Lithium ion batteries (sometimes abbreviated Li-Ion or Li-On) are a type of rechargeable battery commonly used in consumer electronics. They are currently one of the most popular types of battery for portable electronics, with one of the best energy-to-weight ratios, no memory effect and a slow loss of charge when not in use. They can be dangerous if mistreated, however, and unless care is taken they may have a shorter lifespan compared to other battery types. A more advanced lithium-ion battery design is the lithium polymer cell. Shortcut: WP:CU Marking articles for cleanup This page is undergoing a transition to an easier-to-maintain format. ... This Manual of Style has the simple purpose of making things easy to read by following a consistent format — it is a style guide. ... The watt-hour (symbol W·h) is a unit of energy. ... KG, Kg or kg may indicate: A Kampfgeschwader, a bomber squadron of the former German Luftwaffe Basketball Player Kevin Garnett An abbreviation for kilogram (always kg) Knight of the Garter, a British decoration Kommanditgesellschaft, German version of a limited partnership Kongo language (ISO 639 alpha-2) An abbreviation for konig... The watt-hour (symbol W·h) is a unit of energy. ... The liter (spelled liter in American English and litre in Commonwealth English) is a unit of volume. ... Watts may refer to: Watt, the SI derived unit of power Watts and Co. ... KG, Kg or kg may indicate: A Kampfgeschwader, a bomber squadron of the former German Luftwaffe Basketball Player Kevin Garnett An abbreviation for kilogram (always kg) Knight of the Garter, a British decoration Kommanditgesellschaft, German version of a limited partnership Kongo language (ISO 639 alpha-2) An abbreviation for konig... The watt-hour (symbol W·h) is a unit of energy. ... The United States dollar is the official currency of the United States. ... In Egyptian mythology, Month is an alternate spelling for Menthu. ... A cycle (Latin cyclus, from Greek kuklos meaning circle) is anything round, in the physical sense (e. ... The volt is the SI derived unit for electric potential and voltage (derived from the ampere and watt). ... Rechargeable batteries (also known as Secondary cells) are batteries that can be restored to full charge by the application of electrical energy. ... It has been suggested that MF Battery be merged into this article or section. ... With batteries, the memory effect, also known as lazy battery effect, is an effect observed in some rechargeable batteries that causes them to hold less charge. ... Lithium ion polymer batteries, or more commonly lithium polymer batteries (Abbreviated Li-Poly or LiPo) are rechargeable batteries which have technologically evolved from lithium ion batteries. ...

History

Gilbert N. Lewis pioneered the science behind lithium batteries in 1912; the first workable cells were created in early 1970s. The rechargeable lithium-ion battery required nearly 20 years of development before it was safe enough to be used on a mass market level, and the first commercial version was created by Sony in 1991, following research by a team led by John B. Goodenough.[1] Lewis in the Berkeley Lab Gilbert Newton Lewis (October 23, 1875-March 23, 1946) was a famous American physical chemist. ... To meet Wikipedias quality standards, this article or section may require cleanup. ... 1991 (MCMXCI) was a common year starting on Tuesday of the Gregorian calendar. ... John B. Goodenough is a professor of mechanical and electrical engineering at the University of Texas at Austin. ...

Advantages and disadvantages

Advantages

Lithium ion batteries can be formed into a wide variety of shapes and sizes, so as to efficiently fill available space in the devices they power.

Li-ion batteries are lighter than other equivalent secondary batteries — often much lighter. The energy is stored in these batteries through the movement of lithium ions. Lithium is the third lightest element, giving a substantial saving in weight compared to batteries using much heavier metals. However, the bulk of the electrodes are effectively "housing" for the ions and add weight, and in addition "dead weight" from the electrolyte, current collectors, casing, electronics and conductivity additives reduce the charge per unit mass to little more than that of other rechargeable batteries. The forte of the Li-ion chemistry is the high open circuit voltage in comparison to aqueous batteries (such as lead acid, nickel metal hydride and nickel cadmium). ^{[citation needed]} A secondary cell is any kind of electrolytic cell in which the electrochemical reaction that releases energy is reversible. ... General Name, Symbol, Number lithium, Li, 3 Chemical series alkali metals Group, Period, Block 1, 2, s Appearance silvery white/grey Atomic mass 6. ... An ion is an atom or group of atoms that normally are electrically neutral and achieve their status as an ion by loss or addition of one or more electrons. ... General Name, Symbol, Number lithium, Li, 3 Chemical series alkali metals Group, Period, Block 1, 2, s Appearance silvery white/grey Atomic mass 6. ... Open-circuit voltage or OCV is the difference of electrical potential between two terminals of a device when there is no external load connected, i. ... To meet Wikipedias quality standards, this article or section may require cleanup. ... NIMH or NiMH may refer to: National Institute of Mental Health, a part of the United States National Institutes of Health. ... The nickel-cadmium battery (commonly abbreviated NiCd or NiCad) is a popular type of rechargeable battery for portable electronics and toys. ...

Li-ion batteries do not suffer from the memory effect. They also have a low self-discharge rate of approximately 5% per month, compared with over 30% per month in nickel metal hydride batteries and 20% per month in nickel cadmium batteries.^{[citation needed]} With batteries, the memory effect, also known as lazy battery effect, is an effect observed in some rechargeable batteries that causes them to hold less charge. ... Modern, high capacity NiMH rechargeable batteries A nickel metal hydride (or NiMH) battery is a type of rechargeable battery similar to a nickel-cadmium (NiCad) battery but which does not contain expensive (and environmentally risky) cadmium. ... The nickel-cadmium battery (commonly abbreviated NiCd or NiCad) is a popular type of rechargeable battery for portable electronics and toys. ...

According to one manufacturer, Li-Ion cells (and, accordingly, "dumb" Li-Ion batteries) do not have any self-discharge in the usual meaning of this word.^[1] What looks like a self-discharge in these batteries is a permanent loss of capacity, described in more detail below. On the other hand, smart Li-Ion batteries do self-discharge, due to the small constant drain of the built-in voltage monitoring circuit. This drain is the most important source of self-discharge in these batteries.

Disadvantages

A unique drawback of the Li-ion battery is that its life span is dependent upon aging from time of manufacturing (shelf life) regardless of whether it was charged, and not just on the number of charge/discharge cycles. So an older battery will not last as long as a new battery due solely to its age, unlike other batteries. This drawback is not widely publicized.^[2]

At a 100% charge level, a typical Li-ion laptop battery that is full most of the time at 25 degrees Celsius or 77 degrees Fahrenheit, will irreversibly lose approximately 20% capacity per year. However, a battery stored inside a poorly ventilated laptop may be subject to a prolonged exposure to much higher temperatures than 25 °C, which will significantly shorten its life. The capacity loss begins from the time the battery was manufactured, and occurs even when the battery is unused. Different storage temperatures produce different loss results: 6% loss at 0 °C/32 °F, 20% at 25 °C/77 °F, and 35% at 40 °C/104 °F. When stored at 40% charge level, these figures are reduced to 2%, 4%, 15% at 0, 25 and 40 degrees Celsius respectively.^[3] A laptop computer or simply laptop (also notebook computer or notebook) is a small mobile personal computer, which usually weighs 2. ... Celsius relates to the Celsius or centrigrade temperature scale. ... Fahrenheit is a temperature scale named after the German physicist Daniel Gabriel Fahrenheit (1686–1736), who proposed it in 1724. ...

This makes Li-Ion batteries unsuitable for back-up applications compared to lead-acid batteries, and even to Ni-MH batteries.

Because the maximum power that can be continuously drawn from the battery depends on its capacity, in high-powered (relative to C, the battery capacity in A·h) applications, like portable computers and video cameras, rather than showing a gradual shortening of the running time of the equipment, Li-Ion batteries may often just abruptly fail.^{[citation needed]}

Low-powered cyclical applications, like mobile phones, can get a much longer lifetime out of a Li-Ion battery.^{[citation needed]}

A stand-alone Li-Ion cell must never be discharged below a certain voltage to avoid irreversible damage. Therefore all systems involving Li-Ion batteries are equipped with a circuit that shuts down the system when the battery is discharged below the predefined threshold^[4]. It should thus be impossible to "deep discharge" the battery in a properly designed system during normal use. This is also one of the reasons Li-Ion cells are never sold as such to consumers, but only as finished batteries designed to fit a particular system.

When the voltage monitoring circuit is built inside the battery (so called "smart battery") rather than equipment, and continuously draws a small current from the battery even if it is not in use, the battery further must not be stored fully discharged for prolonged periods of time, to avoid damage due to deep discharge.

Li-ion batteries are not as durable as nickel metal hydride or nickel-cadmium designs and can be extremely dangerous if mistreated. They are usually more expensive. Modern, high capacity NiMH rechargeable batteries A nickel metal hydride battery, abbreviated NiMH, is a type of rechargeable battery similar to a nickel-cadmium (NiCd) battery but has a hydrogen absorbing alloy for the anode instead of cadmium, which is an environmental hazard; therefore, it is less detrimental to the... The nickel-cadmium battery (commonly abbreviated NiCd and pronounced nye-cad) is a popular type of rechargeable battery for portable electronics and toys using the metals nickel (Ni) and cadmium (Cd) as the active chemicals. ...

Li-ion chemistry is not safe as such, and a Li-ion cell requires several mandatory safety devices to be built in before it can be considered safe for use outside of a laboratory. These are: shut-down separator (for overtemperature), tear-away tab (for internal pressure), vent (pressure relief), thermal interrupt (overcurrent/overcharging)^[5]. The devices take away useful space inside the cells, and add an additional layer of unreliability. Typically, their action is to permanently and irreversibly disable the cell.

Despite these safety features, Li-ion batteries are subject of frequent recalls (see #Controversy).

The number of safety features can be compared with that of a nickel metal hydride cell, which only has a hydrogen/oxygen recombination device (preventing damage due to mild overcharging) and a back-up pressure valve.^{[citation needed]} Modern, high capacity NiMH rechargeable batteries A nickel metal hydride (or NiMH) battery is a type of rechargeable battery similar to a nickel-cadmium (NiCad) battery but which does not contain expensive (and environmentally risky) cadmium. ...

There is an ongoing research to develop alternative Li-ion chemistries that would be safe with fewer or no safety devices, such as Valence Technologies.^[6]

The Lithium ion battery from a mobile phone

Image File history File linksMetadata Download high-resolution version (1342x974, 406 KB) The Lithium ion battery from my mobile phone (Samsung SGH-E370). ... Image File history File linksMetadata Download high-resolution version (1342x974, 406 KB) The Lithium ion battery from my mobile phone (Samsung SGH-E370). ...

Specifications and design

• Specific energy density: 150 to 200 W·h/kg (540 to 720 kJ/kg)
• Volumetric energy density: 250 to 530 W·h/L (900 to 1900 J/cm3)
• Specific power density: 300 to 1500 W/kg (@ 20 seconds [2] and 285 W·h/L)

A typical chemical reaction of the Li-ion battery is as follows: The watt-hour (symbol W·h) is a unit of energy. ... A kilojoule (abbreviation: kJ) is a unit of energy equal to 1000 joules. ...

^{[citation needed]}

[Note that in the above reaction the ½ subscripts relate to the empirical formula; naturally, the atoms themselves are never split.] The actual ion involved in the above reaction is Li_xCoO₂. It is important to note that Lithium itself is not the ion being oxidized; rather, in a Lithium Ion battery the Lithium atom is complexed with another ion, forming a complex ion, and the subscripted x indicates that there are actually many different empirical formulas for the complex ion. Additionally, the ion complexed with lithium - to form the complex ion - can be that of any of the conventional battery types. The lithium-containing complex ion is merely an advanced form of the conventional ion; by adding Lithium to the conventional ion, to form a complex ion, the original ion performs better. ("perform" - the batteries do not develop a "memory" or exhibit "discharge" when not in use) A table of common forms of the Lithium-complex ions can be found on the first page of: http://www.sei.co.jp/tr_e/t_technical_e_pdf/53-16.pdf (Source: Masatoshi, et.al. Developing of a Life-Long Lithium-Ion Battery For Load Leveling. SEI Techinical Review, Number 56, January 2002, p111-115.)

Lithium-ion batteries have a nominal open-circuit voltage of 3.6 V and a typical charging voltage of 4.2 V. The charging procedure is one of constant voltage with current limiting. This means charging with constant current until a voltage of 4.2 V is reached by the cell and continuing with a constant voltage applied until the current drops close to zero. (Typically the charge is terminated at 7% of the initial charge current.) In the past Lithium-ion batteries could not be fast-charged and typically needed at least two hours to fully charge. Current generation cells can be fully charged in 45 minutes or less; some reach 90% in as little as 10 minutes. ^{[citation needed]} Open-circuit voltage or OCV is the difference of electrical potential between two terminals of a device when there is no external load connected, i. ... Josephson junction array chip developed by NIST as a standard volt. ...

Lithium ion internal design is as follows. The anode is made from carbon, the cathode is a metal oxide, and the electrolyte is a lithium salt in an organic solvent. ^{[citation needed]} Diagram of a zinc anode in a galvanic cell. ... General Name, Symbol, Number carbon, C, 6 Chemical series nonmetals Group, Period, Block 14, 2, p Appearance black (graphite) colorless (diamond) Atomic mass 12. ... Diagram of a copper cathode in a Daniells cell. ... An oxide is a chemical compound of oxygen with other chemical elements. ... An electrolyte is a substance that dissociates into free ions when dissolved (or molten), to produce an electrically conductive medium. ... General Name, Symbol, Number lithium, Li, 3 Chemical series alkali metals Group, Period, Block 1, 2, s Appearance silvery white/grey Atomic mass 6. ... This article is about the term salt as referred to in chemistry. ... Benzene is the simplest of the arenes, a family of organic compounds An organic compound is any member of a large class of chemical compounds whose molecules contain carbon and hydrogen; therefore, carbides, carbonates, carbon oxides and elementary carbon are not organic (see below for more on the definition controversy... For other uses, see Solvent (disambiguation). ...

Solid electrolyte interphase

A particularly important element for activating Li-ion batteries is the solid electrolyte interphase (SEI). Liquid electrolytes in Li-ion batteries consist of solid lithium-salt electrolytes, such as LiPF₆, LiBF₄, or LiClO₄, and organic solvents, such as ether. A liquid electrolyte conducts Li ions, which act as a carrier between the cathode and the anode when a battery passes an electric current through an external circuit. However, solid electrolytes and organic solvents are easily decomposed on anodes during charging, thus preventing battery activation. Nevertheless, when appropriate organic solvents are used for electrolytes, the electrolytes are decomposed and form a solid electrolyte interface at first charge that is electrically insulating and high Li-ion conducting. The interface prevents decomposition of electrolytes after the second charge. For example, ethylene carbonate is decomposed at relatively high voltage, 0.7 V vs. Li, and forms a tight and stable interface. This interface is called an SEI. ^{[citation needed]} Four double-A batteries In science and technology, a battery is a device that stores energy and makes it available in an electrical form. ... A liquid will usually assume the shape of its container. ... An electrolyte is a substance that dissociates into free ions when dissolved (or molten), to produce an electrically conductive medium. ... Four double-A batteries In science and technology, a battery is a device that stores energy and makes it available in an electrical form. ... General Name, Symbol, Number lithium, Li, 3 Chemical series alkali metals Group, Period, Block 1, 2, s Appearance silvery white/grey Atomic mass 6. ... This article is about the term salt as referred to in chemistry. ... An electrolyte is a substance that dissociates into free ions when dissolved (or molten), to produce an electrically conductive medium. ... Lithium hexafluorophosphate (LiPF6) is an inorganic chemical compound. ... Lithium tetrafluoroborate is a chemical compound with the formula BF4Li. ... Lithium perchlorate has formula LiClO4. ... Benzene is the simplest of the arenes, a family of organic compounds An organic compound is any member of a large class of chemical compounds whose molecules contain carbon and hydrogen; therefore, carbides, carbonates, carbon oxides and elementary carbon are not organic (see below for more on the definition controversy... A substance is soluble in a fluid if it dissolves in the fluid. ... Diethyl ether, also known as ether and ethoxyethane, is a clear, colorless, and highly flammable liquid with a low boiling point and a characteristic smell. ... An electrolyte is a substance that dissociates into free ions when dissolved (or molten), to produce an electrically conductive medium. ... Diagram of a copper cathode in a Daniells cell. ... Diagram of a zinc anode in a galvanic cell. ... It has been suggested that MF Battery be merged into this article or section. ... Diagram of a zinc anode An anode (from the Greek άνοδος = going up) is the positive electrode in an electrolytic system or circuit. ... A solvent is a liquid that dissolves a solid, liquid, or gaseous solute, resulting in a solution. ... Ethylene carbonate Ethylene carbonate, also called 1,3-dioxolan-2-one and ethylene glycol carbonate, is an organic chemical, an ester of ethylene glycol and carbonic acid. ...

See uranium trioxide for some details of how the cathode works. While uranium oxides are not used in commercially made batteries, the way in which uranium oxides can reversibly insert cations is the same as the way in which the cathode in many lithium ion cells work. ^{[citation needed]} Uranium trioxide (UO3), also called uranyl oxide, uranium(VI) oxide, and uranic oxide, is the hexavalent oxide of uranium. ...

Guidelines for prolonging Li-ion battery life

• Unlike Ni-Cd batteries, lithium-ion batteries should be charged early and often. However, if they are not used for a longer time, they should be brought to a charge level of around 40%. Lithium-ion batteries should never be "deep-cycled" like Ni-Cd batteries.^[3]
• Li-ion batteries should be kept cool. Ideally they are stored in a refrigerator. Aging will take its toll much faster at high temperatures. The high temperatures found in cars cause lithium-ion batteries to degrade rapidly.
• Lithium-ion batteries should never be depleted to empty (0%).
• According to one book^[7], lithium ion batteries should not be frozen. Note that most lithium-ion battery electrolytes freeze at approximately −40 °C, which is much colder than the lowest temperature reached by most household freezers.
• Li-ion batteries should be bought only when needed, because the aging process begins as soon as the battery is manufactured.^[3]
• When using a notebook computer running from fixed line power over extended periods, the battery can be removed and stored in a cool place so that it is not affected by the heat produced by the computer.^[3] However, a notebook computer's battery prevents sudden loss of the data in memory during power failures and voltage drops. Reasonable alternatives are the use of an older lithium ion battery or an external uninterruptible power supply.

The nickel-cadmium battery (commonly abbreviated NiCd and pronounced nye-cad) is a popular type of rechargeable battery for portable electronics and toys using the metals nickel (Ni) and cadmium (Cd) as the active chemicals. ... An uninterruptible power supply (UPS), uninterruptible power source or sometimes called a battery backup is a device which maintains a continuous supply of electric power to connected equipment by supplying power from a separate source when utility power is not available. ...

Storage temperature and charge

Storing a Li-ion battery at the correct temperature and charge makes all the difference in maintaining its storage capacity. The following table shows the amount of permanent capacity loss that will occur after storage at a given charge level and temperature.

It is significantly beneficial to avoid storing a lithium-ion battery at full charge. A Li-ion battery stored at 40% charge will last many times longer than one stored at 100% charge, particularly at higher temperatures.^[3]

If a Li-ion battery is stored with too low a charge, there is a risk of allowing the charge to drop below the battery's low-voltage threshold, resulting in an unrecoverably dead battery. Once the charge has dropped to this level, recharging it can be dangerous. An internal safety circuit will therefore open to prevent charging, and the battery will be for all practical purposes dead. ^{[citation needed]}

In circumstances where a second Li-ion battery is available for a given device, it is recommended that the unused battery be discharged to 40% and placed in the refrigerator to prolong its shelf life. Batteries should be allowed to completely warm to room temperature over up to 24 hours before any discharge or charge.

Explosions

Lithium-ion batteries can easily rupture, ignite, or explode when exposed to high temperatures, or direct sunlight. They should not be stored in a car during hot weather. Short-circuiting a Li-ion battery can cause it to ignite or explode. Never open a Li-ion battery's casing. Li-ion batteries contain safety devices that protect the cells inside from abuse. If damaged, these can also cause the battery to ignite or explode.

Internal contaminants inside the cells can defeat these safety devices. The mid-2006 recall of 10 million Sony batteries used in Dell, Apple, Lenovo/IBM, Panasonic, Toshiba, Hitachi, Fujitsu and Sharp laptops was a consequence of internal contamination with metal particles. Under some circumstances, these can pierce the separator, rapidly converting all of the energy in the cell to heat.[3] This article is about the corporation Dell, Inc. ... Apple Computer, Inc. ... Lenovo Group Limited, formerly known as Legend Group Limited, is the largest personal computer manufacturer in the Peoples Republic of China, and as of 2004 is the eighth largest in the world. ... Big Blue redirects here. ... Panasonic is an international brand name for Japanese electric products manufacturer Matsushita Electric Industrial Co. ... Toshiba Corporations headquarters in Hamamatsucho, Tokyo Toshiba Corporation sales by division for year ending March, 31 2005 Toshiba Corporation ) (TYO: 6502 ) is a Japanese high technology electrical and electronics manufacturing firm, headquartered in Tokyo, Japan. ... Hitachi may refer to: Hitachi (train) trains in Melbourne, Australia. ... For the district in Saga, Japan, see Fujitsu, Saga. ... The word sharp or acronym SHARP has several uses: Look up sharp in Wiktionary, the free dictionary. ...

The mid-2006 Dell laptop battery recall isn't the first of its kind, but it is the largest. During the past decade there have been numerous recalls of lithium-ion batteries in cellular phones and laptops owing to overheating problems. Last December, Dell pulled about 22,000 batteries from the U.S. market. In 2004, Kyocera Wireless recalled about 1 million batteries used in phones.^[8]

"It is possible to replace the lithium cobalt oxide cathode material in li-ion batteries with lithiated metal phosphate cathodes that don’t explode and even have a longer shelf life. But for the moment these safer li-ion batteries seem mainly destined for electric cars and other large-capacity applications, where the safety issues are more critical... The fact is that lithiated metal phosphate batteries hold only about 75 percent as much power..."[4]

New technology

In February 2005, Altair NanoTechnology[5], a small firm based in Reno, Nevada, announced a nano-sized titanate electrode material for lithium-ion batteries. Its prototype battery has three times the power of existing batteries and can be fully charged in six minutes. The company also says the battery can handle approximately 20,000 recharging cycles, so durability and battery life are much longer, estimated to be around 20 years or four times longer than regular lithium-ion batteries. The batteries can operate from -50ºC to over 75ºC and will not explode or result in thermal runaway even under severe conditions because they do not contain graphite anode electrode material[6]. The batteries are currently being tested in a new production car made by Phoenix Motorcars[7] which was on display at the 2006 SEMA motorshow. City nickname: The Biggest Little City in the World Founded May 13, 1868 County Washoe County Mayor Bob Cashell Area  - Total  - Land  - Water 179. ...

In March of 2005, Toshiba announced another fast charging lithium-ion battery, based on new nano-material technology, that provides even faster charge times, greater capacity, and a longer life cycle. The battery may be used in commercial products in 2006 or early 2007, primarily in the industrial and automotive sectors.[8]

In November 2005, A123Systems announced[9] a new higher power, faster recharging Li-Ion battery system[10] [11] based on research licensed from MIT. Their first cell is in production (1Q/2006) and being used in DeWalt power tools and Hybrids Plus Prius PHEV conversions (although the conversion costs more than the original price of the car, mostly due to the price of the batteries). A plug-in hybrid electric vehicle or gas-electric hybrid fueled vehicle is a hybrid which has additional battery capacity and the ability to be recharged from an external electrical outlet. ...

All these formulations involve new electrodes. By increasing the effective electrode area — thus decreasing the internal resistance of the battery — the current can be increased during both use and charging. This is similar to developments in ultracapacitors. Therefore, the battery is capable of delivering more power (watts); however, the battery's capacity (ampere-hours) is increased only slightly. An Ultracapacitor is a capacitor that has an unusually large amount of energy storage capability relative to its size when compared to common capacitors. ...

In April 2006, a group of scientists at MIT announced that they had figured out a way to use viruses to form nano-sized wires that can be used to build ultrathin lithium-ion batteries with three times the normal energy density. Science Express (preprint) [12] Mapúa Institute of Technology (MIT, MapúaTech or simply Mapúa) is a private, non-sectarian, Filipino tertiary institute located in Intramuros, Manila. ...

As of June 2006, researchers in France have created nanostructured battery electrodes with several times the energy capacity, by weight and volume, of conventional electrodes [13].

References

1. ^ . "Gold Peak Industries Ltd., Lithium Ion technical handbook" (pdf).
2. ^ http://www.buchmann.ca/Article5-Page1.asp
3. ^ ^{a b c d e f} BatteryUniversity.com: how to prolong lithium-based batteries
4. ^ Gold Peak Industries Ltd., Lithium Ion technical handbook
5. ^ Gold Peak Industries Ltd., Lithium Ion technical handbook
6. ^ . ""Saphion" technology incorporates a phosphate based cathode material".
7. ^ L.M. Cristo, T. B. Atwater. Characteristics and Behavior of 1M LiPF6 1EC:1DMC Electrolyte at Low Temperatures. Fort Monmouth, NJ: U.S. Army Research.
8. ^ Tullo, Alex. "Dell Recalls Lithium Batteries." Chemical and Engineering News 21 Aug 2006: 11.

External links

• BatteryUniversity.com
• [14]
• Laptop Li-Ion Battery guide
• State of Lithium-ion technology - June 2004 - 41st Power Sources Conference
• Is it Safe to Use Li-ion Batteries ?