The Top 25 Lithium Ion Battery Questions Answered!

09 Sep.,2024

 

The Top 25 Lithium Ion Battery Questions Answered!

The Top 25 Lithium Ion Battery Questions Answered!

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-05-11

Understanding lithium ion batteries can be like navigating a labyrinth: Many twists and turns, with no clear way to the end. As technology continues to advance, it's important for people to keep up with the latest advancements in battery power sources. This article will provide an answer key to some of the most common questions about lithium ion batteries, providing readers with information that is as powerful as these energy sources themselves.

The development of lithium-ion batteries has revolutionized modern life; they are now used in everything from cell phones to electric cars. To make sure you're making informed decisions on how best to utilize this form of energy storage, it's important to know what questions you should ask when considering them. In this article, we'll break down 25 of the most commonly asked questions about lithium-ion batteries and provide straightforward answers so readers have a better understanding of their use and safety considerations.

1. How Does A Lithium-Ion Battery Work?

A lithium ion battery consists of an anode, cathode, and electrolyte. The anode is typically made from graphite or other carbon materials while the cathode is composed of a material containing lithium ions such as cobalt oxide. Separating these two components is the electrolyte which allows for the flow of lithium-ions between them when charging and discharging.

When in use, electrons move from the negative anode to the positive cathode through an external circuit allowing current to be drawn out of the battery, providing power to whatever device it is connected to. Reversing this process causes electrons to travel back into the battery via the same circuit enabling it to be charged again. Lithium ions also migrate across this internal barrier resulting in a chemical reaction that stores energy within its cells until released again when needed.

2. How Long Can A Lithium-Ion Battery Last?

The lifespan of a lithium-ion battery depends on many factors, including the type of cell used, environmental conditions, and charging habits. Here are four key elements that affect the longevity of lithium-ion batteries:

  1. The capacity at which it is charged.
  2. The frequency with which it is discharged and recharged.
  3. The environmental temperature in which it is stored or used.
  4. Quality of the cells contained within the battery pack.

When using a high-quality lithium-ion battery correctly and consistently, its life expectancy can be up to 10 years or more depending on usage patterns and environmental conditions. In order for users to take full advantage of lithium-ion batteries, it is best to keep them at a temperature between 15°C - 25°C (68°F - 77°F) when using lithium-ion batteries. If they are not used for a long time, the voltage level needs to be checked regularly Will make sure the battery is not over-discharged.

3. What Is The Biggest Disadvantage Of Lithium-Ion Batteries?

Although lithium-ion batteries have the advantage of high energy density, their biggest disadvantage is that they are prone to thermal runaway.. When the temperature rises and the chemical reaction inside the battery causes the temperature to rise further, the battery will become unstable and even explode or catch fire. Therefore, proper charging protocols must always be followed, and the lithium battery manufacturers must incorporate safety features such as temperature sensing devices and current limiters into their products.

Also, while lithium-ion batteries are not as affected by the memory effect as nickel-based batteries are, they still experience some degree of capacity loss over time due to cycling patterns and aging. Therefore, regular maintenance and replacement cycles should be factored into any long-term usage plan involving these batteries.

4. What Kills Li-Ion Batteries?

(1) Extreme temperature

Heat has a significant impact on lithium ion battery life. When exposed to high temperatures, the internal electrolyte begins to break down more quickly than usual, causing increased corrosion and reduced capacity over time. Keeping devices away from direct sunlight or other sources of heat is essential for maintaining optimal performance.

Additionally, charging them in extreme cold will cause permanent damage as the reaction rate slows down significantly at lower temperatures. It&#;s important not simply to avoid extremes but also to maintain an optimal storage temperature between 40-45 degrees Celsius (104 -113 Fahrenheit).

(2) Physical damage

Not only does temperature affect Li-ion batteries, but so too does physical stress such as shock or vibration. Allowing a device to drop onto hard surfaces can cause short-circuiting due to pressure placed on certain areas of the cell where contacts meet and disrupt stability within the circuit board itself.

Similarly, exposure to water can introduce foreign elements that corrode components like copper wiring leading to further disruption in current flow throughout the system if left unaddressed. Taking proper care of a device by handling with caution and keeping it dry is paramount for longevity.

5. Can Lithium-Ion Batteries Explode?

Lithium-ion batteries contain a combustible material and thus, have the potential to be dangerous when not handled properly. This raises an important question: can lithium-ion batteries explode?

The answer is yes; however, there are several factors that affect the likelihood of this happening. The following table provides more information about these contributing factors:

Contributing FactorsDetailsHigh TemperaturesHeat causes degradation in battery cells which increases the risk of fire or explosion.OverchargingThe excessive voltage applied to battery cells damages them and increases the possibility of fire/explosion.Manufacturing DefectsPoor quality control during production can result in faulty cells with an increased risk of combustion.Physical DamageDamaged casing exposes internal components leading to short circuits and increased chances of combustion.

Lithium-ion batteries should always be stored at room temperature, charged within their specified limits and regularly inspected for any physical damage. Additionally, they should only be purchased from reputable sources as defects due to poor manufacturing standards could lead to catastrophic incidents such as explosions or fires. Following these precautions will help minimize risks associated with using lithium-ion batteries.

6. Do Lithium-Ion Batteries Leak?

Yes, generally leaking of lithium-ion batteries can be caused by several factors, such as overcharging or prolonged use at high temperatures. When lithium ions escape from the cells, they may cause damage to surrounding objects or people.

The good news is that modern lithium-ion batteries are designed with safety features that help reduce the chance of leakage occurring. These include temperature sensors that cut off charging if it reaches an unsafe level and pressure valves that act as a release mechanism should too much gas build up inside the cell.

7. Can A Li-Ion Battery Be Left On The Charger Overnight?

No, it is not recommended to leave them charging for extended periods of time, as this can reduce battery life and even cause damage if done repeatedly over long intervals.

In general, Li-Ion batteries should be removed from their chargers when they reach full capacity&#;typically indicated by an LED light or other indicator. Leaving them in the charger beyond this point increases internal heat generation which causes permanent damage to their cells. It also accelerates the natural aging process of these batteries; reducing both charge capacity and cycle life expectancy each time they are left connected to power unnecessarily.

When charging your device&#;s Li-Ion battery, make sure you monitor its progress until it reaches full capacity and promptly disconnect it once completed. Following this practice will ensure longer battery life while avoiding any potential hazards associated with leaving Li-Ion batteries on their chargers for too long.

8. What Is The Difference Between A Lithium Battery And A Lithium-Ion Battery?

Lithium batteries and lithium-ion batteries are two types of rechargeable power sources used in a variety of applications. Lithium batteries use metallic lithium as an active ingredient, while lithium-ion batteries have a battery cell composed of different materials including graphite or carbon. The main difference between these two is that the former relies on a chemical reaction to generate electricity, while the latter uses electrochemical processes to do so.

The advantage of using lithium-ion technology over other types of rechargeables is its higher energy density, which allows for longer run times with fewer charges per cycle. Additionally, it offers improved safety features such as thermal runaway protection and better performance due to its low self-discharge rate. This makes them particularly useful for portable electronics like smartphones, tablets, and laptops where weight and size are important considerations. When compared to nickel-metal hydride or lead acid cells, they offer superior efficiency and charge capacity at a lower cost.

9. How To Recycle Lithium-Ion Batteries?

Recycling lithium-ion batteries is an important part of protecting our environment and conserving resources. Lithium-ion batteries are used in many common devices, including cell phones, laptops, cameras and power tools. Recycling these batteries can help reduce the amount of waste going into landfills and conserve valuable raw materials.

  1. The recycling process begins when the battery arrives at a specialized facility that collects and processes them for reuse or dismantling.
  2. The batteries are then disassembled to separate the metals from other components like plastic housing or insulation material.
  3. Metals such as copper, aluminum, steel and nickel are extracted from the cells so they can be recycled back into new products.
  4. In some cases, even hazardous materials like heavy metals may also need to be safely removed before disposal.
  5. Finally, any remaining pieces are disposed of responsibly according to local regulations.

10. What Is The Charge Time For A Li-Ion Battery?

The charge time for a Li-ion battery is dependent on the type and capacity of the battery, as well as the charging current. Generally speaking, it usually takes around 4 hours to fully charge a standard Li-ion cell with 1A (mA) of current.

Here are some important points about charging Li-ion batteries:

  • A higher rate of current will result in a quicker charge time.
  • Rapid chargers can recharge up to 80% in 15 minutes or less.
  • When using an external charger, always follow the manufacturer's recommended settings.

When considering how long it will take to charge your device&#;s battery, be sure to use the appropriate power adapter that matches its voltage requirements and allows you to adjust the output amperage accordingly. Furthermore, make sure not to overcharge your battery by disconnecting it once it has reached full capacity. This way you can ensure maximum performance and lifetime from your Li-ion battery while keeping yourself safe from potential hazards associated with prolonged exposure to high voltages.

11. How To Prolong The Service Life Of Lithium-Ion Batteries?

With its many advantages, such as lightweight and long-lasting power, lithium-ion batteries are becoming increasingly popular in a variety of devices. Knowing some simple steps can help keep your Li-ion battery working optimally for years to come.

(1) Charge correctly

The first step in prolonging the service life of a Li-ion battery is proper charging habits. It's important that you follow your device's manufacturer's instructions when charging and use only the recommended charger or adapter provided with the device. Additionally, avoid overcharging by unplugging once fully charged and don't leave your device plugged in overnight. Too much current can damage cells within the battery and reduce its capacity significantly over time.

(2) Suitable temperature environment

Keeping temperature extremes away from any type of rechargeable battery is essential for optimal performance and longevity. This means avoiding leaving batteries outside during extreme temperatures like cold winters or hot summers and not exposing them to heat sources such as ovens or fireplaces.

In addition, always store Li-ion batteries at room temperature ideally between 40°F (4°C) and 77°F (25°C). Storing them at higher or lower temperatures may cause permanent damage to the cells inside leading to reduced capacity levels or even complete failure after multiple charge cycles.

12. Can I Use A Different Charger For My Li-Ion Battery?

Charging a Li-ion battery with the wrong charger can be dangerous and damaging. Battery manufacturers usually recommend using only chargers that are specifically designed for their products, as these have been tested to operate safely and efficiently. A charger should not exceed the maximum voltage or current rating of the battery; otherwise, it may cause overheating and/or fire hazards. It is also important to remember that some batteries require special charging techniques such as overcharging protection, trickle charge, and temperature monitoring.

Using an incompatible charger may cause irreversible damage to the Li-ion battery, so choosing a suitable Li-ion battery charger is an essential part of maintaining Li-ion batteries. In general, users should stick with original equipment manufacturer (OEM) chargers whenever possible since they are typically well-designed and tested by professionals. Additionally, you can always consult user manuals or contact customer service departments if unsure which type of charger is suitable for use with a specific Li-ion battery model.

13. What Is The Capacity Of A Lithium-Ion Battery?

The capacity of a lithium-ion battery is an important factor to consider when choosing the right power source for your device. Understanding how much energy a battery can store and how long it will last under certain conditions is essential in ensuring that you make the most efficient use of your batteries. To put it simply, capacity indicates how much-stored energy is available from a given battery.

CapacityDescriptionmAh (milliampere-hour)A unit that describes charge or electric current over time. It reflects the amount of electric charge a battery can carry at its rated voltage. For example, if a 3V Li-Ion cell has a mAh rating, then it means that this cell can deliver 1mA for hours or 2A for hours before discharging completely.Wh (watt-hours)A unit used to measure the total amount of electrical energy consumed by an appliance during one hour period. So if an appliance consumes 5W of electricity per hour, then it would consume 5Wh per hour. The higher the wattage, the faster the appliance will consume the energy stored in the battery pack.

14. Can I Overcharge A Li-Ion Battery?

No, if left in a charging state for an extended period of time at a high voltage, there can be damage caused to the cells due to excessive heat generation from overcharging. This can cause permanent cell and circuit board damage, leading to reduced performance and even shortened life expectancy for the battery.

To avoid this issue, users should always use a quality charger designed specifically for their type of Li-Ion battery with safety features such as auto shutoff when reaching full charge. Additionally, Li-Ion batteries should never be charged unsupervised since they are sensitive and require careful monitoring during charging cycles. Proper maintenance habits including regularly checking and replacing faulty chargers will help ensure optimal performance and long-term durability of your Li-Ion batteries.

15. What Is The Difference Between Lithium-Ion Batteries And Lead-Acid Batteries?

The difference between lithium-ion batteries and lead-acid batteries is significant. Lithium-ion batteries are a rechargeable battery technology, while lead-acid batteries are disposable. Lead-acid batteries have been around for more than 100 years and are one of the most popular types of battery due to their lower cost and relative simplicity. They can be found in automotive applications as well as consumer electronics like flashlights or radios.

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In contrast, lithium-ion batteries offer higher energy density, lighter weight, longer life spans and faster charging times compared to their lead-acid counterparts. Additionally, they do not suffer from the memory effect (the gradual decrease in capacity over time) which has long plagued nickel-cadmium (NiCd) cells. As such, lithium-ion technology is increasingly being used in laptops and other portable devices that require high-performance power sources. Furthermore, these same qualities make them an attractive option for electric vehicles since they provide a greater range per charge than traditional internal combustion engine cars. In summary, lithium ion batteries offer several advantages over lead acid cells but come with a higher price tag attached.

16. How To Store Lithium-Ion Batteries?

To properly store lithium-ion batteries and keep them performing optimally, attention must be paid to three key areas: temperature, charge state, and location.

(1) Temperature

The temperature has a direct correlation with battery life and performance, too hot or cold can have drastic effects on their capacity and longevity. Room temperatures between 15°C-25°C are ideal for storing lithium-ion cells, any lower could cause degraded performance while higher temperatures could lead to permanent damage.

(2) Charge state

Storing fully charged or completely discharged batteries for extended periods of time can degrade their long-term health significantly; it&#;s best practice to only recharge when necessary or discharge down to 30%-50% before storage. This rule applies even more so if you plan on leaving your device unused for an extended period of time (more than two weeks).

(3) Location

Where you physically store your batteries matters as well as avoid humid environments that may put them at risk of developing mold or corrosion. Additionally, keeping them away from metal objects reduces the chance of short-circuiting which can cause irreparable damage. Following these simple steps should help ensure your lithium-ion batteries stay healthy and productive throughout their lifetime.

17. Can I Use My Device While Charging The Li-Ion Battery?

The answer to this question is yes, you can use your device while charging its lithium-ion battery. This is because the charge rate for most lithium-ion batteries is safe and will not cause any damage if used during charging. However, it should be noted that using the device while charging may reduce the life of the battery over time due to increased heat generated from both activities occurring simultaneously. Here are five tips for safely using your device while it charges:

  • Ensure that you&#;re using the correct charger for your device; incorrect chargers could potentially damage your battery or even start a fire.
  • Try to avoid intensive tasks such as gaming or streaming videos while charging as they can generate additional heat which in turn reduces the lifespan of your battery.
  • Check regularly on your device to make sure it's not getting too hot if so, switch it off immediately and let cool down before continuing charging.
  • Unplug when fully charged - letting a li-ion battery remain connected after full charge causes unnecessary stress on its cells leading to quicker degradation in performance and capacity over time.
  • Using an external power source where possible connecting directly to mains electricity rather than through a laptop or computer is safer and more efficient at providing a consistent power supply without putting strain on either device's internal components or battery cell structure.

Charging a Li-Ion battery whilst using your device does come with some risk however following these simple steps can help keep you safe and extend the life of your batteries significantly!

18. What Is The Voltage Of A Li-Ion Battery?

The voltage of a Li-ion battery is determined by its chemistry; the most common chemistries used for Li-ion cells include lithium cobalt oxide (LCO), lithium manganese oxide (LMO), polymer, and nickel metal hydride (NiMH).

ChemistryVoltageCapacityLCO3.6 V mAhLMO3.7 V mAhPolymer3.65 V mAhNiMH1.2 V mAh

The typical nominal cell voltage of an Li-ion battery ranges from 2.75 to 4.20 volts per cell depending on the specific cell chemistry being used. This means that if one was using four cells with a capacity of mAh each, then the total rated capacity would be mAh at a 14.4V nominal voltage level for this configuration. Furthermore, different manufacturers use slightly different voltages which can also impact the overall performance of the device they are powering.

It is important to note that Li-ion batteries should never be discharged below their minimum safe operating voltage as this will greatly reduce their lifetime and increase the risk of fire or explosion due to excessive heat buildup inside the pack during charging cycles afterward. It is therefore recommended to always charge them above their minimum safe discharge rating when possible in order to ensure maximum safety and optimal performance over time.

19. What Happens If I Puncture A Li-Ion Battery?

Puncturing a Li-Ion battery can have disastrous consequences. According to the National Fire Protection Agency, in there were over 18,000 reported cases of lithium ion batteries causing fires and explosions across America; 80% of which could be attributed to puncture damage.

To avoid catastrophic damage it is important to understand what happens when you puncture a Li-Ion battery:

  1. The electrolytes may start leaking from the battery cell if pierced
  2. Short circuits are likely to occur due to the metals coming into contact with each other
  3. If left unattended, this short circuit can lead to thermal runaway resulting in an explosion or fire
  4. Chemical burns can also potentially result from direct contact with electrolyte leakage

The risks associated with puncturing Li-Ion batteries cannot be underestimated. In addition to presenting physical danger, like chemical burns or even death by electrocution, any attempts at tampering or piercing these cells will most certainly void warranty coverage as well as reduce their overall performance capability. It is therefore recommended that only qualified professionals handle such activities on your behalf and never attempt any DIY repairs yourself on these types of batteries.

20. Can I Use Li-Ion Batteries In Extreme Temperatures?

No, the optimal temperature range for Li-Ion batteries lies between 0°C (32°F) and 45°C (113°F). Temperatures outside this range may cause the cells to overheat or freeze, leading to permanent damage.

In order to prevent heat buildup, make sure that any device containing a Li-Ion battery has adequate ventilation and never leave them in direct sunlight or near any heat source. When storing Li-Ion batteries, keep them at room temperature with 30% charge remaining on the cell.

Additionally, avoid discharging them completely as doing so will reduce their lifespan significantly. To protect against cold weather conditions, place the cells inside an insulated container like those used for camping trips or picnics. This way they stay warm enough not to suffer from freezing temperatures but not hot enough to risk battery failure.

21. How Do I Know When My Li-Ion Battery Is Fully Charged?

One of the easiest ways to determine if your Li-ion battery is fully charged is by examining the indicator light on your charger or device itself.

This light typically changes color when the charging process is complete. If no such light exists, then checking the voltage levels with a multimeter should give an accurate reading of whether the charging cycle has concluded.

Furthermore, if possible, taking advantage of built-in monitoring systems may be beneficial as they are capable of providing more detailed information regarding current and past cycles experienced by a particular battery.

22. Can Lithium-Ion Batteries That Have Not Been Used For A Long Time Still Be Used?

Like an unused car engine, lithium-ion batteries that have not been used for a long time may need a little extra care when being brought back into use. Studies show that long periods of inactivity can cause the battery to degrade and lose its ability to hold a charge. However, if the battery is properly charged before use it will be able to maintain its capacity over time.

There are several steps you can take to activate your dormant Li-ion battery to have the best chance of success.

  • First, ensure the battery is fully charged prior to using it. This prevents any damage caused by attempting to power up with insufficient charge levels.
  • Additionally, users should avoid storing their batteries in extreme temperatures or humidity as this could lead to permanent damage and reduce performance drastically.
  • Finally, allow ample time for charging and discharging cycles when bringing the battery back into service; this help keep cells balanced and maximize efficiency.

Taking these precautions helps bring old lithium-ion batteries back up to speed without causing further harm to them. With proper maintenance and handling, they'll provide reliable power just like they did when brand new!

23. How Does The Size Of A Li-Ion Battery Affect Its Performance?

The size of a lithium-ion battery affects its performance in two key ways. Firstly, the capacity of a Li-ion battery is determined by its volume or mass. This means that its energy density will be lower than larger batteries with the same chemistry. Therefore, smaller batteries are less likely to provide enough power for applications requiring high current draws and long runtimes such as electric vehicles (EVs).

Secondly, the size of a Li-ion battery also determines the amount of cycles it can withstand before failing due to degradation caused by internal resistance increases over time. Smaller cells tend to have higher internal resistances which cause them to heat up faster when charged or discharged at higher currents than larger ones. This results in shorter life cycles due to increased wear and tear on the cell&#;s components causing early failure.

It is clear that choosing an appropriately sized Li-ion battery for any given application is important for both safety reasons and optimal performance. In addition, factors such as cost and availability should also be taken into account when selecting a suitable model for specific requirements.

24. What Are The Charging Rules For Lithium-Ion Batteries?

The first rule is that it&#;s important to charge them properly right out of the box; this means waiting until they are fully discharged before initiating the first full charge cycle. This helps condition them so they can be used optimally over time.

Afterward, users should avoid &#;trickle charging or leaving the battery plugged into an outlet for long periods. This practice reduces life expectancy by causing oxidation on the positive electrode surface and overheating some components as well.

Instead, users should opt for &#;cycling or regular discharge/recharge cycles at least once per month. Additionally, it is recommended to always try and maintain a 50% state of charge if possible since extended storage with either too much or too little energy results in degradation due to chemical reactions occurring inside the cells when not being used.

Finally, never leave a Li-Ion cell completely drained because doing so may cause permanent damage and render it unusable.

25. Should Lithium Batteries Be Stored Fully Charged?

It is important to understand the optimal storage conditions for lithium-ion batteries.

  • Suitable storage environment: Batteries should be stored in a cool, dry place, away from direct sunlight or any other heat source.
  • The proper state of charge: Store batteries at a 40% state of charge rather than fully charged, a high charge will cause an increase in temperature which can lead to an increased rate of self-discharge which can lead to overcharging and a thermal runaway reaction may cause a fire hazard. Additionally, keeping the battery partially charged allows for more efficient charge cycles, which means less stress on the battery during charging.
  • Suitable ambient temperature: Prolonged exposure to high temperatures, especially when fully charged, can cause irreversible damage to Li-ion batteries, reducing their capacity and even causing them to fail completely.

Therefore, while it may be tempting to keep those extra electrons locked inside your device's battery, ultimately it&#;s best practice not only for your own safety but also for maintaining your lithium-ion battery's overall health and longevity.

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PerformanceOther Lithium ion BatteriesLifepo4 BatteriesLife cycles300--Depth of discharge80%-90%90%-95%Self-discharge rate5%3%SafetyCan catch fire or explodeLittle chance of overheatingEnvironmentally FriendlyContains Toxic SubstancesWithout Any Toxic Substances

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Frequent Questions on Lithium-Ion Batteries

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How should I dispose of lithium-ion batteries?

Lithium-ion (Li-ion) batteries and devices containing these batteries should not go in household garbage or recycling bins. They can cause fires during transport or at landfills and recyclers. Instead, Li-ion batteries should be taken to separate recycling or household hazardous waste collection points.

What should I do to make my batteries safe to bring to a recycling facility?

To prevent fires, which can happen if batteries come in contact with each other or with other metals, EPA recommends taping the battery terminals (or connections) with non-conductive tape. Electrical tape is preferred, but all adhesive tapes not made of metallic material will work. Alternatively, placing each battery in its own plastic bag also isolates the terminals.

How can I identify what products have Li-ion batteries in them?

The battery or device may list its chemistry on the battery&#;s case, instruction manuals, or product markings. There may also be symbols or icons that state the chemistry or the chasing arrow symbol with the words &#;Li-ion&#; below it.  

Why shouldn&#;t Li-ion batteries be put in the municipal or household recycling bin?

When Li-ion batteries or the devices that contain them are mistakenly put into the municipal recycling bin, they will end up at a municipal recovery facility (MRF) that is typically equipped to recycle only household paper, plastic, metal and glass. When this happens, the batteries can become damaged or crushed during processing and may become a fire hazard. It is important to note that the chasing arrow symbol (i.e., three arrows forming a triangle) on Li-ion batteries means you can recycle these batteries at specialized battery recyclers; it does NOT mean you can put Li-ion batteries in the municipal/household recycling bin.

Why is recycling Li-ion batteries important?

Reusing and recycling Li-ion batteries helps conserve natural resources by reducing the need for virgin materials and reducing the energy and pollution associated with making new products. Li-ion batteries contain some materials such as cobalt and lithium that are considered critical minerals and require energy to mine and manufacture. When a battery is thrown away, we lose those resources outright&#;they can never be recovered. Recycling the batteries avoids air and water pollution, as well as greenhouse gas emissions. It also prevents batteries from being sent to facilities that are not equipped to safely manage them and where they could become a fire hazard. You can reduce the environmental impact of electronics that are powered by Li-ion batteries at the end of their useful life through the reuse, donation and recycling of the products that contained them.

What materials are in Li-ion batteries?

The material composition, or &#;chemistry,&#; of a battery is tailored to its intended use. Li-ion batteries are used in many different applications and many different environmental conditions. Some batteries are designed to provide a small amount of energy for a long time, such as operating a cellphone, while others must provide larger amounts of energy for a shorter period, such as in a power tool. Li-ion battery chemistry can also be tailored to maximize the battery&#;s charging cycles or to allow it to operate in extreme heat or cold. In addition, technological innovation also leads to new chemistries of batteries being used over time. Batteries commonly contain materials such as lithium, cobalt, nickel, manganese, and titanium, as well as graphite and a flammable electrolyte. However, there is always on-going research into developing Li-ion batteries that are less hazardous or that meet the requirements for new applications.    

What materials do specialized battery recyclers recover from Li-ion batteries?

Today, Li-ion batteries are made from minerals such as lithium, cobalt, nickel and manganese. Currently, cobalt, manganese and nickel are often recovered. Lithium may also be recovered, but it often must be further processed for it to be used again.

What are the storage requirements when not using Li-ion batteries?

It is best to store Li-ion batteries at room temperature. There is no need to place them in the refrigerator. Avoid long periods of extreme cold or hot temperatures (e.g., dashboard of car in direct sunlight). Long periods of exposure to these temperatures can result in battery damage.

My computer has a battery that has swelled&#;what should I do with it?

Sometimes, the battery inside a product will become swollen. The swelling indicates damage to the battery and is a potential fire hazard. Assess your situation and if there appears to be no imminent threat of fire, contact the manufacturer of the product, the retailer where it was purchased, or (depending on if you are a business or a household) your state waste management agency or your local household hazardous waste program for direction on proper management. Store the battery or device in a safe location until the proper disposal option is identified. This could be in a bucket full of a fire suppressant such as sand or kitty litter or in another location away from flammable materials. If you think you have an imminent risk of fire, you may need to call 911.

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