CHAPTER 3: Evolution of Cell-penetrating Phosphorescent O2 Probes

Dmitri B. Papkovsky; Ruslan I. Dmitriev

doi:10.1039/9781788013451-00050

CHAPTER 3: Evolution of Cell-penetrating Phosphorescent O₂ Probes

Dmitri B. Papkovsky
, Ruslan I. Dmitriev

School of Biochemistry and Cell Biology

University College Cork

Research output: Chapter in Book/Report/Conference proceedings › Chapter › peer-review

Abstract

Advances in materials science, chemistry, sensor design, bioconjugation and nanotechnology helped to develop a new class of phosphorescent cell-penetrating O₂-sensitive materials, enabling non-invasive sensing of intracellular O₂ and its gradients in live cells. Cell-penetrating O₂ probes compatible with live cell and tissue imaging are available to solve many biomedical problems and complement disease-oriented tissue models. Here, we critically review the evolution of research on cell-penetrating O₂ probes and provide their classification based on the chemical structures and material design, highlighting their biomedical applications.

Original language	English
Title of host publication	Quenched-phosphorescence Detection of Molecular Oxygen
Subtitle of host publication	Applications in Life Sciences
Editors	Dmitri B. Papkovsky, Ruslan I. Dmitriev
Publisher	Royal Society of Chemistry
Pages	50-70
Number of pages	21
Edition	11
ISBN (Electronic)	9781788011754
DOIs	https://doi.org/10.1039/9781788013451-00050
Publication status	Published - 2018

Publication series

Name	RSC Detection Science
Number	11
Volume	2018-January
ISSN (Print)	2052-3068
ISSN (Electronic)	2052-3076

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10.1039/9781788013451-00050

Cite this

Papkovsky, D. B., & Dmitriev, R. I. (2018). CHAPTER 3: Evolution of Cell-penetrating Phosphorescent O₂ Probes. In D. B. Papkovsky, & R. I. Dmitriev (Eds.), Quenched-phosphorescence Detection of Molecular Oxygen: Applications in Life Sciences (11 ed., pp. 50-70). (RSC Detection Science; Vol. 2018-January, No. 11). Royal Society of Chemistry. https://doi.org/10.1039/9781788013451-00050

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abstract = "Advances in materials science, chemistry, sensor design, bioconjugation and nanotechnology helped to develop a new class of phosphorescent cell-penetrating O2-sensitive materials, enabling non-invasive sensing of intracellular O2 and its gradients in live cells. Cell-penetrating O2 probes compatible with live cell and tissue imaging are available to solve many biomedical problems and complement disease-oriented tissue models. Here, we critically review the evolution of research on cell-penetrating O2 probes and provide their classification based on the chemical structures and material design, highlighting their biomedical applications.",

author = "Papkovsky, \{Dmitri B.\} and Dmitriev, \{Ruslan I.\}",

note = "Publisher Copyright: {\textcopyright} The Royal Society of Chemistry 2018.",

year = "2018",

doi = "10.1039/9781788013451-00050",

language = "English",

series = "RSC Detection Science",

publisher = "Royal Society of Chemistry",

number = "11",

pages = "50--70",

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booktitle = "Quenched-phosphorescence Detection of Molecular Oxygen",

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CHAPTER 3: Evolution of Cell-penetrating Phosphorescent O₂ Probes. / Papkovsky, Dmitri B.; Dmitriev, Ruslan I.
Quenched-phosphorescence Detection of Molecular Oxygen: Applications in Life Sciences. ed. / Dmitri B. Papkovsky; Ruslan I. Dmitriev. 11. ed. Royal Society of Chemistry, 2018. p. 50-70 (RSC Detection Science; Vol. 2018-January, No. 11).

Research output: Chapter in Book/Report/Conference proceedings › Chapter › peer-review

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AB - Advances in materials science, chemistry, sensor design, bioconjugation and nanotechnology helped to develop a new class of phosphorescent cell-penetrating O2-sensitive materials, enabling non-invasive sensing of intracellular O2 and its gradients in live cells. Cell-penetrating O2 probes compatible with live cell and tissue imaging are available to solve many biomedical problems and complement disease-oriented tissue models. Here, we critically review the evolution of research on cell-penetrating O2 probes and provide their classification based on the chemical structures and material design, highlighting their biomedical applications.

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CHAPTER 3: Evolution of Cell-penetrating Phosphorescent O₂ Probes

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