A dithiaporphyrin building block with an N<sub>2</sub>S<sub>2</sub> core is synthesized and coupled with porphyrin building blocks with N<sub>4</sub> cores to obtain an unsymmetrical pentamer. Steady-state fluorescence spectra indicated that there is an efficient energy transfer from an excited N<sub>4</sub> porphyrin unit to an N<sub>2</sub>S<sub>2</sub> porphyrin unit
A series of 21-thia and 21-oxaporphyrin building blocks bearing iodo-, ethynyl-and aldehyde function...
We adopted simple synthetic strategy to synthesize mono-functionalized thiasapphyrins containing fun...
Non-covalent porphyrin dyads and triads containing N3S porphyrin and RuN4 porphyrin subunits were sy...
A dithiaporphyrin building block with an N2S2 core is synthesized and coupled with porphyrin buildin...
Cis-21,23-dithiaporphyrin building block containing one iodophenyl and one pyridyl functional group ...
The synthesis of the first alkynyl core-modified porphyrin building block, 5,10,15,20-tetrakis(4-eth...
The synthesis of the first alkynyl core-modified porphyrin building block, 5,10,15,20-tetrakis(4-eth...
The synthesis and photophysical properties of four covalently linked unsymmetrical porphyrin dyads c...
Three porphyrin building blocks with N<sub>4</sub>, N<sub>3</sub>S and N<sub>2</sub>S<sub>2</sub> co...
The synthesis and photophysical properties of four covalently linked unsymmetrical porphyrin dyads c...
The synthesis of a porphyrin star-pentamer bearing a free-base porphyrin core and four zinc(II) meta...
Non-covalent porphyrin dyads and triads containing N<sub>3</sub>S porphyrin and RuN<sub>4</sub> porp...
21-Thiaporphyrins and 21,23-dithiaporphyrins resulting from the replacement of one and two pyrrole r...
A series of 21-thia and 21-oxaporphyrin building blocks bearing iodo-, ethynyl-and aldehyde function...
Core-modified porphyrins, resulting from the replacement of one or two pyrrolic nitrogens with other...
A series of 21-thia and 21-oxaporphyrin building blocks bearing iodo-, ethynyl-and aldehyde function...
We adopted simple synthetic strategy to synthesize mono-functionalized thiasapphyrins containing fun...
Non-covalent porphyrin dyads and triads containing N3S porphyrin and RuN4 porphyrin subunits were sy...
A dithiaporphyrin building block with an N2S2 core is synthesized and coupled with porphyrin buildin...
Cis-21,23-dithiaporphyrin building block containing one iodophenyl and one pyridyl functional group ...
The synthesis of the first alkynyl core-modified porphyrin building block, 5,10,15,20-tetrakis(4-eth...
The synthesis of the first alkynyl core-modified porphyrin building block, 5,10,15,20-tetrakis(4-eth...
The synthesis and photophysical properties of four covalently linked unsymmetrical porphyrin dyads c...
Three porphyrin building blocks with N<sub>4</sub>, N<sub>3</sub>S and N<sub>2</sub>S<sub>2</sub> co...
The synthesis and photophysical properties of four covalently linked unsymmetrical porphyrin dyads c...
The synthesis of a porphyrin star-pentamer bearing a free-base porphyrin core and four zinc(II) meta...
Non-covalent porphyrin dyads and triads containing N<sub>3</sub>S porphyrin and RuN<sub>4</sub> porp...
21-Thiaporphyrins and 21,23-dithiaporphyrins resulting from the replacement of one and two pyrrole r...
A series of 21-thia and 21-oxaporphyrin building blocks bearing iodo-, ethynyl-and aldehyde function...
Core-modified porphyrins, resulting from the replacement of one or two pyrrolic nitrogens with other...
A series of 21-thia and 21-oxaporphyrin building blocks bearing iodo-, ethynyl-and aldehyde function...
We adopted simple synthetic strategy to synthesize mono-functionalized thiasapphyrins containing fun...
Non-covalent porphyrin dyads and triads containing N3S porphyrin and RuN4 porphyrin subunits were sy...
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