Experimental and theoretical treatment of hydrogen splitting and storage in boron-nitrogen systems

Victor Sumerin; Felix Schulz; Martin Nieger; Michiko Atsumi; Cong Wang; Markku Leskelä; Pekka Pyykkö; Timo Repo; Bernhard Rieger

doi:10.1016/j.jorganchem.2009.03.023

Experimental and theoretical treatment of hydrogen splitting and storage in boron-nitrogen systems

Victor Sumerin
, Felix Schulz
, Martin Nieger
, Michiko Atsumi
, Cong Wang
, Markku Leskelä
, Pekka Pyykkö
, Timo Repo
, Bernhard Rieger

Wacker-Chair of Macromolecular Chemistry

Research output: Contribution to journal › Review article › peer-review

88 Scopus citations

Abstract

Hydrogen gas serves as a reducing agent and hydrogen atom source in numerous industrially important chemical processes and also has a great potential as a clean power source for fuel cells. In this respect, the reversible storage of hydrogen and the development of new metal-free hydrogenation catalysts are important tasks. Here, we review the recent literature, primarily on cases where the split H₂ forms an N-H⋯H-B dihydrogen bond. In these systems dihydrogen interaction was found to be the key actor in the hydrogen liberating process. Accordingly, the intramolecular ansa-aminoboranes (where B and N atoms are situated within each other's range) can reversibly activate hydrogen. Moreover, the theoretical studies of the hydrogen splitting by bulky Lewis acid-Lewis base systems are discussed.

Original language	English
Pages (from-to)	2654-2660
Number of pages	7
Journal	Journal of Organometallic Chemistry
Volume	694
Issue number	17
DOIs	https://doi.org/10.1016/j.jorganchem.2009.03.023
State	Published - 1 Aug 2009

Keywords

Activation
Boron
Hydrogen
Liberation
Nitrogen

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10.1016/j.jorganchem.2009.03.023

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title = "Experimental and theoretical treatment of hydrogen splitting and storage in boron-nitrogen systems",

abstract = "Hydrogen gas serves as a reducing agent and hydrogen atom source in numerous industrially important chemical processes and also has a great potential as a clean power source for fuel cells. In this respect, the reversible storage of hydrogen and the development of new metal-free hydrogenation catalysts are important tasks. Here, we review the recent literature, primarily on cases where the split H2 forms an N-H⋯H-B dihydrogen bond. In these systems dihydrogen interaction was found to be the key actor in the hydrogen liberating process. Accordingly, the intramolecular ansa-aminoboranes (where B and N atoms are situated within each other's range) can reversibly activate hydrogen. Moreover, the theoretical studies of the hydrogen splitting by bulky Lewis acid-Lewis base systems are discussed.",

keywords = "Activation, Boron, Hydrogen, Liberation, Nitrogen",

author = "Victor Sumerin and Felix Schulz and Martin Nieger and Michiko Atsumi and Cong Wang and Markku Leskel{\"a} and Pekka Pyykk{\"o} and Timo Repo and Bernhard Rieger",

note = "Funding Information: Support was provided by the DAAD (D/05/51658), Academy of Finland (123248), the Finnish CoE of Computational Molecular Science, Magnus Ehrnrooth Foundation (C.W.), Academy of Finland, and JSPS (M.A.). CSC, Espoo provided computing resources.",

year = "2009",

month = aug,

day = "1",

doi = "10.1016/j.jorganchem.2009.03.023",

language = "English",

volume = "694",

pages = "2654--2660",

journal = "Journal of Organometallic Chemistry",

issn = "0022-328X",

publisher = "Elsevier B.V.",

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TY - JOUR

T1 - Experimental and theoretical treatment of hydrogen splitting and storage in boron-nitrogen systems

AU - Sumerin, Victor

AU - Schulz, Felix

AU - Nieger, Martin

AU - Atsumi, Michiko

AU - Wang, Cong

AU - Leskelä, Markku

AU - Pyykkö, Pekka

AU - Repo, Timo

AU - Rieger, Bernhard

N1 - Funding Information: Support was provided by the DAAD (D/05/51658), Academy of Finland (123248), the Finnish CoE of Computational Molecular Science, Magnus Ehrnrooth Foundation (C.W.), Academy of Finland, and JSPS (M.A.). CSC, Espoo provided computing resources.

PY - 2009/8/1

Y1 - 2009/8/1

N2 - Hydrogen gas serves as a reducing agent and hydrogen atom source in numerous industrially important chemical processes and also has a great potential as a clean power source for fuel cells. In this respect, the reversible storage of hydrogen and the development of new metal-free hydrogenation catalysts are important tasks. Here, we review the recent literature, primarily on cases where the split H2 forms an N-H⋯H-B dihydrogen bond. In these systems dihydrogen interaction was found to be the key actor in the hydrogen liberating process. Accordingly, the intramolecular ansa-aminoboranes (where B and N atoms are situated within each other's range) can reversibly activate hydrogen. Moreover, the theoretical studies of the hydrogen splitting by bulky Lewis acid-Lewis base systems are discussed.

AB - Hydrogen gas serves as a reducing agent and hydrogen atom source in numerous industrially important chemical processes and also has a great potential as a clean power source for fuel cells. In this respect, the reversible storage of hydrogen and the development of new metal-free hydrogenation catalysts are important tasks. Here, we review the recent literature, primarily on cases where the split H2 forms an N-H⋯H-B dihydrogen bond. In these systems dihydrogen interaction was found to be the key actor in the hydrogen liberating process. Accordingly, the intramolecular ansa-aminoboranes (where B and N atoms are situated within each other's range) can reversibly activate hydrogen. Moreover, the theoretical studies of the hydrogen splitting by bulky Lewis acid-Lewis base systems are discussed.

KW - Activation

KW - Boron

KW - Hydrogen

KW - Liberation

KW - Nitrogen

UR - https://www.scopus.com/pages/publications/67650095482

U2 - 10.1016/j.jorganchem.2009.03.023

DO - 10.1016/j.jorganchem.2009.03.023

M3 - Review article

AN - SCOPUS:67650095482

SN - 0022-328X

VL - 694

SP - 2654

EP - 2660

JO - Journal of Organometallic Chemistry

JF - Journal of Organometallic Chemistry

IS - 17

ER -

Experimental and theoretical treatment of hydrogen splitting and storage in boron-nitrogen systems

Abstract

Keywords

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