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[HTML][HTML] Hole-mediated photoredox catalysis: tris (p-substituted) biarylaminium radical cations as tunable, precomplexing and potent photooxidants

S Wu, J Žurauskas, M Domański, PS Hitzfeld… - Organic Chemistry …, 2021 - pubs.rsc.org
As a combination of visible light photoredox catalysis and synthetic organic electrochemistry,
electrochemically-mediated photoredox catalysis emerged as a powerful synthetic …
被引用次数:96 相关文章

Hole-mediated photoredox catalysis: tris (p-substituted) biarylaminium radical cations as tunable, precomplexing and potent photooxidants

S Wu, J Žurauskas, M Domański… - Organic Chemistry …, 2021 - epub.uni-regensburg.de
As a combination of visible light photoredox catalysis and synthetic organic electrochemistry,
electrochemically-mediated photoredox catalysis emerged as a powerful synthetic …
[PDF] semanticscholar.org

[PDF][PDF] Hole-mediated photoredox catalysis: tris (p-substituted) biarylaminium radical cations as tunable, precomplexing and potent photooxidants

S Wu, J Žurauskas, M Domański, PS Hitzfeld, V Butera… - pdfs.semanticscholar.org
As a combination of visible light photoredox catalysis and synthetic organic electrochemistry,
electrochemically-mediated photoredox catalysis emerged as a powerful synthetic …

Hole-mediated photoredox catalysis: tris(p-substituted)biarylaminium radical cations as tunable, precomplexing and potent photooxidants

S Wu, J Žurauskas, M Domański, PS Hitzfeld… - Organic Chemistry …, 2021 - cir.nii.ac.jp
抄録< p> Triarylamines are demonstrated as novel, tunable electroactivated photocatalysts
that use dispersion precomplexation to harness the full potential of the visible photon (> 4.0 …

Hole-mediated photoredox catalysis: tris (p-substituted) biarylaminium radical cations as tunable, precomplexing and potent photooxidants

S Wu, J Žurauskas, M Domański, PS Hitzfeld… - Organic Chemistry …, 2021 - Elsevier
As a combination of visible light photoredox catalysis and synthetic organic electrochemistry,
electrochemically-mediated photoredox catalysis emerged as a powerful synthetic …

Hole-mediated photoredox catalysis: tris (p-substituted) biarylaminium radical cations as tunable, precomplexing and potent photooxidants

S Wu, J Žurauskas, M Domański… - Organic Chemistry …, 2021 - researchportal.bath.ac.uk
As a combination of visible light photoredox catalysis and synthetic organic electrochemistry,
electrochemically-mediated photoredox catalysis emerged as a powerful synthetic …
[PDF] unipa.it

[PDF][PDF] Hole-mediated photoredox catalysis: tris (p-substituted) biarylaminium radical cations as tunable, precomplexing and potent photooxidants

S Wu, J Žurauskas, M Domański, PS Hitzfeld, V Butera… - iris.unipa.it
As a combination of visible light photoredox catalysis and synthetic organic electrochemistry,
electrochemically-mediated photoredox catalysis emerged as a powerful synthetic …

Hole-Mediated PhotoRedox Catalysis: Tris (p-Substituted) biarylaminium Radical Cations as Tunable, Precomplexing and Potent Photooxidants

S Wu, J Zurauskas, M Domanski, P Hitzfeld, V Butera… - 2020 - europepmc.org
Electrochemically-mediated Photoredox Catalysis emerged as a powerful synthetic
technique in recent years, overcoming fundamental limitations of electrochemistry and …
[PDF] archive.org

[PDF][PDF] Hole-Mediated PhotoRedox Catalysis: Tris (p-Substituted) biarylaminium Radical Cations as Tunable, Precomplexing and Potent Photooxidants

S Wu, J Zurauskas, M Domanski, P Hitzfeld, V Butera… - scholar.archive.org
Electrochemically-mediated Photoredox Catalysis emerged as a powerful synthetic
technique in recent years, overcoming fundamental limitations of electrochemistry and …

Hole-Mediated PhotoRedox Catalysis: Tris (p-Substituted) biarylaminium Radical Cations as Tunable, Precomplexing and Potent Photooxidants

S Wu, J Zurauskas, M Domanski, P Hitzfeld, V Butera… - 2020 - chemrxiv.org
Electrochemically-mediated Photoredox Catalysis emerged as a powerful synthetic
technique in recent years, overcoming fundamental limitations of electrochemistry and …