{"id":18241,"date":"2022-02-15T11:14:41","date_gmt":"2022-02-15T11:14:41","guid":{"rendered":"https:\/\/www.innovationnewsnetwork.com\/?p=18241"},"modified":"2022-02-15T11:14:41","modified_gmt":"2022-02-15T11:14:41","slug":"new-solid-electrolyte-revolutionises-solid-state-lithium-ion-batteries","status":"publish","type":"post","link":"https:\/\/www.innovationnewsnetwork.com\/new-solid-electrolyte-revolutionises-solid-state-lithium-ion-batteries\/18241\/","title":{"rendered":"New solid electrolyte revolutionises solid-state lithium-ion batteries"},"content":{"rendered":"

A research team from the University of Waterloo<\/a> has discovered a new solid electrolyte that presents significant advantages.<\/h2>\n

What is required to create the \u2018perfect\u2019 battery?<\/h3>\n

Scientists have two primary goals regarding creating the \u2018perfect\u2019 battery: create a device that can store a great deal of energy and do so safely. Currently, a majority of batteries contain liquid electrolytes, which are potentially flammable.<\/p>\n

As a result, solid-state lithium-ion batteries<\/a>, which consist of entirely solid components, have become increasingly appealing to scientists. This is because they offer a combination of higher safety and increased energy density, which is how much energy the battery can store for a given volume.<\/p>\n

This electrolyte, composed of lithium, scandium, indium, and chlorine, conducts lithium ions well but electrons poorly. This is an essential combination to create an all-solid-state battery that functions without considerably losing capacity for over a hundred cycles at high voltage (above 4V) and thousands of cycles at intermediate voltage.<\/p>\n

The chloride nature of the electrolyte is crucial to its stability at operating conditions above 4V, which means it is suitable for typical cathode materials that form the mainstay of today\u2019s lithium-ion cells.<\/p>\n

\u201cThe main attraction of a solid-state electrolyte is that it cannot catch fire, and it allows for efficient placement in the battery cell; we were pleased to demonstrate stable high-voltage operation,\u201d explained Linda Nazar, a Distinguished Research Professor of Chemistry at UWaterloo and a long-time member of JCESR.<\/p>\n

What are scientists adapting from the old batteries?<\/h3>\n

Current reiterations of solid-state electrolytes focus heavily on sulphides, which oxidise and degrade above 2.5V. Therefore, they require the incorporation of an insulating coating around the cathode material that operates above 4V. This impairs the ability of electrons and lithium-ions to move from the electrolyte and into the cathode.<\/p>\n

\u201cWith sulphide electrolytes, you have a kind of conundrum \u2014 you want to electronically isolate the electrolyte from the cathode, so it doesn\u2019t oxidise, but you still require electronic conductivity in the cathode material,\u201d Nazar commented.<\/p>\n

While Nazar\u2019s group was not the first to devise a chloride electrolyte, the decision to swap out half of the indium for scandium based on their previous work proved to be a winner in terms of lower electronic and higher ionic conductivity.<\/p>\n

\u200b\u201cChloride electrolytes have become increasingly attractive because they oxidize only at high voltages, and some are chemically compatible with the best cathodes we have,\u201d Nazar added. \u200b\u201cThere has been a few of them reported recently, but we designed one with distinct advantages.\u201d<\/p>\n

One chemical that is essential to the ionic conductivity lay in the material\u2019s crisscrossing 3D structure is called a ‘spinel.’ The researchers had to balance two competing desires: to load the spinel with as many charge carrying ions as possible, and to leave sites open for the ions to move through. \u200b<\/p>\n

\u201cYou might think of it like trying to a host a dance \u2014 you want people to come, but you do not want it to be too crowded,\u201d Nazar said.<\/p>\n

How will scientists continue to develop this electrolyte?<\/h3>\n

Researchers have observed that the ideal situation would be to have half the sites in the spinel structure occupied with lithium, while the other half remained open, but they have noted that creating that situation is difficult.<\/p>\n

Additionally, scientists need to assure that the electrons could not move easily through the electrolyte, as this would trigger its decomposition at high voltage. \u200b\u201cImagine a game of hopscotch,\u201d Nazar explained. \u200b\u201cEven if you are only trying to hop from the first square to the second square, if you can create a wall that makes it difficult for the electrons, in our case, to jump over, that is another advantage of this solid electrolyte.\u201d<\/p>\n

Scientists have noted that it is not yet clear why the electronic conductivity is lower than many previously reported chloride electrolytes, but it helps establish a clean interface between the cathode material and solid electrolyte; this is largely responsible for the stable performance even with excessive amounts of active material in the cathode.<\/p>\n

The research team consists of contributors from the University of Waterloo<\/a>, Canada, (UWaterloo) who are members of the Joint Center for Energy Storage Research (JCESR), headquartered at the US Department of Energy\u2019s (DOE) Argonne National Laboratory.<\/p>\n

A paper based on the research, \u200b\u2018High areal capacity, long cycle life 4 V ceramic all-solid-state Li-ion batteries enabled by chloride solid electrolytes,\u2019 appeared in the January 3 online edition of Nature Energy.<\/em><\/p>\n","protected":false},"excerpt":{"rendered":"

A research team from the University of Waterloo has discovered a new solid electrolyte that presents significant advantages. What is required to create the \u2018perfect\u2019 battery? Scientists have two primary goals regarding creating the \u2018perfect\u2019 battery: create a device that can store a great deal of energy and do so safely. Currently, a majority of […]<\/p>\n","protected":false},"author":21,"featured_media":18248,"comment_status":"open","ping_status":"open","sticky":false,"template":"","format":"standard","meta":{"_acf_changed":false,"_monsterinsights_skip_tracking":false,"_monsterinsights_sitenote_active":false,"_monsterinsights_sitenote_note":"","_monsterinsights_sitenote_category":0,"footnotes":""},"categories":[24204],"tags":[24203,24335,24161,24206],"acf":[],"yoast_head":"\nNew solid electrolyte revolutionises solid-state lithium-ion batteries<\/title>\n<meta name=\"description\" content=\"A research team from the University of Waterloo has discovered a new solid electrolyte that presents significant advantages.\" \/>\n<meta name=\"robots\" content=\"index, follow, max-snippet:-1, max-image-preview:large, max-video-preview:-1\" \/>\n<link rel=\"canonical\" href=\"https:\/\/www.innovationnewsnetwork.com\/new-solid-electrolyte-revolutionises-solid-state-lithium-ion-batteries\/18241\/\" \/>\n<meta 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