Difference between Electrolytic and electrochemical cell

<<2/”>a href=”https://exam.pscnotes.com/5653-2/”>p>electrolytic and electrochemical cells, combining the requested information into a clear, informative format:

Introduction

Electrochemical cells are the cornerstone of many modern technologies, from batteries powering our devices to industrial processes refining metals. Understanding the distinction between electrolytic and electrochemical cells is crucial in appreciating their diverse applications and the principles governing their operation.

Key Differences: Electrolytic vs. Electrochemical Cells

FeatureElectrolytic CellElectrochemical Cell (Galvanic/Voltaic)
Energy ConversionConverts electrical energy into chemical energy (non-spontaneous reaction).Converts chemical energy into electrical energy (spontaneous reaction).
Reaction TypeDrives a non-spontaneous redox reaction.Facilitates a spontaneous redox reaction.
External Power SourceRequires an external power source (e.g., battery or DC supply) to initiate and sustain the reaction.Does not require an external power source.
Electrode PolarityAnode is positive, cathode is negative.Anode is negative, cathode is positive.
Ion FlowCations move towards the cathode, anions move towards the anode (driven by the external power source).Cations move towards the cathode, anions move towards the anode (driven by the spontaneous reaction).
ApplicationsElectroplating, electrolysis (e.g., water electrolysis, Metal extraction/refining), electrorefining, recharging batteries.Batteries (primary and secondary), Fuel Cells, sensors, corrosion studies.

Advantages and Disadvantages

Cell TypeAdvantagesDisadvantages
ElectrolyticEnables production of useful chemicals and materials, can drive non-spontaneous reactions, used for purification.Requires an external energy source, can be energy-intensive, potential for unwanted side reactions.
ElectrochemicalGenerates electricity directly from chemical reactions, high energy conversion efficiency (in fuel cells), portable.Limited lifespan (in primary batteries), potential for electrolyte leakage, can be expensive (especially fuel cells).

Similarities

  • Both involve redox (reduction-oxidation) reactions.
  • Both have an anode and cathode where oxidation and reduction take place, respectively.
  • Both utilize an electrolyte solution for ion conduction.

FAQs

  1. Is an electrolytic cell a type of electrochemical cell? Yes, it’s a specific type where an external power source drives a non-spontaneous reaction.
  2. What is the role of the electrolyte? The electrolyte allows the movement of ions, completing the electrical circuit and facilitating the redox reaction.
  3. Can an electrochemical cell be recharged? Yes, secondary batteries (e.g., lithium-ion) are rechargeable electrochemical cells.
  4. What are the safety concerns associated with electrolytic cells? Potential for the production of hazardous gases (e.g., hydrogen in water electrolysis) and the need to handle corrosive electrolytes.

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