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Bioorthogonal Chemistry of Polyoxometalates – Challenges and Prospects. / Грачева, Елена Валерьевна; Петровский, Станислав Константинович; Монахов, Кирилл.

In: Chemical Science, Vol. 15, No. 12, 20.03.2024, p. 4202-4221.

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@article{7c94a25ee3e2457b90d4402d3cf8ff06,
title = "Bioorthogonal Chemistry of Polyoxometalates – Challenges and Prospects",
abstract = "Bioorthogonal chemistry has enabled scientists to carry out controlled chemical processes in high yields in vivo while minimizing hazardous effects. Its extension to the field of polyoxometalates (POMs) could open up new possibilities and new applications in molecular electronics, sensing and catalysis, including inside living cells. However, this comes with many challenges that need to be addressed to effectively implement and exploit bioorthogonal reactions in the chemistry of POMs. In particular, how to protect POMs from the biological environment but make their reactivity selective towards specific bioorthogonal tags (and thereby reduce their toxicity), as well as which bioorthogonal chemistry protocols are suitable for POMs and how reactions can be carried out are questions that we are exploring herein. This perspective conceptualizes and discusses advances in the supramolecular chemistry of POMs, their click chemistry, and POM-based surface engineering to develop innovative bioorthogonal approaches tailored to POMs and to improve POM biological tolerance. ",
author = "Грачева, {Елена Валерьевна} and Петровский, {Станислав Константинович} and Кирилл Монахов",
year = "2024",
month = mar,
day = "20",
doi = "10.1039/D3SC06284H",
language = "English",
volume = "15",
pages = "4202--4221",
journal = "Chemical Science",
issn = "2041-6520",
publisher = "Royal Society of Chemistry",
number = "12",

}

RIS

TY - JOUR

T1 - Bioorthogonal Chemistry of Polyoxometalates – Challenges and Prospects

AU - Грачева, Елена Валерьевна

AU - Петровский, Станислав Константинович

AU - Монахов, Кирилл

PY - 2024/3/20

Y1 - 2024/3/20

N2 - Bioorthogonal chemistry has enabled scientists to carry out controlled chemical processes in high yields in vivo while minimizing hazardous effects. Its extension to the field of polyoxometalates (POMs) could open up new possibilities and new applications in molecular electronics, sensing and catalysis, including inside living cells. However, this comes with many challenges that need to be addressed to effectively implement and exploit bioorthogonal reactions in the chemistry of POMs. In particular, how to protect POMs from the biological environment but make their reactivity selective towards specific bioorthogonal tags (and thereby reduce their toxicity), as well as which bioorthogonal chemistry protocols are suitable for POMs and how reactions can be carried out are questions that we are exploring herein. This perspective conceptualizes and discusses advances in the supramolecular chemistry of POMs, their click chemistry, and POM-based surface engineering to develop innovative bioorthogonal approaches tailored to POMs and to improve POM biological tolerance.

AB - Bioorthogonal chemistry has enabled scientists to carry out controlled chemical processes in high yields in vivo while minimizing hazardous effects. Its extension to the field of polyoxometalates (POMs) could open up new possibilities and new applications in molecular electronics, sensing and catalysis, including inside living cells. However, this comes with many challenges that need to be addressed to effectively implement and exploit bioorthogonal reactions in the chemistry of POMs. In particular, how to protect POMs from the biological environment but make their reactivity selective towards specific bioorthogonal tags (and thereby reduce their toxicity), as well as which bioorthogonal chemistry protocols are suitable for POMs and how reactions can be carried out are questions that we are exploring herein. This perspective conceptualizes and discusses advances in the supramolecular chemistry of POMs, their click chemistry, and POM-based surface engineering to develop innovative bioorthogonal approaches tailored to POMs and to improve POM biological tolerance.

UR - https://xlink.rsc.org/?DOI=D3SC06284H

UR - https://www.mendeley.com/catalogue/e81082d1-341d-30aa-853a-8773eebee88e/

U2 - 10.1039/D3SC06284H

DO - 10.1039/D3SC06284H

M3 - Review article

C2 - 38516091

VL - 15

SP - 4202

EP - 4221

JO - Chemical Science

JF - Chemical Science

SN - 2041-6520

IS - 12

ER -

ID: 117160627