Literature DB >> 19630016

Aura of corroles.

Iris Aviv-Harel1, Zeev Gross1.   

Abstract

Corroles display distinctive structural, spectroscopic, and photophysical properties, as well as some exceptional chemical reactivities that are not shared by other molecules. In addition, low-valent metal complexes are extremely reactive when chelated by corroles and the opposite holds for the high-valent counterparts. One aim of this account is to provide a thorough understanding of the underlying principles that govern these phenomena, while the other goal is to demonstrate how these features may be used advantageously for utilization of corroles and their corresponding metal complexes in applications for which they could display superior performances. The main examples that are emphasized regarding the above respect are catalysis, imaging, and aspects relevant to drug development.

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Year:  2009        PMID: 19630016     DOI: 10.1002/chem.200900920

Source DB:  PubMed          Journal:  Chemistry        ISSN: 0947-6539            Impact factor:   5.236


  24 in total

1.  β-Nitro-5,10,15-tritolylcorroles.

Authors:  Manuela Stefanelli; Giuseppe Pomarico; Luca Tortora; Sara Nardis; Frank R Fronczek; Gregory T McCandless; Kevin M Smith; Machima Manowong; Yuanyuan Fang; Ping Chen; Karl M Kadish; Angela Rosa; Giampaolo Ricciardi; Roberto Paolesse
Journal:  Inorg Chem       Date:  2012-06-05       Impact factor: 5.165

2.  Neuroprotection against superoxide anion radical by metallocorroles in cellular and murine models of optic neuropathy.

Authors:  Akiyasu Kanamori; Maria-Magdalena Catrinescu; Atif Mahammed; Zeev Gross; Leonard A Levin
Journal:  J Neurochem       Date:  2010-04-29       Impact factor: 5.372

3.  Synthetic protocols for the nitration of corroles.

Authors:  Giuseppe Pomarico; Frank R Fronczek; Sara Nardis; Kevin M Smith; Roberto Paolesse
Journal:  J Porphyr Phthalocyanines       Date:  2011-07-15       Impact factor: 1.811

4.  Copper β-trinitrocorrolates.

Authors:  Manuela Stefanelli; Sara Nardis; Frank R Fronczek; Kevin M Smith; Roberto Paolesse
Journal:  J Porphyr Phthalocyanines       Date:  2013-06       Impact factor: 1.811

5.  β-Nitro derivatives of iron corrolates.

Authors:  Sara Nardis; Manuela Stefanelli; Pruthviraj Mohite; Giuseppe Pomarico; Luca Tortora; Machima Manowong; Ping Chen; Karl M Kadish; Frank R Fronczek; Gregory T McCandless; Kevin M Smith; Roberto Paolesse
Journal:  Inorg Chem       Date:  2012-03-06       Impact factor: 5.165

6.  Functionalization of the corrole ring: the role of isocorrole intermediates.

Authors:  Luca Tortora; Sara Nardis; Frank R Fronczek; Kevin M Smith; Roberto Paolesse
Journal:  Chem Commun (Camb)       Date:  2011-02-24       Impact factor: 6.222

7.  Amination reaction on copper and germanium β-nitrocorrolates.

Authors:  Manuela Stefanelli; Federica Mandoj; Marco Mastroianni; Sara Nardis; Pruthviray Mohite; Frank R Fronczek; Kevin M Smith; Karl M Kadish; Xiao Xiao; Zhongping Ou; Ping Chen; Roberto Paolesse
Journal:  Inorg Chem       Date:  2011-07-28       Impact factor: 5.165

8.  Nitration of iron corrolates: further evidence for non-innocence of the corrole ligand.

Authors:  Manuela Stefanelli; Sara Nardis; Luca Tortora; Frank R Fronczek; Kevin M Smith; Silvia Licoccia; Roberto Paolesse
Journal:  Chem Commun (Camb)       Date:  2011-03-07       Impact factor: 6.222

9.  Control of clustering behavior in anionic cerium(iii) corrole complexes: from oligomers to monomers.

Authors:  Keith C Armstrong; Stephan Hohloch; Trevor D Lohrey; Ryan A Zarkesh; John Arnold; Mitchell R Anstey
Journal:  Dalton Trans       Date:  2016-11-22       Impact factor: 4.390

10.  6-Azahemiporphycene: a new member of the porphyrinoid family.

Authors:  Federica Mandoj; Sara Nardis; Giuseppe Pomarico; Manuela Stefanelli; Luca Schiaffino; Gianfranco Ercolani; Luca Prodi; Damiano Genovese; Nelsi Zaccheroni; Frank R Fronczek; Kevin M Smith; Xiao Xiao; Jing Shen; Karl M Kadish; Roberto Paolesse
Journal:  Inorg Chem       Date:  2009-11-02       Impact factor: 5.165
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