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Graphene Quantum Dots Assembled with Metalloporphyrins for “Turn on” Sensing of Hydrogen Peroxide and Glucose

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Zeitschriftentitel: Chemistry – A European Journal
Personen und Körperschaften: Zhang, Li, Peng, Dong, Liang, Ru‐Ping, Qiu, Jian‐Ding
In: Chemistry – A European Journal, 21, 2015, 26, S. 9343-9348
Format: E-Article
Sprache: Englisch
veröffentlicht:
Wiley
Schlagwörter:
General Chemistry
Catalysis
Organic Chemistry
author_facet Zhang, Li
Peng, Dong
Liang, Ru‐Ping
Qiu, Jian‐Ding
Zhang, Li
Peng, Dong
Liang, Ru‐Ping
Qiu, Jian‐Ding
author Zhang, Li
Peng, Dong
Liang, Ru‐Ping
Qiu, Jian‐Ding
spellingShingle Zhang, Li
Peng, Dong
Liang, Ru‐Ping
Qiu, Jian‐Ding
Chemistry – A European Journal
Graphene Quantum Dots Assembled with Metalloporphyrins for “Turn on” Sensing of Hydrogen Peroxide and Glucose
General Chemistry
Catalysis
Organic Chemistry
author_sort zhang, li
spelling Zhang, Li Peng, Dong Liang, Ru‐Ping Qiu, Jian‐Ding 0947-6539 1521-3765 Wiley General Chemistry Catalysis Organic Chemistry http://dx.doi.org/10.1002/chem.201500803 <jats:title>Abstract</jats:title><jats:p>Noncovalent and multifunctional hybrids have been generated via π–π stacking and electrostatic interactions by combining the nanometer‐scale graphene structure of graphene quantum dots (GQDs) with Fe<jats:sup>III</jats:sup> 5,10,15,20‐tetrakis(1‐methyl‐4‐pyridyl)porphine (FeTMPyP). The inner filter effect (IFE) of FeTMPyP on the GQDs results in substantial PL quenching of the GQDs. The quenched PL of GQDs by the FeTMPyP can be switched back “on” in response to the reaction between FeTMPyP and H<jats:sub>2</jats:sub>O<jats:sub>2</jats:sub>, which causes rupture of the cyclic tetrapyrrolic nucleus with consequential loss of iron from FeTMPyP, and then proceeds further to produce colorless dipyrroles and monopyrroles. This “turn on” system can be applied for simple and convenient H<jats:sub>2</jats:sub>O<jats:sub>2</jats:sub> sensing and can be further extended to the detection of glucose in combination with the specific catalytic effect of glucose oxidase (GOx) through the oxidation of glucose and formation of H<jats:sub>2</jats:sub>O<jats:sub>2</jats:sub>. Because of the inherent synthetic control available for the design of metalloporphyrins, the GQDs‐based optical sensing approach described here has the potential to be highly versatile for other target analytes.</jats:p> Graphene Quantum Dots Assembled with Metalloporphyrins for “Turn on” Sensing of Hydrogen Peroxide and Glucose Chemistry – A European Journal
doi_str_mv 10.1002/chem.201500803
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series Chemistry – A European Journal
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title Graphene Quantum Dots Assembled with Metalloporphyrins for “Turn on” Sensing of Hydrogen Peroxide and Glucose
title_unstemmed Graphene Quantum Dots Assembled with Metalloporphyrins for “Turn on” Sensing of Hydrogen Peroxide and Glucose
title_full Graphene Quantum Dots Assembled with Metalloporphyrins for “Turn on” Sensing of Hydrogen Peroxide and Glucose
title_fullStr Graphene Quantum Dots Assembled with Metalloporphyrins for “Turn on” Sensing of Hydrogen Peroxide and Glucose
title_full_unstemmed Graphene Quantum Dots Assembled with Metalloporphyrins for “Turn on” Sensing of Hydrogen Peroxide and Glucose
title_short Graphene Quantum Dots Assembled with Metalloporphyrins for “Turn on” Sensing of Hydrogen Peroxide and Glucose
title_sort graphene quantum dots assembled with metalloporphyrins for “turn on” sensing of hydrogen peroxide and glucose
topic General Chemistry
Catalysis
Organic Chemistry
url http://dx.doi.org/10.1002/chem.201500803
publishDate 2015
physical 9343-9348
description <jats:title>Abstract</jats:title><jats:p>Noncovalent and multifunctional hybrids have been generated via π–π stacking and electrostatic interactions by combining the nanometer‐scale graphene structure of graphene quantum dots (GQDs) with Fe<jats:sup>III</jats:sup> 5,10,15,20‐tetrakis(1‐methyl‐4‐pyridyl)porphine (FeTMPyP). The inner filter effect (IFE) of FeTMPyP on the GQDs results in substantial PL quenching of the GQDs. The quenched PL of GQDs by the FeTMPyP can be switched back “on” in response to the reaction between FeTMPyP and H<jats:sub>2</jats:sub>O<jats:sub>2</jats:sub>, which causes rupture of the cyclic tetrapyrrolic nucleus with consequential loss of iron from FeTMPyP, and then proceeds further to produce colorless dipyrroles and monopyrroles. This “turn on” system can be applied for simple and convenient H<jats:sub>2</jats:sub>O<jats:sub>2</jats:sub> sensing and can be further extended to the detection of glucose in combination with the specific catalytic effect of glucose oxidase (GOx) through the oxidation of glucose and formation of H<jats:sub>2</jats:sub>O<jats:sub>2</jats:sub>. Because of the inherent synthetic control available for the design of metalloporphyrins, the GQDs‐based optical sensing approach described here has the potential to be highly versatile for other target analytes.</jats:p>
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author Zhang, Li, Peng, Dong, Liang, Ru‐Ping, Qiu, Jian‐Ding
author_facet Zhang, Li, Peng, Dong, Liang, Ru‐Ping, Qiu, Jian‐Ding, Zhang, Li, Peng, Dong, Liang, Ru‐Ping, Qiu, Jian‐Ding
author_sort zhang, li
container_issue 26
container_start_page 9343
container_title Chemistry – A European Journal
container_volume 21
description <jats:title>Abstract</jats:title><jats:p>Noncovalent and multifunctional hybrids have been generated via π–π stacking and electrostatic interactions by combining the nanometer‐scale graphene structure of graphene quantum dots (GQDs) with Fe<jats:sup>III</jats:sup> 5,10,15,20‐tetrakis(1‐methyl‐4‐pyridyl)porphine (FeTMPyP). The inner filter effect (IFE) of FeTMPyP on the GQDs results in substantial PL quenching of the GQDs. The quenched PL of GQDs by the FeTMPyP can be switched back “on” in response to the reaction between FeTMPyP and H<jats:sub>2</jats:sub>O<jats:sub>2</jats:sub>, which causes rupture of the cyclic tetrapyrrolic nucleus with consequential loss of iron from FeTMPyP, and then proceeds further to produce colorless dipyrroles and monopyrroles. This “turn on” system can be applied for simple and convenient H<jats:sub>2</jats:sub>O<jats:sub>2</jats:sub> sensing and can be further extended to the detection of glucose in combination with the specific catalytic effect of glucose oxidase (GOx) through the oxidation of glucose and formation of H<jats:sub>2</jats:sub>O<jats:sub>2</jats:sub>. Because of the inherent synthetic control available for the design of metalloporphyrins, the GQDs‐based optical sensing approach described here has the potential to be highly versatile for other target analytes.</jats:p>
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spelling Zhang, Li Peng, Dong Liang, Ru‐Ping Qiu, Jian‐Ding 0947-6539 1521-3765 Wiley General Chemistry Catalysis Organic Chemistry http://dx.doi.org/10.1002/chem.201500803 <jats:title>Abstract</jats:title><jats:p>Noncovalent and multifunctional hybrids have been generated via π–π stacking and electrostatic interactions by combining the nanometer‐scale graphene structure of graphene quantum dots (GQDs) with Fe<jats:sup>III</jats:sup> 5,10,15,20‐tetrakis(1‐methyl‐4‐pyridyl)porphine (FeTMPyP). The inner filter effect (IFE) of FeTMPyP on the GQDs results in substantial PL quenching of the GQDs. The quenched PL of GQDs by the FeTMPyP can be switched back “on” in response to the reaction between FeTMPyP and H<jats:sub>2</jats:sub>O<jats:sub>2</jats:sub>, which causes rupture of the cyclic tetrapyrrolic nucleus with consequential loss of iron from FeTMPyP, and then proceeds further to produce colorless dipyrroles and monopyrroles. This “turn on” system can be applied for simple and convenient H<jats:sub>2</jats:sub>O<jats:sub>2</jats:sub> sensing and can be further extended to the detection of glucose in combination with the specific catalytic effect of glucose oxidase (GOx) through the oxidation of glucose and formation of H<jats:sub>2</jats:sub>O<jats:sub>2</jats:sub>. Because of the inherent synthetic control available for the design of metalloporphyrins, the GQDs‐based optical sensing approach described here has the potential to be highly versatile for other target analytes.</jats:p> Graphene Quantum Dots Assembled with Metalloporphyrins for “Turn on” Sensing of Hydrogen Peroxide and Glucose Chemistry – A European Journal
spellingShingle Zhang, Li, Peng, Dong, Liang, Ru‐Ping, Qiu, Jian‐Ding, Chemistry – A European Journal, Graphene Quantum Dots Assembled with Metalloporphyrins for “Turn on” Sensing of Hydrogen Peroxide and Glucose, General Chemistry, Catalysis, Organic Chemistry
title Graphene Quantum Dots Assembled with Metalloporphyrins for “Turn on” Sensing of Hydrogen Peroxide and Glucose
title_full Graphene Quantum Dots Assembled with Metalloporphyrins for “Turn on” Sensing of Hydrogen Peroxide and Glucose
title_fullStr Graphene Quantum Dots Assembled with Metalloporphyrins for “Turn on” Sensing of Hydrogen Peroxide and Glucose
title_full_unstemmed Graphene Quantum Dots Assembled with Metalloporphyrins for “Turn on” Sensing of Hydrogen Peroxide and Glucose
title_short Graphene Quantum Dots Assembled with Metalloporphyrins for “Turn on” Sensing of Hydrogen Peroxide and Glucose
title_sort graphene quantum dots assembled with metalloporphyrins for “turn on” sensing of hydrogen peroxide and glucose
title_unstemmed Graphene Quantum Dots Assembled with Metalloporphyrins for “Turn on” Sensing of Hydrogen Peroxide and Glucose
topic General Chemistry, Catalysis, Organic Chemistry
url http://dx.doi.org/10.1002/chem.201500803