Xena L. Soto scite author profile

Xena L. Soto

2Publications

6Citation Statements Received

43Citation Statements Given

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City University of New York, Binghamton University, Lehman College

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Using Lifetime and Quenching Rate Constant to Determine Optimal Quencher Concentration

Soto

Swierk

2022

ACS Omega

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Excited state quenching is a key step in photochemical reactions that involve energy or electron transfer. High reaction quantum yields require sufficiently high concentrations of a quencher to ensure efficient quenching. The determination of quencher concentrations is typically done through trial and error. Using kinetic modeling, however, a simple relationship was developed that predicts the concentration of quencher necessary to quench 90% of excited states, using only the photosensitizer lifetime and the rate constant for quenching as inputs. Comparison of the predicted quencher concentrations and quencher concentrations used in photoredox reactions featuring acridinium-based photocatalysts reveals that the majority of reactions used quencher concentrations significantly below the predicted concentration. This suggests that these reactions exhibit low quantum yields, requiring long reaction times and/or intense light sources.

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Using Lifetime and Quenching Rate Constant to Determine Quencher Concentration

Soto

Swierk

2022

Preprint

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Excited state quenching is a key step in photochemical reactions that involve energy or electron transfer. High reaction quantum yields require sufficiently high concentrations of quencher to ensure efficient quenching. Determination of quencher concentrations is typically done through trial and error. Using kinetic modeling, however, a simple relationship was developed that predicts the concentration of quencher necessary to quench 90% of excited states, using only the photosensitizer lifetime and the rate constant for quenching as inputs. Comparison of predicted quencher concentrations and quencher concentrations used in photoredox reactions featuring acridinium-based photocatalysts reveals that the majority of reactions used quencher concentrations significantly below the predicted concentration. This suggests these reactions exhibit low quantum yields, requiring long reaction times and/or intense light sources.

show abstract

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Xena L. Soto

Using Lifetime and Quenching Rate Constant to Determine Optimal Quencher Concentration

Using Lifetime and Quenching Rate Constant to Determine Quencher Concentration

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