(import from https://osl-sandbox.big-map.eu/wiki/Category:OSW424bf7507df549b5ba73ba74397a166b?veaction=editsource) Tag: 2017 source edit |
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"uuid": "424bf750-7df5-49b5-ba73-ba74397a166b", | "uuid": "424bf750-7df5-49b5-ba73-ba74397a166b", | ||
"iri": " | "iri": "https://w3id.org/emmo/domain/electrochemistry#electrochemistry_424bf750_7df5_49b5_ba73_ba74397a166b", | ||
"name": "ZincElectrode", | "name": "ZincElectrode", | ||
"label": [ | "label": [ | ||
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"title": "OSW424bf7507df549b5ba73ba74397a166b", | "title": "OSW424bf7507df549b5ba73ba74397a166b", | ||
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"restrictions": [ | "restrictions": [ | ||
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Latest revision as of 06:18, 1 March 2025
| ZincElectrode | |
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| ID | OSW424bf7507df549b5ba73ba74397a166b |
| UUID | 424bf750-7df5-49b5-ba73-ba74397a166b |
| Label | ZincElectrode |
| Machine compatible name | ZincElectrode |
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| Statements (incoming) | |
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Description
an electrode in which the main active material is zinc metal
| Category (Class) |
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| OWL Class | |
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| Imported fromA prefixed IRI defining this entry as a imported term. In OSW the prefix must be a registered imported ontology.<br>Definition: OWL Class | https://w3id.org/emmo/domain/electrochemistry#electrochemistry 424bf750 7df5 49b5 ba73 ba74397a166b |
| RelationsRelations of this class to other classes, instances or literals (OWL Restrictions)<br>Definition: OWL Class |
hasActiveMaterial Zinc |
| EmmoClass | |
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| Supercategories<br>Definition: Category (Class), OWL Class, EmmoClass | |
| metaclass<br>Definition: Category (Class), EmmoClass |
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Zinc electrodes are electrochemical components used in various battery technologies, electroplating, and corrosion protection systems. Due to its high electrochemical activity, low cost, and environmental compatibility, zinc is widely utilized in primary and secondary batteries, as well as in sacrificial anodes for corrosion prevention.
Electrochemical Properties
Zinc is a relatively reactive metal with a standard electrode potential of −0.76 V vs. SHE (Standard Hydrogen Electrode). It readily oxidizes to form zinc ions (Zn²⁺), making it an effective anode material in galvanic cells. The redox reaction of zinc in aqueous electrolytes is:
This high electrochemical activity allows zinc to function efficiently in electrochemical applications, particularly in alkaline, acidic, and neutral aqueous electrolytes.
Applications
Batteries
Zinc electrodes are extensively used in both primary (non-rechargeable) and secondary (rechargeable) batteries:
- Zinc-carbon batteries : The earliest commercial dry cells use a zinc anode with a ManganeseDioxide (MnO₂) cathode and an acidic electrolyte (ammonium chloride or zinc chloride).
- Alkaline batteries : Employ a zinc powder anode with a potassium hydroxide (KOH) electrolyte, offering improved energy density and shelf life over zinc-carbon cells.
- ZincAirBattery: Utilize atmospheric oxygen as the cathode reactant, making them lightweight and energy-dense. These are used in hearing aids and other low-power applications.
- Zinc-ion batteries: A developing rechargeable battery technology that uses a zinc metal anode and intercalating cathodes, offering a safer and more sustainable alternative to lithium-ion batteries.
Electroplating
Zinc electrodes are used in Electroplating processes to provide a protective coating on steel and other metals. This zinc coating (Galvanizing) prevents corrosion by acting as a sacrificial anode, corroding preferentially to the underlying metal.
Sacrificial Anodes
Zinc electrodes serve as sacrificial anodes in corrosion protection systems for:
- Ships and marine structures (e.g., hulls, propellers, offshore platforms)
- Pipelines and underground tanks
- Water heaters and cooling systems
In these applications, zinc prevents corrosion by preferentially oxidizing instead of the protected metal.
Electrowinning and Electrorefining
Zinc electrodes are used in the electrochemical extraction (electrowinning) and purification (electrorefining) of zinc from ores and recycled materials.
Advantages and Challenges
Advantages
- Abundant and inexpensive: Zinc is widely available and low-cost.
- High energy density: Compared to other metal electrodes, zinc provides a high theoretical capacity.
- Environmental safety: Unlike lead or cadmium, zinc is less toxic and more environmentally friendly.
- Rechargeability potential: Emerging zinc-based rechargeable batteries offer promising alternatives to lithium-ion.
Challenges
- Dendrite formation: During repeated charging, zinc metal can form Dendrites, leading to short circuits in rechargeable zinc batteries.
- Corrosion in aqueous systems: Zinc readily reacts with water, leading to self-discharge and inefficiency in certain battery chemistries.
- Limited cycle life in rechargeable systems: Rechargeable zinc batteries suffer from capacity degradation over time due to zinc shape change and side reactions.
Recent Developments
Research in zinc-based batteries focuses on:
- Dendrite suppression techniques, such as electrolyte additives and solid-state electrolytes.
- Alternative zinc cathodes for high-performance rechargeable batteries.
- Hybrid zinc-ion chemistries that improve lifespan and efficiency.
See Also
References
jsondata
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| name | "ZincElectrode" | |||||||||||
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