Cathode

Copper cathode 2

4-1000A linear RF deck build by K5LAD

Triode schematic labeled

Neon lamp on DC

Diode symbol

Cathode is an electrode through which electric current flows out of a polarized electrical device. The direction of electric current is, by convention, opposite to the direction of electron flow. Therefore, the cathode is negatively charged in a galvanic cell, but positively charged in an electrolytic cell. The cathode's counterpart is the anode, through which electric current enters an electrical device. The function of the cathode varies between different types of electrochemical cells, and understanding the role of the cathode is crucial in fields such as electrochemistry, electronics, and materials science.

Function and Types[edit | edit source]

In a galvanic or voltaic cell, which is a type of battery, the cathode is the electrode where reduction (gain of electrons) occurs, releasing energy. This is in contrast to the anode, where oxidation (loss of electrons) takes place. The cathode attracts cations (positive ions) because it is negatively charged, facilitating reactions that convert these ions into neutral substances.

In an electrolytic cell, used for electroplating or the production of chemicals like chlorine and sodium hydroxide, the cathode is positive because the cell is supplied with electrical energy from an external source. This causes attraction of anions (negative ions), leading to reduction reactions that often result in the deposition of material on the cathode or the production of new chemical substances.

Materials[edit | edit source]

The material of the cathode can vary based on its application. In batteries, cathodes are often made from materials like lithium cobalt oxide or nickel-cadmium, chosen for their ability to facilitate the electrochemical reactions efficiently. In electrolytic processes, cathodes may be made from inert materials like graphite or platinum to withstand the corrosive environment and to minimize unwanted reactions.

Applications[edit | edit source]

Cathodes are integral to the operation of a wide range of devices beyond batteries and electrolytic cells. They are crucial in the functioning of LEDs, cathode ray tubes (CRTs) used in older television and computer monitors, X-ray tubes, and vacuum tubes. In each of these applications, the cathode plays a role in emitting or controlling the flow of electrons or ions to achieve the desired functionality, whether it be generating light, images, or X-rays.

Environmental and Safety Considerations[edit | edit source]

The materials used in cathodes, especially in batteries, can have significant environmental and safety implications. For example, the extraction of lithium, cobalt, and nickel has raised concerns regarding ecological damage, human rights abuses, and the sustainability of supply chains. Additionally, the disposal of batteries and electronic devices poses challenges for waste management and recycling efforts, highlighting the need for advancements in cathode material sustainability and recycling technologies.

Future Directions[edit | edit source]

Research in cathode technology focuses on finding materials that offer higher energy density, longer life, and lower environmental impact. This includes exploring alternatives to cobalt and nickel in lithium-ion batteries, such as lithium iron phosphate (LFP) and developing new types of batteries like solid-state batteries that promise improved safety and performance. Advances in cathode materials and design are critical for the future of energy storage, electronics, and electric vehicles, driving innovation in a wide array of technologies.

Cathode Resources
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