind of "smart ink" developed by Harvard scientist Jennifer Lewis, head of the university's Lewis Lab, could enable traditional 3D printers to print tiny battery electrodes the size less than a human hair. To make the ink, nanoparticles of lithium titanium oxide are added to a vial of deionized water and ethylene glycol. Ceramic balls are used as agitators to break down the particles. The mixture is spun for 24 hours, after which the balls and larger particles are removed using filters and a centrifuge. The resulting ink is placed in a syringe, which is then inserted into a high-pressure dispenser housed in a traditional 3D printer. The custom-made syringe's nozzle tips, as small as one micrometer wide at the opening, allow precise patterning. The ink is solid under normal conditions, but liquefies under high pressure, so it returns to solid form once it leaves the syringe. The ink is used to print the battery's anode and cathode layer by layer following digital instructions. Finally, a case filled with electrolyte solutions encloses the electrodes to create a working lithium-ion microbatteries. Using this technology, microbatteries could be in between other components to help reduce the size of the gadgets. The microbatteries could supply electricity to tiny devices in fields from medicine to communications, including many that currently only exist in labs because batteries currently available on the market are either not small enough or lack sufficient energy to power them. -------------------------------------------------------- Welcome to TomoNews, where we animate the most entertaining news on the internets. Come here for an animated look at viral headlines, US news, celebrity gossip, salacious scandals, dumb criminals and much more! Subscribe now for daily news animations that will knock your socks off. Check out our official website: http://us.tomonews.net/ For news that's fun and never boring, visit our channel: https://www.youtube.com/user/TomoNewsUS Subscribe to stay updated on all the top stories: http://www.youtube.com/subscription_center?add_user=TomoNewsUS Stay connected with us here: Facebook http://www.facebook.com/TomoNewsUS Twitter @tomonewsus http://www.twitter.com/TomoNewsUS Google+ http://gplus.to/TomoNewsUS -~-~~-~~~-~~-~- Please watch: "Crying dog breaks the internet’s heart — but this sad dog story has a happy ending" https://www.youtube.com/watch?v=4prKTN9bYQc -~-~~-~~~-~~-~-
https://wn.com/3D_Printed_Battery_New_Smart_Inks_To_Produce_Lithium_Ion_Microbatteries
China's First Automatic Production Line of Lithium ion Battery Begins Operation

China's First Automatic Production Line of Lithium ion Battery Begins Operation

  • Order:
  • Duration: 1:11
  • Updated: 22 Mar 2017
  • views: 851
videos
China's first domestically developed automatic production line of high capacity lithium-ion batteries was put into operation on Tuesday in Xinyu, east China's Jiangxi Province. The whole automatic production line possesses proprietary intellectual property rights. With a two billion yuan investment value, the project will build three production lines during the preliminary stage. When put into operation, production lines will produce high capacity lithium-ion battery of two billion watt per hour, with an annual value of four billion yuan. More on: http://www.cctvplus.com/news/20170322/8045985.shtml#!language=1 Subscribe us on Youtube: https://www.youtube.com/c/CCTVPlus CCTV+ official website: http://www.cctvplus.com/ LinkedIn: https://www.linkedin.com/company/cctv-news-content Facebook: https://www.facebook.com/NewsContent.CCTVPLUS Twitter: https://twitter.com/CCTV_Plus
https://wn.com/China's_First_Automatic_Production_Line_Of_Lithium_Ion_Battery_Begins_Operation
Team Orion LiPo Battery Production Insight

Team Orion LiPo Battery Production Insight

  • Order:
  • Duration: 4:18
  • Updated: 08 Aug 2012
  • views: 102970
videos
With Team Orions latest video they give you the chance to get an insight into their World Champion battery production! Learn how the world's fastest lipo batteries are produced under the surveillance of Team Orion's Research and Development Manager Oscar Jansen. RC-Area - Daily RC News - www.rc-area.co.uk
https://wn.com/Team_Orion_Lipo_Battery_Production_Insight
How it's made Lithium Ion batteries

How it's made Lithium Ion batteries

  • Order:
  • Duration: 5:36
  • Updated: 04 Mar 2008
  • views: 764940
videos
This is a segment from "How it's made" on lithium ion batteries
https://wn.com/How_It's_Made_Lithium_Ion_Batteries
Technology For More Efficient Lithium Production - Pure Energy

Technology For More Efficient Lithium Production - Pure Energy

  • Order:
  • Duration: 4:39
  • Updated: 31 Oct 2017
  • views: 322
videos
Pure Energy Minerals plans to use new technologies to produce lithium faster, more efficiently and greener than others. To see more videos like this one go to www.b-tv.com.
https://wn.com/Technology_For_More_Efficient_Lithium_Production_Pure_Energy
Tesla's new 2170 battery cell

Tesla's new 2170 battery cell

  • Order:
  • Duration: 2:13
  • Updated: 15 Feb 2018
  • views: 2300533
videos
As it turns out, Tesla, and its battery partner Panasonic, started production of cells for qualification at the plant in December, but today, it confirmed the start of “mass production”...
https://wn.com/Tesla's_New_2170_Battery_Cell
The Elements: Lithium

The Elements: Lithium

  • Order:
  • Duration: 5:27
  • Updated: 01 Oct 2013
  • views: 6752
videos
This is the old video. For and updated version with a new reaction and much better sound quality check this out. https://youtu.be/oeAgajcTvQQ Lithium is the third element on the periodic table and the first of the alkaline metals. This video goes over just a few reaction involving lithium metal to produce Oxide's, Hydroxide's, and Chloride's. Reactions: Lithium and Water- This reaction shows just how reactive lithium is by reacting it with a very weak acid water. This is a very exothermic reaction that will sometimes ignite one of the reactants, Hydrogen on fire with a bright red flame. 2Li+2H2O-2LiOH+H2 Lithium and Oxygen- This reaction shows the incredibly exothermic reaction of Lithium and oxygen to make Lithium Oxide. This Is Very Important! When I Say Pure Oxygen I Mean Enriched Oxygen( Atmospheric Air With A Little More O2 About 50%). Pure oxygen would probably be highly explosive! DO NOT TRY THIS! 4Li+O2-2Li2O Lithium and Chlorine- This reaction shows Lithium reacting with the second most reactive Halogen Chlorine to produce Lithium Chloride. This can be very dangerous because of the use of Chlorine gas, Lithium Metal, and Fire. All of these are a recipe for disaster. And DO NOT EAT ANY OF THE REACTANTS OF THIS REACTION DUE TO IMPURITIES AND THE PRESENTS OF LITHIUM METAL THAT COULD EXPLODE IN YOUR MOUTH! Have Fun and Be Safe! music is from http://www.audionautix.com and is Rhastafarian.
https://wn.com/The_Elements_Lithium
3D printed battery: new smart inks to produce lithium-ion microbatteries

3D printed battery: new smart inks to produce lithium-ion microbatteries

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  • Duration: 1:04
  • Updated: 03 Feb 2014
  • views: 1446
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Originally published on January 03, 2014 Sign up for a free trial of News Direct's animated news graphics at http://newsdirect.nma.com.tw/Reuters.aspx A new kind of "smart ink" developed by Harvard scientist Jennifer Lewis, head of the university's Lewis Lab, could enable traditional 3D printers to print tiny battery electrodes the size less than a human hair. To make the ink, nanoparticles of lithium titanium oxide are added to a vial of deionized water and ethylene glycol. Ceramic balls are used as agitators to break down the particles. The mixture is spun for 24 hours, after which the balls and larger particles are removed using filters and a centrifuge. The resulting ink is placed in a syringe, which is then inserted into a high-pressure dispenser housed in a traditional 3D printer. The custom-made syringe's nozzle tips, as small as one micrometer wide at the opening, allow precise patterning. The ink is solid under normal conditions, but liquefies under high pressure, so it returns to solid form once it leaves the syringe. The ink is used to print the battery's anode and cathode layer by layer following digital instructions. Finally, a case filled with electrolyte solutions encloses the electrodes to create a working lithium-ion microbatteries. Using this technology, microbatteries could be in between other components to help reduce the size of the gadgets. The microbatteries could supply electricity to tiny devices in fields from medicine to communications, including many that currently only exist in labs because batteries currently available on the market are either not small enough or lack sufficient energy to power them.
https://wn.com/3D_Printed_Battery_New_Smart_Inks_To_Produce_Lithium_Ion_Microbatteries
How is a Lithium-Ion Pouch-Cell Manufactured in the Lab?

How is a Lithium-Ion Pouch-Cell Manufactured in the Lab?

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  • Duration: 5:58
  • Updated: 14 May 2014
  • views: 49457
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Without them, today's mobile phones, mp3-players, notebooks and electric vehicles would be unthinkable: Lithium-Ion Batteries. But how do they work? What do they consist of? How are they manufactured? -- Scientists from the Institute for Applied Materials (IAM-WPT) at the Karlsruhe Institute of Technology (KIT), a partner of the knowledge and innovation community KIC InnoEnergy, give an answer to these questions in this video. Dr. Bauer provided us with further information in an extensive interview on the technical production of lithium-ion batteries: "New technologies for cost-efficient, safe and reliable energy" - http://explore-house.eu/en/2013/09/04/new-technologies-for-cost-efficient-safe-and-reliable-energy-storage/ German version: http://youtu.be/OgK6Eno_PlM
https://wn.com/How_Is_A_Lithium_Ion_Pouch_Cell_Manufactured_In_The_Lab
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