Lithium vs. Lithium Ion Batteries

Lithium vs. Lithium Ion Batteries
••• PaulFleet/iStock/GettyImages

Lithium and lithium ion batteries, or cells, provide portable electricity. They both work by storing electric charges chemically; when you connect their electrodes with a wire, the charges flow from the battery's cathode to its anode, producing an electrical current. Each type has benefits and drawbacks.

TL;DR (Too Long; Didn't Read)

Lithium-ion batteries are rechargeable; lithium batteries are not.

Cell Type

The main difference between lithium and lithium ion batteries is that lithium batteries are a primary cell and lithium ion batteries are secondary cells. The term "primary cell" refers to cells that are not rechargeable. By contrast, secondary cell batteries are rechargeable.

Comparing Lithium and Lithium-Ion

Lithium batteries are not easily and safely rechargeable; this problem led to the invention of lithium ion batteries. They can be charged several times before becoming ineffective. Lithium batteries however are not rechargeable, but do offer more in the way of capacity than lithium ion batteries. They have a higher energy density than lithium ion batteries. Lithium batteries use lithium metal as their anode unlike lithium ion batteries that use a number of other materials to form their anode. Lithium ion batteries are disadvantaged in that their shelf life is about three years, after that, they are worthless.

How They Work

In both types, electrical currents occur because of a chemical reaction that takes place inside the battery. The anode in a cell moves electrons to the cathode which is located at the opposite end of the cell. The electrolyte that separates the cathode from the anode both stores electrical energy and serves as an electrical conductor, allowing electricity to flow through the battery and power a circuit or appliance.

History of Lithium-Based Batteries

Chemists worked on the idea for the lithium battery in 1912, though it wasn't until the 1970s that the the first examples became available to consumers, and these batteries were not rechargeable. The chemical instability of lithium metal made rechargeable lithium batteries too difficult to develop. In 1991, scientists used more stable lithium compounds to create a battery. This lithium ion battery was rechargeable and lighter in weight than other rechargeable battery technologies available at the time.

Lithium and Lithium-Ion Battery Uses

Both types of batteries offer a lot of power for their size. They can be used in any number of devices from flashlights to compact disc players. Lithium ion batteries can be formed into many shapes which makes them ideal for items such as laptop computers, iPods and cell phones. Their rechargeability makes them ideal power sources in consumer electronics. Lithium batteries are the battery of choice when it comes to powering artificial pacemakers because of their long life and the amount of energy they offer. Lithium batteries work well as long-term power sources in devices that are out of reach, such as smoke detectors and computer motherboards.

Related Articles

Parts of a Battery
How Do Batteries Work? Parts, Types & Terminology (w/...
What Are Some Possible Materials You Could Use to Make...
Difference Between Lithium & Alkaline Batteries
Lithium Ion Batteries Vs. NiCad Batteries
Lithium vs. Titanium Batteries
What Is the Voltage of AA Battery?
Watt Hour Vs. Amp Hour
What Do Batteries Do to the Environment If Not Properly...
Why Not Mix Two Types of AA Batteries?
How to Convert Reserve Capacity to Amp Hours
How to Make an Electrode
Wet Cell Battery Vs. Dry Cell Battery
Can Nimh Chargers Be Used on Lithium Ion Batteries?
How to Wire a Battery in Series
How to Test Lithium Ion Batteries
How to Calculate How Long a Battery Will Last
Why Do Batteries Go Flat?
Hooking Up a 45-Watt Solar Panel Battery

Dont Go!

We Have More Great Sciencing Articles!