Covalently Linked Ferrocenyl Quinones: Proton-Dependent Redox Behavior and Charge Redistribution

doi 10.1021/om060040x.s001
Full Text
Abstract

Available in full text

Date

Unknown

Authors

Unknown

Publisher

American Chemical Society (ACS)

Related search

Ferrocenyl‐Pyrenes, Ferrocenyl‐9,10‐Phenanthrenediones, and Ferrocenyl‐9,10‐Dimethoxyphenanthrenes: Charge Transfer Studies and SWCNT Functionalization

Chemistry - A European Journal
Organic ChemistryCatalysisChemistry
2020English

Charge Redistribution Mechanisms of Ceria Reduction

Physical Review Letters
AstronomyPhysics
2012English

Charge Redistribution From Anomalous Magnetovorticity Coupling

Physical Review Letters
AstronomyPhysics
2016English

Monocyte Differentiation, Activation, and Mycobacterial Killing Are Linked to Transsulfuration-Dependent Redox Metabolism

Journal of Biological Chemistry
BiochemistryCell BiologyMolecular Biology
2006English

Charge Redistribution in Excited State Lumichrome and Lumazine

Biophysical Journal
Biophysics
2015English

Activation of Hepatocyte Protein Kinase C by Redox-Cycling Quinones

Biochemical Journal
BiochemistryCell BiologyMolecular Biology
1989English

Space Charge Behavior Under Thermal Gradient in Cross-Linked Polyethylene and Ethylene-Propylene Rubber

Sensors and Materials
Materials ScienceInstrumentation
2017English

Charge and Bonding Redistribution in Octatetraene Driven by a Strong Laser Field: Time-Dependent Hartree–Fock Simulation

Journal of Chemical Physics
MedicineTheoretical ChemistryAstronomyPhysicsPhysical
2003English

Binuclear Phthalocyanines Covalently Linked Through Two- And Four-Atom Bridges

Canadian Journal of Chemistry
Organic ChemistryCatalysisChemistry
1985English

Amanote Research

Note-taking for researchers

Follow Amanote

© 2024 Amaplex Software S.P.R.L. All rights reserved.

Privacy PolicyRefund Policy