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Updated: Feb 5, 2026

Conventional BODIPY Conjugates for Live-Cell Super-Resolution Microscopy and Single-Molecule Tracking
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Correction: A bodipy based hydroxylamine sensor.

Adam C Sedgwick1, Robert S L Chapman, Jordan E Gardiner

  • 1Department of Chemistry, University of Bath, Bath, BA2 7AY, UK. t.d.james@bath.ac.uk.

Chemical Communications (Cambridge, England)
|September 18, 2018
PubMed
Summary
This summary is machine-generated.

This correction clarifies details regarding a novel boron-dipyrromethene (bodipy) based sensor designed for detecting hydroxylamine. The sensor offers a sensitive and selective method for hydroxylamine analysis.

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Area of Science:

  • Analytical Chemistry
  • Chemical Sensing
  • Fluorescence Spectroscopy

Background:

  • Hydroxylamine is a reactive species with significant implications in biological and industrial processes.
  • Accurate detection of hydroxylamine is crucial for various applications, including environmental monitoring and biochemical assays.
  • Existing sensor technologies may lack the required sensitivity, selectivity, or ease of use.

Purpose of the Study:

  • To correct and provide accurate details for a previously published boron-dipyrromethene (bodipy) based sensor for hydroxylamine detection.
  • To ensure the reliable application and interpretation of results obtained using this specific hydroxylamine sensor.
  • To maintain the integrity and reproducibility of scientific findings in chemical sensing.

Main Methods:

  • The correction pertains to a boron-dipyrromethene (bodipy) derivative synthesized for hydroxylamine sensing.
  • Spectroscopic techniques were employed to characterize the sensor's response to hydroxylamine.
  • The study involved fluorescence spectroscopy to monitor changes upon interaction with hydroxylamine.

Main Results:

  • The correction addresses specific experimental parameters or data interpretations related to the sensor's performance.
  • Accurate quantification of hydroxylamine using the bodipy sensor is essential.
  • The sensor exhibits fluorescence modulation in the presence of hydroxylamine.

Conclusions:

  • The corrected information ensures the accurate use and understanding of the bodipy-based hydroxylamine sensor.
  • This sensor provides a valuable tool for sensitive and selective hydroxylamine detection.
  • The findings contribute to the advancement of chemical sensing methodologies.