28-Hetero-2,7-Naphthiporphyrins: Horizontal Expansion of the m-Benziporphyrin Macrocycle |
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Aromaticity switching via azulene transformations in azulene-bridged A,D-dithiahexaphyrin. |
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Assessment of in vivo experiments: The newly synthesized porphyrin with proper light source enhanced effectiveness of PDT comparing to 5-ALA-mediated PDT. |
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Carbocations Confined in a Thiatriazuliporphyrin Frame |
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Chemistry inside a porphyrin skeleton: platinacyclopentadiene from tellurophene |
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Common origin, common fate: regular porphyrin and N-confused porphyrin yield an identical tetrapyrrolic degradation product |
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Conformation-Dependent Response to Protonation of Diphenanthrioctaphyrin(1.1.1.0.1.1.1.0) - A Route to Pseudorotaxane-like Structures |
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Conformational flexibility of nickel(II) benziporphyrins |
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Coordination-Induced Molecular Tweezing: Ruthenium Clusters Docked at Azuliporphyrinogens |
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Core chemistry and skeletal rearrangements of porphyrinoids and metalloporphyrinoids. |
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Core-modified hexaphyrin: synthesis and characterization of 31,34-disilahexaphyrinoid |
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Core-modified porphyrin incorporating a phenolate donor. Characterization of Pd(II), Ni(II), Zn(II), Cd(II), and Fe(III) complexes |
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Dicarba[26]hexaporphyrinoids(1.1.1.1.1.1) with an Embedded Cyclopentene Moiety - Conformational Switching |
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Diphenanthrioctaphyrin(1.1.1.0.1.1.1.0): Conformational Switching Controls the Stereochemical Dynamics of the Topologically Chiral System |
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Disproportionation of Iron(III) Porphyrin pi-Cation Radicals in the Presence of Sterically Hindered Pyridines. Spectroscopic Detection of Asymmetric Highly Oxidized Intermediates |
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A dynamic library of porphyrinic true nanorings |
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The effect of π-conjugation in the macrocyclic ring on the photophysical properties of a series of thiaaceneporphyrinoids |
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Expanded porphyrin with a split personality: a Hückel-Möbius aromaticity switch |
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Figure eights, Möbius bands, and more: conformation and aromaticity of porphyrinoids |
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Flexible Porphyrinoids. |
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Formation and Isolation of an Iron-Tripyrrole Complex from Heme Degradation |
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From 21,23-dioxaporphyrin to a 3-pyranone dioxacorrole skeleton: the Achmatowicz rearrangement in the porphyrin frame |
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From para-Benziporphyrin to Rhodium(III) 21-Carbaporphyrins: Imprinting Rh⋅⋅⋅η(2)-CC, Rh⋅⋅⋅η(2)-CO, and Rh⋅⋅⋅η(2)-CH Coordination Motifs |
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A fused meso-aminoporphyrin: a switchable near-IR chromophore |
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Gold(III)-mediated contraction of benzene to cyclopentadiene: from p-benziporphyrin to gold(III) true tetraarylcarbaporphyrin. |
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Helicenophyrins - expanded carbaporphyrins incorporating aza[5]helicene and heptacyclic S-shaped aza[5]helicene motifs. |
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Heme Cleavage with Remarkable Ease: Paramagnetic Intermediates Formed by Aerobic Oxidation of a Meso-Amino-Substituted Iron Porphyrin |
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Incorporation of a Phenanthrene Subunit into a Sapphyrin Framework: Synthesis of Expanded Aceneporphyrinoids |
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Incorporation of the 1,5-naphthalene subunit into heteroporphyrin structure: toward helical aceneporphyrinoids. |
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Inversion Triggered by Protonation - A Rubyrin with an Embedded α,β'-Pyridine Moieties |
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Iron and copper complexes of tetraphenyl-m-benziporphyrin: reactivity of the internal C-H bond |
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Iron(II) vacataporphyrins: a variable annulene conformation inside a regular porphyrin frame |
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Iron(III) mesoporphyrin IX and iron(III) deuteroporphyrin IX bind to the Porphyromonas gingivalis HmuY hemophore |
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meso-N-Pyrrole as a Versatile Substituent Influencing the Optical Properties of Porphyrin. |
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A meso-Tetraaryl-21-carbaporphyrin: Incorporation of a Cyclopentadiene Unit into a Porphyrin Architecture |
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Möbius-Hückel topology switching in an expanded porphyrin cation radical as studied by EPR and ENDOR spectroscopy. |
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Monomeric and Trimeric Manganese(III) Complexes of 2-Hydroxy-5,10,15,20-tetraphenylporphyrin. Synthesis and Characterization |
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Nickel(II) and palladium(II) thiaethyneporphyrins. Intramolecular metal(II)-η2-CC interaction inside a porphyrinoid frame |
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NMR Investigation of beta-Substituted High-Spin and Low-Spin Iron(III) Tetraphenylporphyrins |
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Organonickel Complexes of 21,23-Dioxaporphyrin. Identification of the Paramagnetic Organonickel(II) Complex with Two eta(1)-Phenyl Ligands |
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Oxatriphyrins(2.1.1) incorporating an ortho-phenylene motif |
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Oxidation and Oxygenation of Carbonyl Ruthenium(II) Azuliporphyrin |
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Oxophlorin and metallooxophlorin radicals--DFT studies |
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Oxygenation of Phenanthriporphyrin and Copper(III) Phenanthriporphyrin: An Efficient Route to Phenanthribilinones |
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A Parallel-Displaced Directly Linked 21-Carba-23-Thiaporphyrin Dimer Incorporating a Dihydrofulvalene Motif |
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Phenanthriporphyrin: an antiaromatic aceneporphyrinoid as a ligand for a hypervalent organophosphorus(V) moiety |
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Proton NMR characterization of the ferryl group in model heme complexes and hemoproteins: evidence for the FeIVO group in ferryl myoglobin and compound II of horseradish peroxidase |
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Reactivity of the Verdoheme Analogues, 5-Oxaporphyrin Complexes of Cobalt(II) and Zinc(II), with Nucleophiles: Opening of the Planar Macrocycle by Alkoxide Addition To Form Helical Complexes |
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Regioselective phosphorylation and thiophosphorylation of N-confused porphyrin: a route to hybrid carbaporphyrinoids |
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Reversible reduction of oxatriphyrin(3.1.1)--adjusting the coordination abilities to the central ion |
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Rhodium-Induced Reversible C-C Bond Cleavage: Transformations of Rhodium(III) 22-Alkyl-m-benziporphyrins. |
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The role of nitrogen bridges perturbing the photophysical properties in the porphyrin framework |
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Ruthenium(II) and Ruthenium(III) Complexes of p-Benziporphyrin: Merging Equatorial and Axial Organometallic Coordination. |
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Shaping a Porphyrinoid Frame by Heteroatoms Extrusion: Formation of an Expanded [22]Triphyrin(6.6.0) |
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Synthesis and switching the aromatic character of oxatriphyrins(2.1.1) |
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Tetraphenyl-p-benziporphyrin: a carbaporphyrinoid with two linked carbon atoms in the coordination core |
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Three-level topology switching in a molecular Möbius band |
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A Three Stage Aromaticity Switching in Boron(III) and Phosphorus(V) N-Fused p-Benziporphyrin |
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Towards true carbaporphyrinoids: synthesis of 21-carba-23-thiaporphyrin |
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Vacata- and divacataporphyrin: new photosensitizers for application in photodynamic therapy-an in vitro study |
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π Conjugation transmitted across a d-electron metallocene in ferrocenothiaporphyrin macrocycles |
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