Earth-Abundant Molecular Z-Scheme Photoelectrochemical Cell for Overall Water-Splitting
Christopher D. Windle
,
Hiromu Kumagai
,
Masanobu Higashi
,
Romain Brisse
,
Sébastien Bold
,
et al.
Journal articles
cea-02147070v1
Actions
Share
Gmail
Facebook
Twitter
LinkedIn
More
Localizing the initial excitation - A case study on NiO photocathodes using Ruthenium dipyridophenazine complexes as sensitizers
Ruri Agung Wahyuono
,
Markus Braumüller
,
Sebastian Bold
,
Sebastian Amthor
,
Djawed Nauroozi
,
et al.
Journal articles
hal-03237431v1
Actions
Share
Gmail
Facebook
Twitter
LinkedIn
More
A ππ* State Enables Photoaccumulation of Charges on a π‑Extended Dipyridophenazine Ligand in a Ru(II) Polypyridine Complex
Julian Schindler
,
Ying Zhang
,
Philipp Traber
,
Lefebvre Jean-François
,
Stephan Kupfer
,
et al.
Journal articles
hal-01775421v1
Actions
Share
Gmail
Facebook
Twitter
LinkedIn
More
European and International Initiatives in the Field of Artificial Photosynthesis
V. Artero
,
F. Chandezon
,
D.T. Co
,
B. Dietzek
Bruno R.
Advances in Botanical Research Part of ARTIFICIAL PHOTOSYNTHESIS , 79 Chap.7, Edited by Jacquot J.-P. and Gadal p., pp.193-221, 2016, 978-012803289-3.
⟨10.1016/bs.abr.2016.03.002⟩
Book sections
hal-02021098v1
Actions
Share
Gmail
Facebook
Twitter
LinkedIn
More
Electron transfer in a covalent dye-cobalt catalyst assembly - a transient absorption spectroelectrochemistry perspective.
Sebastian Bold
,
Zedler Linda
,
Ying Zhang
,
Julien Massin
,
Vincent Artero
,
et al.
Journal articles
hal-01870377v1
Actions
Share
Gmail
Facebook
Twitter
LinkedIn
More
Structure of Ni(OH) 2 intermediates determines the efficiency of NiO-based photocathodes – a case study using novel mesoporous NiO nanostars
Ruri Agung Wahyuono
,
Andrea Dellith
,
Christa Schmidt
,
Jan Dellith
,
Anna Ignaszak
,
et al.
Journal articles
hal-03084850v1
Actions
Share
Gmail
Facebook
Twitter
LinkedIn
More
Synthesis of three series of ruthenium tris-diimine complexes containing acridine-based π-extended ligands using an efficient "chemistry on the complex" approach.
Jean-François Lefebvre
,
Dounia Saadallah
,
Philipp Traber
,
Stephan Kupfer
,
Stefanie Gräfe
,
et al.
Journal articles
hal-01400067v1
Actions
Share
Gmail
Facebook
Twitter
LinkedIn
More
Photocathodes beyond NiO:charge transfer dynamics in a π‑conjugated polymer functionalized with Ruphotosensitizers
Ruri A. Wahyuono
,
Bianca Seidler
,
Sébastian Bold
,
Andrea Dellith
,
Jan Dellith
,
et al.
Journal articles
hal-03178156v1
Actions
Share
Gmail
Facebook
Twitter
LinkedIn
More
Spectroscopic Investigations Provide a Rationale for the Hydrogen-Evolving Activity of Dye-Sensitized Photocathodes Based on a Cobalt Tetraazamacrocyclic Catalyst
Sébastian Bold
,
Julien Massin
,
Emmanouil Giannoudis
,
Matthieu Koepf
,
Vincent Artero
,
et al.
Journal articles
hal-03190801v1
Actions
Share
Gmail
Facebook
Twitter
LinkedIn
More
Investigating Light-Driven Hole Injection and Hydrogen Evolution Catalysis at Dye-Sensitized NiO Photocathodes: A Combined Experimental−Theoretical Study
Julien Massin
,
Maximilian Bräutigam
,
Sebastian Bold
,
Maria Wächtler
,
Michèle Pavone
,
et al.
Journal articles
hal-02266505v1
Actions
Share
Gmail
Facebook
Twitter
LinkedIn
More
Investigating Light-Induced Processes in Covalent Dye-Catalyst Assemblies for Hydrogen Production
Sébastian Bold
,
Tatiana Straistari
,
Ana B. Muñoz-Garcia
,
Michèle Pavone
,
Vincent Artero
,
et al.
Catalysts , 2020, 10 (11), pp.1340
Journal articles
hal-03102755v1
Actions
Share
Gmail
Facebook
Twitter
LinkedIn
More
An artificial photosynthetic system for photoaccumulation of two electrons on a fused dipyridophenazine (dppz)-pyridoquinolinone ligand.
Jean-François Lefebvre
,
Julian Schindler
,
Philipp Traber
,
Ying Zhang
,
Stephan Kupfer
,
et al.
Journal articles
hal-01798595v1
Actions
Share
Gmail
Facebook
Twitter
LinkedIn
More
Photophysics of a Ruthenium Complex with a π-Extended Dipyridophenazine Ligand for DNA Quadruplex Labeling
Julian Schindler
,
Philipp Traber
,
Linda Zedler
,
Ying Zhang
,
Jean-Francois Lefebvre
,
et al.
Journal articles
hal-01970031v1
Actions
Share
Gmail
Facebook
Twitter
LinkedIn
More