Dehydrogenation of Formic Acid by a Ru II Half Sandwich Catalyst

Catalytic Water Oxidation by a Ru II Half Sandwich Complex

(2021) Aditi Vatsa et al.   EUROPEAN JOURNAL OF INORGANIC CHEMISTRY

CO2 Hydrogenation and Formic Acid Dehydrogenation Using Ir Catalysts with Amide-Based Ligands

(2020) Ryoichi Kanega et al.   ORGANOMETALLICS

Catalytic Dehydrogenation of Formic Acid with Ruthenium-PNP-Pincer Complexes: Comparing N-Methylated and NH-Ligands

(2019) Anastasiya Agapova et al.   ChemCatChem

Ruthenium Complexes for Catalytic Dehydrogenation of Hydrazine and Transfer Hydrogenation Reactions

(2018) Mahendra Kumar Awasthi et al.   Chemistry-An Asian Journal

Dehydrogenation of Formic Acid Catalyzed by Water-Soluble Ruthenium Complexes: X-ray Crystal Structure of a Diruthenium Complex

(2018) Soumyadip Patra et al.   EUROPEAN JOURNAL OF INORGANIC CHEMISTRY

Further Observations on the Mechanism of Formic Acid Decomposition by Homogeneous Ruthenium Catalyst

(2017) Ziv Treigerman et al.   ChemistrySelect

Formic acid as a hydrogen storage material – development of homogeneous catalysts for selective hydrogen release

(2016) Dörthe Mellmann et al.   CHEMICAL SOCIETY REVIEWS

Selective Hydrogen Generation from Formic Acid with Well-Defined Complexes of Ruthenium and Phosphorus-Nitrogen PN3 -Pincer Ligand

(2016) Yupeng Pan et al.   Chemistry-An Asian Journal

Dehydrogenation of Formic Acid Catalyzed by a Ruthenium Complex with an N,N′-Diimine Ligand

(2016) Chao Guan et al.   INORGANIC CHEMISTRY

A prolific catalyst for dehydrogenation of neat formic acid

(2016) Jeff Joseph A. Celaje et al.   Nature Communications

Direction to practical production of hydrogen by formic acid dehydrogenation with Cp*Ir complexes bearing imidazoline ligands

(2016) Naoya Onishi et al.   Catalysis Science & Technology

Hydrogen energy future with formic acid: a renewable chemical hydrogen storage system

(2016) Ashish Kumar Singh et al.   Catalysis Science & Technology

Unprecedentedly High Formic Acid Dehydrogenation Activity on an Iridium Complex with anN,N′-Diimine Ligand in Water

(2015) Zhijun Wang et al.   CHEMISTRY-A EUROPEAN JOURNAL

Highly Robust Hydrogen Generation by Bioinspired Ir Complexes for Dehydrogenation of Formic Acid in Water: Experimental and Theoretical Mechanistic Investigations at Different pH

(2015) Wan-Hui Wang et al.   ACS Catalysis

Formic Acid Dehydrogenation with Bioinspired Iridium Complexes: A Kinetic Isotope Effect Study and Mechanistic Insight

(2014) Wan-Hui Wang et al.   ChemSusChem

Ruthenium(II)-Catalyzed Hydrogen Generation from Formic Acid using Cationic, Ammoniomethyl-Substituted Triarylphosphine Ligands

(2013) Weijia Gan et al.   ChemCatChem

Formic Acid: A Promising Bio-Renewable Feedstock for Fine Chemicals

(2012) Manuel G. Mura et al.   ADVANCED SYNTHESIS & CATALYSIS

Reversible hydrogen storage using CO2 and a proton-switchable iridium catalyst in aqueous media under mild temperatures and pressures

(2012) Jonathan F. Hull et al.   Nature Chemistry

Hydrogen Storage in Metal–Organic Frameworks

(2011) Myunghyun Paik Suh et al.   CHEMICAL REVIEWS

Continuous Hydrogen Generation from Formic Acid: Highly Active and Stable Ruthenium Catalysts

(2009) Albert Boddien et al.   ADVANCED SYNTHESIS & CATALYSIS

Insights into Hydrogen Generation from Formic Acid Using Ruthenium Complexes

(2009) David J. Morris et al.   ORGANOMETALLICS

Controlled Generation of Hydrogen from Formic Acid Amine Adducts at Room Temperature and Application in H2/O2Fuel Cells

(2008) Björn Loges et al.   ANGEWANDTE CHEMIE-INTERNATIONAL EDITION

Hydrogen Generation at Ambient Conditions: Application in Fuel Cells

(2008) Albert Boddien et al.   ChemSusChem