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“Host–guest” binding of a luminescent dinuclear Au( i ) complex based on cyclic diphosphine with organic substrates as a reason for luminescence tuneability
This work introduces a luminescent dinuclear Au( i ) complex with a cyclic PNNP ligand ((AuCl) 2 L) as a “host” molecule with two binding sites, “upper” and “lower”. The “upper” binding site is nucleophilic due to two preorganized Au–Cl moieties, while the “lower” one is electrophilic due to positiv...
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| Published in: | New journal of chemistry 2016, Vol.40 (11), p.9853-9861 |
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| Main Authors: | , , , , , , , , , , |
| Format: | Article |
| Language: | English |
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| container_end_page | 9861 |
| container_issue | 11 |
| container_start_page | 9853 |
| container_title | New journal of chemistry |
| container_volume | 40 |
| creator | Shamsutdinova, Nataliya A. Strelnik, Igor D. Musina, Elvira I. Gerasimova, Tatyana P. Katsyuba, Sergey A. Babaev, Vasily M. Krivolapov, Dmitry B. Litvinov, Igor A. Mustafina, Asiya R. Karasik, Andrey A. Sinyashin, Oleg G. |
| description | This work introduces a luminescent dinuclear Au(
i
) complex with a cyclic PNNP ligand ((AuCl)
2
L) as a “host” molecule with two binding sites, “upper” and “lower”. The “upper” binding site is nucleophilic due to two preorganized Au–Cl moieties, while the “lower” one is electrophilic due to positive partial charges of hydrogen atoms of P–CH
2
–N moieties. The “host–guest” binding is a reason for both solvent- and substrate-induced tuning of the complex luminescence. Organic cations, namely
N
-methylpyridinium and trimethylammonium, are revealed as substrates able to bind
via
the “upper” site of the complex. Acetone, diphenylketone, DMSO, DMF and acetonitrile exemplify substrates able to bind with both the binding sites of the complex. The binding
via
“lower” sites leads to changes in mutual arrangement of pyridyl moieties and P–Au bonds of the complex, which results in a more pronounced effect on the excited state energy relative to the binding
via
the “upper” site. Substrate-induced tuning of the luminescence is affected by the nature of the solvent due to competitive “host–guest” binding of (AuCl)
2
L with solvent molecules. |
| doi_str_mv | 10.1039/C6NJ02277D |
| format | article |
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i
) complex with a cyclic PNNP ligand ((AuCl)
2
L) as a “host” molecule with two binding sites, “upper” and “lower”. The “upper” binding site is nucleophilic due to two preorganized Au–Cl moieties, while the “lower” one is electrophilic due to positive partial charges of hydrogen atoms of P–CH
2
–N moieties. The “host–guest” binding is a reason for both solvent- and substrate-induced tuning of the complex luminescence. Organic cations, namely
N
-methylpyridinium and trimethylammonium, are revealed as substrates able to bind
via
the “upper” site of the complex. Acetone, diphenylketone, DMSO, DMF and acetonitrile exemplify substrates able to bind with both the binding sites of the complex. The binding
via
“lower” sites leads to changes in mutual arrangement of pyridyl moieties and P–Au bonds of the complex, which results in a more pronounced effect on the excited state energy relative to the binding
via
the “upper” site. Substrate-induced tuning of the luminescence is affected by the nature of the solvent due to competitive “host–guest” binding of (AuCl)
2
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i
) complex with a cyclic PNNP ligand ((AuCl)
2
L) as a “host” molecule with two binding sites, “upper” and “lower”. The “upper” binding site is nucleophilic due to two preorganized Au–Cl moieties, while the “lower” one is electrophilic due to positive partial charges of hydrogen atoms of P–CH
2
–N moieties. The “host–guest” binding is a reason for both solvent- and substrate-induced tuning of the complex luminescence. Organic cations, namely
N
-methylpyridinium and trimethylammonium, are revealed as substrates able to bind
via
the “upper” site of the complex. Acetone, diphenylketone, DMSO, DMF and acetonitrile exemplify substrates able to bind with both the binding sites of the complex. The binding
via
“lower” sites leads to changes in mutual arrangement of pyridyl moieties and P–Au bonds of the complex, which results in a more pronounced effect on the excited state energy relative to the binding
via
the “upper” site. Substrate-induced tuning of the luminescence is affected by the nature of the solvent due to competitive “host–guest” binding of (AuCl)
2
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i
) complex with a cyclic PNNP ligand ((AuCl)
2
L) as a “host” molecule with two binding sites, “upper” and “lower”. The “upper” binding site is nucleophilic due to two preorganized Au–Cl moieties, while the “lower” one is electrophilic due to positive partial charges of hydrogen atoms of P–CH
2
–N moieties. The “host–guest” binding is a reason for both solvent- and substrate-induced tuning of the complex luminescence. Organic cations, namely
N
-methylpyridinium and trimethylammonium, are revealed as substrates able to bind
via
the “upper” site of the complex. Acetone, diphenylketone, DMSO, DMF and acetonitrile exemplify substrates able to bind with both the binding sites of the complex. The binding
via
“lower” sites leads to changes in mutual arrangement of pyridyl moieties and P–Au bonds of the complex, which results in a more pronounced effect on the excited state energy relative to the binding
via
the “upper” site. Substrate-induced tuning of the luminescence is affected by the nature of the solvent due to competitive “host–guest” binding of (AuCl)
2
L with solvent molecules.</abstract><doi>10.1039/C6NJ02277D</doi><tpages>9</tpages><oa>free_for_read</oa></addata></record> |
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| language | eng |
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| source | Royal Society of Chemistry |
| title | “Host–guest” binding of a luminescent dinuclear Au( i ) complex based on cyclic diphosphine with organic substrates as a reason for luminescence tuneability |
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