A Precious Catalyst: Rhodium-Catalyzed Formic Acid Dehydrogenation in Water

Mechanistic Considerations on Homogeneously Catalyzed Formic Acid Dehydrogenation

(2018) Manuel Iglesias et al.   EUROPEAN JOURNAL OF INORGANIC CHEMISTRY

A solvent-switched in situ confinement approach for immobilizing highly-active ultrafine palladium nanoparticles: boosting catalytic hydrogen evolution

(2018) Qi-Long Zhu et al.   Journal of Materials Chemistry A

Highly Efficient Base-Free Dehydrogenation of Formic Acid at Low Temperature

(2018) Christoph Prichatz et al.   ChemSusChem

An assessment of strategies for the development of solid-state adsorbents for vehicular hydrogen storage

(2018) Mark D. Allendorf et al.   Energy & Environmental Science

Releasing Hydrogen at High Pressures from Liquid Carriers: Aspects for the H2 Delivery to Fueling Stations

(2018) Karsten Müller et al.   ENERGY & FUELS

Impact of Protic Ligands in the Ir-Catalyzed Dehydrogenation of Formic Acid in Water

(2018) Amaia Iturmendi et al.   ORGANOMETALLICS

Development of Effective Catalysts for Hydrogen Storage Technology Using Formic Acid

(2018) Naoya Onishi et al.   Advanced Energy Materials

Reversible Hydrogen Uptake/Release over a Sodium Phenoxide-Cyclohexanolate Pair

(2018) Yang Yu et al.   ANGEWANDTE CHEMIE-INTERNATIONAL EDITION

Base-Free Dehydrogenation of Aqueous and Neat Formic Acid with Iridium(III) Cp*(dipyridylamine) Catalysts

(2018) Shengdong Wang et al.   ChemSusChem

Catalytic Formic Acid Dehydrogenation and CO2 Hydrogenation Using Iron PNRP Pincer Complexes with Isonitrile Ligands

(2018) Julia B. Curley et al.   ORGANOMETALLICS

Dehydrogenation of Formic Acid Promoted by a Trihydride-Hydroxo-Osmium(IV) Complex: Kinetics and Mechanism

(2018) Miguel A. Esteruelas et al.   ACS Catalysis

Hydrogen Storage in Formic Acid: A Comparison of Process Options

(2017) Karsten Müller et al.   ENERGY & FUELS

Seasonal climate change patterns due to cumulative CO2 emissions

(2017) Antti-Ilari Partanen et al.   Environmental Research Letters

Aqueous phase homogeneous formic acid disproportionation into methanol

(2017) K. Sordakis et al.   GREEN CHEMISTRY

Carbon Dioxide to Methanol: The Aqueous Catalytic Way at Room Temperature

(2016) Katerina Sordakis et al.   CHEMISTRY-A EUROPEAN JOURNAL

CO2, the greenhouse effect and global warming: from the pioneering work of Arrhenius and Callendar to today's Earth System Models

(2016) Thomas R. Anderson et al.   ENDEAVOUR

Quantitative aqueous phase formic acid dehydrogenation using iron(II) based catalysts

(2016) Mickael Montandon-Clerc et al.   JOURNAL OF CATALYSIS

Selective Formic Acid Dehydrogenation Catalyzed by Fe-PNP Pincer Complexes Based on the 2,6-Diaminopyridine Scaffold

(2016) Irene Mellone et al.   ORGANOMETALLICS

Calorimetric and spectroscopic studies on solvation energetics for H2 storage in the CO2/HCOOH system

(2016) Cornel Fink et al.   PHYSICAL CHEMISTRY CHEMICAL PHYSICS

Proton–hydride tautomerism in hydrogen evolution catalysis

(2016) Luis M. Aguirre Quintana et al.   PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA

A prolific catalyst for dehydrogenation of neat formic acid

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

Iridium-Catalyzed Continuous Hydrogen Generation from Formic Acid and Its Subsequent Utilization in a Fuel Cell: Toward a Carbon Neutral Chemical Energy Storage

(2016) Miklos Czaun et al.   ACS Catalysis

Hydrogenation of CO2 to formic acid with iridiumIII(bisMETAMORPhos)(hydride): the role of a dormant fac-IrIII(trihydride) and an active trans-IrIII(dihydride) species

(2016) S. Oldenhof 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

Hydrogenation and Dehydrogenation Iron Pincer Catalysts Capable of Metal–Ligand Cooperation by Aromatization/Dearomatization

(2015) Thomas Zell et al.   ACCOUNTS OF CHEMICAL RESEARCH

Hydrogenation of Carbon Dioxide to Formate Catalyzed by a Copper/1,8-Diazabicyclo[5.4.0]undec-7-ene System

(2015) Ryo Watari et al.   ADVANCED SYNTHESIS & CATALYSIS

A Viable Hydrogen Storage and Release System Based on Cesium Formate and Bicarbonate Salts: Mechanistic Insights into the Hydrogen Release Step

(2015) Katerina Sordakis et al.   ChemCatChem

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

Hydrogen Storage in the Carbon Dioxide – Formic Acid Cycle

(2015) Cornel Fink et al.   CHIMIA

Efficient Cp*Ir Catalysts with Imidazoline Ligands for CO2Hydrogenation

(2015) Shaoan Xu et al.   EUROPEAN JOURNAL OF INORGANIC CHEMISTRY

CO2 Hydrogenation Catalyzed by Iridium Complexes with a Proton-Responsive Ligand

(2015) Naoya Onishi et al.   INORGANIC CHEMISTRY

Mechanistic studies on the pH-controllable interconversion between hydrogen and formic acid in water: DFT insights

(2015) Dandan Zhang et al.   NEW JOURNAL OF CHEMISTRY

Metal-free dehydrogenation of formic acid to H2 and CO2 using boron-based catalysts

(2015) Clément Chauvier et al.   Chemical Science

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

Highly Efficient Reversible Hydrogenation of Carbon Dioxide to Formates Using a Ruthenium PNP-Pincer Catalyst

(2014) Georgy A. Filonenko et al.   ChemCatChem

Base-Free Non-Noble-Metal-Catalyzed Hydrogen Generation from Formic Acid: Scope and Mechanistic Insights

(2014) Dörthe Mellmann et al.   CHEMISTRY-A EUROPEAN JOURNAL

Lewis Acid-Assisted Formic Acid Dehydrogenation Using a Pincer-Supported Iron Catalyst

(2014) Elizabeth A. Bielinski et al.   JOURNAL OF THE AMERICAN CHEMICAL SOCIETY

Extending the range of pentasubstituted cyclopentadienyl compounds: The synthesis of a series of tetramethyl(alkyl or aryl)cyclopentadienes (Cp ∗ R ), their iridium complexes and their catalytic activity for asymmetric transfer hydrogenation

(2014) David M. Morris et al.   POLYHEDRON

Contributions to the Chemistry of the Cyclopentadienyl Complex [Cp∧RuCl2]2(“Cp-roof” = η5-1-Methoxy-2,4-tert-butyl-3-neopentylcyclopentadienyl)

(2014) Julie Risse et al.   ZEITSCHRIFT FUR ANORGANISCHE UND ALLGEMEINE CHEMIE

Direct synthesis of formic acid from carbon dioxide by hydrogenation in acidic media

(2014) Séverine Moret et al.   Nature Communications

Heterogeneous Silica-Supported Ruthenium Phosphine Catalysts for Selective Formic Acid Decomposition

(2013) Weijia Gan et al.   ChemCatChem

Hydrogen storage: beyond conventional methods

(2013) Andrew F. Dalebrook et al.   CHEMICAL COMMUNICATIONS

Direct, in situ determination of pH and solute concentrations in formic acid dehydrogenation and CO2 hydrogenation in pressurised aqueous solutions using 1H and 13C NMR spectroscopy

(2013) Séverine Moret et al.   DALTON TRANSACTIONS

Mechanistic Insight through Factors Controlling Effective Hydrogenation of CO2 Catalyzed by Bioinspired Proton-Responsive Iridium(III) Complexes

(2013) Wan-Hui Wang et al.   ACS Catalysis

Interconversion of CO2 and formic acid by bio-inspired Ir complexes with pendent bases

(2012) Etsuko Fujita et al.   BIOCHIMICA ET BIOPHYSICA ACTA-BIOENERGETICS

Second-coordination-sphere and electronic effects enhance iridium(iii)-catalyzed homogeneous hydrogenation of carbon dioxide in water near ambient temperature and pressure

(2012) Wan-Hui Wang et al.   Energy & Environmental Science

Formic acid as a hydrogen source – recent developments and future trends

(2012) Martin Grasemann et al.   Energy & Environmental Science

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

Efficient Dehydrogenation of Formic Acid Using an Iron Catalyst

(2011) A. Boddien et al.   SCIENCE

A Well-Defined Iron Catalyst for the Reduction of Bicarbonates and Carbon Dioxide to Formates, Alkyl Formates, and Formamides

(2010) Christopher Federsel et al.   ANGEWANDTE CHEMIE-INTERNATIONAL EDITION

A Viable Hydrogen-Storage System Based On Selective Formic Acid Decomposition with a Ruthenium Catalyst

(2008) Céline Fellay et al.   ANGEWANDTE CHEMIE-INTERNATIONAL EDITION

Efficient Catalytic Decomposition of Formic Acid for the Selective Generation of H2and H/D Exchange with a Water-Soluble Rhodium Complex in Aqueous Solution

(2008) Shunichi Fukuzumi et al.   ChemSusChem