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Related Concept Videos

Electrochemical Systems01:24

Electrochemical Systems

Electrochemical systems provide a fascinating insight into the dynamic interplay of charged species within various phases. One notable example is the interaction between a membrane permeable to K⁺ ions but not to Cl⁻ ions, separating an aqueous KCl solution from pure water. As K⁺ ions diffuse through the membrane, they generate net charges on each phase, leading to a potential difference between them.Similarly, when a piece of Zn is immersed in an aqueous ZnSO₄ solution, the Zn metal, composed...
Electrochemical Cells01:28

Electrochemical Cells

Electrochemical cells are systems that convert chemical energy into electrical energy or use electrical energy to drive chemical reactions. They consist of two electrodes in contact with an electrolyte, where redox reactions enable electron transfer. Most electrochemical cells include two half-cells connected by an external wire for electron flow and a salt bridge for ion flow. The salt bridge contains an electrolyte solution and maintains charge neutrality by allowing ions—not electrons—to...
Controlled-Potential Coulometry: Electrolytic Methods01:17

Controlled-Potential Coulometry: Electrolytic Methods

Controlled-potential coulometry, also known as potentiostatic coulometry, employs a three-electrode system in which the working electrode's potential is precisely regulated using a potentiostat. Platinum working electrodes are utilized for positive potentials, while mercury pool electrodes are favored for extremely negative potentials. The platinum counter electrode is separated from the analyte using a membrane or salt bridge to avoid interference in the analysis.
The chosen potential ensures...

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Related Experiment Video

Updated: Jun 6, 2026

Rapid in-silico Battery Electrolyte Electrochemical Reaction Generation using 3T-VASP Multi-Scale Energy Minimization
05:37

Rapid in-silico Battery Electrolyte Electrochemical Reaction Generation using 3T-VASP Multi-Scale Energy Minimization

Published on: August 22, 2025

Risk-sensitive collaborative parameter tuning via calibrated deep surrogates for rare-earth electrolysis energy

Yu Liu1,2, Jun Peng3, Fan Yang4

  • 1College of Rare Earth Industry, Inner Mongolia University of Science and Technology, Baotou, 014010, Inner Mongolia, China.

Scientific Reports
|June 4, 2026
PubMed
Summary
This summary is machine-generated.

This study introduces a risk-sensitive framework for rare-earth electrolysis, improving energy efficiency safely. It uses advanced modeling to reduce constraint violations and optimize operations effectively.

Keywords:
Bayesian optimizationDeep ensemble surrogateEnergy efficiency optimizationRare-earth molten salt electrolysisUncertainty quantification

Related Experiment Videos

Last Updated: Jun 6, 2026

Rapid in-silico Battery Electrolyte Electrochemical Reaction Generation using 3T-VASP Multi-Scale Energy Minimization
05:37

Rapid in-silico Battery Electrolyte Electrochemical Reaction Generation using 3T-VASP Multi-Scale Energy Minimization

Published on: August 22, 2025

Area of Science:

  • Chemical Engineering
  • Process Optimization
  • Data Science

Background:

  • Rare-earth molten salt electrolysis faces challenges in energy efficiency due to process nonlinearity and operational constraints.
  • Existing data-driven methods often ignore predictive uncertainty, leading to risks of constraint violations.

Purpose of the Study:

  • To develop a risk-sensitive framework for collaborative parameter tuning in rare-earth electrolysis.
  • To enhance energy efficiency while ensuring operational safety and minimizing constraint violations.

Main Methods:

  • Utilizing calibrated deep surrogate modeling for predicting energy efficiency and quantifying uncertainty.
  • Employing uncertainty-aware constrained Bayesian optimization for risk-sensitive parameter tuning.
  • Implementing a deep ensemble surrogate with a calibration procedure for reliable uncertainty estimation.

Main Results:

  • The proposed framework demonstrated faster convergence compared to uncertainty-agnostic methods.
  • Achieved higher energy-efficiency improvements in rare-earth electrolysis.
  • Significantly reduced the probability of constraint violations during operation.

Conclusions:

  • The risk-sensitive framework effectively balances energy efficiency and operational safety in rare-earth electrolysis.
  • Calibrated deep surrogate modeling and uncertainty-aware optimization are crucial for reliable process tuning.
  • The approach offers a robust solution for complex industrial processes with strict constraints.