Matthias Beller

Affiliations:

Leibniz Institute for Catalysis

Universität Rostock, Rostock, Mecklenburg-Vorpommern, Germany

Area:

Catalysis

Parents

Lutz Friedjan Tietze	grad student	1987-1989	Universität Göttingen
(Entwicklung und Anwendung neuer Methoden zur Synthese von Antitumormitteln und antiviraler Wirkstoffe)
K. Barry Sharpless	post-doc	1990	MIT

Children

Basker Sundararaju	research assistant	2009-2010	Leibniz Institut für Katalyse
Ivana Fleischer	grad student
Axel Jacobi von Wangelin	grad student		Leibniz Institute of Catalysis
Alonso Rosas-Hernández	grad student
Alexander Zapf	grad student	1999	Technische Universität München
Shoubhik Das	grad student	2008-2011	Universität Rostock
Xiao-Feng Wu	grad student	2009-2012	Zhejiang Sci-Tech University
Jie Liu	grad student	2014-2017	Universität Rostock
Ji Yang	grad student	2017-2020	University of Rostock
Alastair J. J. Lennox	post-doc		Leibniz institute for catalysis
ANIS Tlili	post-doc
Muhammad Zaheer	post-doc
Henrik Junge	post-doc	1998-1999	Universität Rostock
Franck Rataboul	post-doc	2003-2004	Leibniz institute for catalysis
Debasis Banerjee	post-doc	2011-2014	Leibniz institute for catalysis
Abhishek Dutta Chowdhury	post-doc	2013-2014	Leibniz institute for catalysis
Yuehui Li	post-doc	2011-2015	Leibniz institute for catalysis
Conghui Tang	post-doc	2016-2017	Leibniz institute for catalysis
Basudev Sahoo	post-doc	2015-2018	Leibniz institute for catalysis
Francesco Ferretti	post-doc	2017-2018	Leibniz institute for catalysis
Dinesh Nanaji Sawant	post-doc	2017-2018	Leibniz institute for catalysis
Ji Yang	post-doc	2020-2021	University of Rostock
Michael Karnahl	research scientist	2012-2014	Leibniz institute for catalysis

Collaborators

BETA: Related publications

Publications

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Sun K, Su T, Lu GP, et al. (2025) A Highly Dispersed Heterogeneous Cobalt Catalyst for Efficient Domino Hydroformylation Reductive Amination of Olefins. Angewandte Chemie (International Ed. in English). e202419370
Xue G, Jiao Y, Li X, et al. (2024) CO-tolerant heterogeneous ruthenium catalysts for efficient formic acid dehydrogenation. Angewandte Chemie (International Ed. in English). e202416530
Peng Y, Rabeah J, Junge H, et al. (2024) A Protocol for Unveiling the Nature of Photocatalytic Hydrogen Evolution Reactions: True Water Splitting or Sacrificial Reagent Acceptorless Dehydrogenation? Angewandte Chemie (International Ed. in English). e202408626
Moazezbarabadi A, Kammer A, Alberico E, et al. (2024) Amino Acid-Based Ionic Liquids-Aided CO Hydrogenation to Methanol. Chemsuschem. e202401813
Beller M, Peng Y, Sakoleva T, et al. (2024) State-of-the-Art Light-Driven Hydrogen Generation from Formic Acid and Utilization in Enzymatic Hydrogenations. Chemsuschem. e202401811
Shi Y, Luo B, Sang R, et al. (2024) Combination of nanoparticles with single-metal sites synergistically boosts co-catalyzed formic acid dehydrogenation. Nature Communications. 15: 8189
Sang R, Stein CAM, Schareina T, et al. (2024) Development of a practical formate/bicarbonate energy system. Nature Communications. 15: 7268
Ma Z, Kuloor C, Kreyenschulte C, et al. (2024) Development of iron-based single atom materials for general and efficient synthesis of amines. Angewandte Chemie (International Ed. in English). e202407859
Verspeek D, Ahrens S, Wen X, et al. (2024) A manganese-based catalyst system for general oxidation of unactivated olefins, alkanes, and alcohols. Organic & Biomolecular Chemistry
Terholsen H, Huerta-Zerón HD, Möller C, et al. (2024) Photocatalytic CO Reduction Using CO -Binding Enzymes. Angewandte Chemie (International Ed. in English). e202319313

Matthias Beller

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Parents

Children

Collaborators

Publications