Highly efficient hydrogen generation from formic acid using a reduced graphene oxide-supported AuPd nanoparticle catalyst

Pd-MnO x nanoparticles dispersed on amine-grafted silica: Highly efficient nanocatalyst for hydrogen production from additive-free dehydrogenation of formic acid under mild conditions

(2015) Ahmet Bulut et al.   APPLIED CATALYSIS B-ENVIRONMENTAL

AuPd bimetallic nanoparticles decorated graphitic carbon nitride for highly efficient reduction of water to H2 under visible light irradiation

(2015) Changcun Han et al.   CARBON

Enhanced H2O2 production over Au-rich bimetallic Au–Pd nanoparticles on ordered mesoporous carbons

(2015) Tomás García et al.   CATALYSIS TODAY

Mg2+-assisted low temperature reduction of alloyed AuPd/C: an efficient catalyst for hydrogen generation from formic acid at room temperature

(2015) Shuang Wu et al.   CHEMICAL COMMUNICATIONS

Exfoliation-restacking synthesis of coal-layered double hydroxide nanosheets/reduced graphene oxide composite for high performance supercapacitors

(2015) Zongchuan Huang et al.   ELECTROCHIMICA ACTA

Liquid organic and inorganic chemical hydrides for high-capacity hydrogen storage

(2015) Qi-Long Zhu et al.   Energy & Environmental Science

Synthesis of nanoporous PdAg nanoalloy for hydrogen generation from formic acid at room temperature

(2015) Kaustab Mandal et al.   INTERNATIONAL JOURNAL OF HYDROGEN ENERGY

Immobilizing Highly Catalytically Active Noble Metal Nanoparticles on Reduced Graphene Oxide: A Non-Noble Metal Sacrificial Approach

(2015) Yao Chen et al.   JOURNAL OF THE AMERICAN CHEMICAL SOCIETY

Diamine-Alkalized Reduced Graphene Oxide: Immobilization of Sub-2 nm Palladium Nanoparticles and Optimization of Catalytic Activity for Dehydrogenation of Formic Acid

(2015) Fu-Zhan Song et al.   ACS Catalysis

AuPd-MnOx/MOF-Graphene: An Efficient Catalyst for Hydrogen Production from Formic Acid at Room Temperature

(2015) Jun-Min Yan et al.   Advanced Energy Materials

Efficient hydrogen production from formic acid using TiO2-supported AgPd@Pd nanocatalysts

(2015) Masashi Hattori et al.   Journal of Materials Chemistry A

Facile synthesis of AgAuPd/graphene with high performance for hydrogen generation from formic acid

(2015) Si-jia Li et al.   Journal of Materials Chemistry A

An Aqueous Rechargeable Formate-Based Hydrogen Battery Driven by Heterogeneous Pd Catalysis

(2014) Qing-Yuan Bi et al.   ANGEWANDTE CHEMIE-INTERNATIONAL EDITION

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

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

Hydrogen generation from formic acid decomposition at room temperature using a NiAuPd alloy nanocatalyst

(2014) Zhi-Li Wang et al.   INTERNATIONAL JOURNAL OF HYDROGEN ENERGY

Catalysis on nanoporous gold–silver systems: Synergistic effects toward oxidation reactions and influence of the surface composition

(2014) Thierry Déronzier et al.   JOURNAL OF CATALYSIS

An Efficient CoAuPd/C Catalyst for Hydrogen Generation from Formic Acid at Room Temperature

(2013) Zhi-Li Wang et al.   ANGEWANDTE CHEMIE-INTERNATIONAL EDITION

Hydrogen storage: beyond conventional methods

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

Hydrogen Production by Dehydrogenation of Formic Acid on Atomically Dispersed Gold on Ceria

(2013) Nan Yi et al.   ChemSusChem

Sodium hydroxide-assisted growth of uniform Pd nanoparticles on nanoporous carbon MSC-30 for efficient and complete dehydrogenation of formic acid under ambient conditions

(2013) Qi-Long Zhu et al.   Chemical Science

Pd and Pd–Ag Nanoparticles within a Macroreticular Basic Resin: An Efficient Catalyst for Hydrogen Production from Formic Acid Decomposition

(2013) Kohsuke Mori et al.   ACS Catalysis

Au@Pd core–shell nanoclusters growing on nitrogen-doped mildly reduced graphene oxide with enhanced catalytic performance for hydrogen generation from formic acid

(2013) Zhi-Li Wang et al.   Journal of Materials Chemistry A

Improved hydrogen production from formic acid on a Pd/C catalyst doped by potassium

(2012) Dmitri A. Bulushev et al.   CHEMICAL COMMUNICATIONS

Towards the development of a hydrogen battery

(2012) Albert Boddien et al.   Energy & Environmental Science

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

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

Liquid-phase chemical hydrogen storage materials

(2012) Mahendra Yadav et al.   Energy & Environmental Science

Efficient Subnanometric Gold-Catalyzed Hydrogen Generation via Formic Acid Decomposition under Ambient Conditions

(2012) Qing-Yuan Bi et al.   JOURNAL OF THE AMERICAN CHEMICAL SOCIETY

Synergistic Catalysis of Metal–Organic Framework-Immobilized Au–Pd Nanoparticles in Dehydrogenation of Formic Acid for Chemical Hydrogen Storage

(2011) Xiaojun Gu et al.   JOURNAL OF THE AMERICAN CHEMICAL SOCIETY

Keeping out the oxygen

(2011) Petra E. de Jongh   NATURE MATERIALS

Hydrogen production from formic acid decomposition at room temperature using a Ag–Pd core–shell nanocatalyst

(2011) Karaked Tedsree et al.   Nature Nanotechnology

Efficient Dehydrogenation of Formic Acid Using an Iron Catalyst

(2011) A. Boddien et al.   SCIENCE

Hydrogen from formic acid decomposition over Pd and Au catalysts

(2010) Dmitri A. Bulushev et al.   CATALYSIS TODAY

Unusually Large Tunneling Effect on Highly Efficient Generation of Hydrogen and Hydrogen Isotopes in pH-Selective Decomposition of Formic Acid Catalyzed by a Heterodinuclear Iridium−Ruthenium Complex in Water

(2010) Shunichi Fukuzumi et al.   JOURNAL OF THE AMERICAN CHEMICAL SOCIETY

Iron-Catalyzed Hydrogen Production from Formic Acid

(2010) Albert Boddien et al.   JOURNAL OF THE AMERICAN CHEMICAL SOCIETY

Stable dispersions of graphene and highly conducting graphene films: a new approach to creating colloids of graphene monolayers

(2009) Yao Chen et al.   CHEMICAL COMMUNICATIONS

The chemistry of graphene oxide

(2009) Daniel R. Dreyer et al.   CHEMICAL SOCIETY REVIEWS

Highly efficient hydrogen evolution by decomposition of formic acid using an iridium catalyst with 4,4′-dihydroxy-2,2′-bipyridine

(2009) Yuichiro Himeda   GREEN CHEMISTRY

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

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

High-quality hydrogen from the catalyzed decomposition of formic acid by Pd–Au/C and Pd–Ag/C

(2008) Xiaochun Zhou et al.   CHEMICAL COMMUNICATIONS