HZB Newsroom

  • The future of BESSY
    News
    07.03.2024
    The future of BESSY
    At the end of February 2024, a team at HZB published an article in Synchrotron Radiation News (SRN). They describe the next development goals for the light source as well as the BESSY II+ upgrade programme and the successor source BESSY III.

  • ERC Consolidator Grant for HZB researcher Robert Seidel
    News
    04.03.2024
    ERC Consolidator Grant for HZB researcher Robert Seidel
    Physicist Dr Robert Seidel has been awarded a Consolidator Grant by the European Research Council (ERC). Over the next five years, he will receive a total of two million euros for his research project WATER-X. Seidel will use state-of-the-art X-ray techniques at BESSY II to study nanoparticles in aqueous solution for the photocatalytic production of "green" hydrogen.
  • Green hydrogen: Perovskite oxide catalysts analysed in an X-ray beam
    Science Highlight
    21.12.2023
    Green hydrogen: Perovskite oxide catalysts analysed in an X-ray beam
    The production of green hydrogen requires catalysts that control the process of splitting water into oxygen and hydrogen. However, the structure of the catalyst changes under electrical tension, which also influences the catalytic activity. A team from the universities of Duisburg-Essen and Twente has investigated at BESSY II and elsewhere how the transformation of surfaces in perovskite oxide catalysts controls the activity of the oxygen evolution reaction. 
  • Green hydrogen: Improving iridium catalysts with titanium oxides
    Science Highlight
    13.12.2023
    Green hydrogen: Improving iridium catalysts with titanium oxides
    Anodes for the electrolytic splitting of water are usually iridium-based materials. In order to increase the stability of the iridium catalyst, a team at HZB and a group at HI-ERN have now produced a so-called material library: a sample in which the concentration of iridium and titanium oxides is systematically varied. Analyses of the individual sample segments at BESSY II in the EMIL laboratory showed that the presence of titanium oxides can increase the stability of the iridium catalyst significantly.
  • Curious Mind Award for Michelle Browne
    News
    23.10.2023
    Curious Mind Award for Michelle Browne
    On Thursday, 12 October 2023, Michelle Browne received a prestigious award in Hamburg: The "Curious Mind Award" in the category "Mobility, Energy and Sustainable Business" by manager magazin. 
  • Green hydrogen could reach economic viability by co-production of valuable chemicals
    Science Highlight
    09.10.2023
    Green hydrogen could reach economic viability by co-production of valuable chemicals
    It already works: there are several approaches to using solar energy to split water and produce hydrogen. Unfortunately, this green hydrogen has so far been more expensive than grey hydrogen from natural gas. A study by Helmholtz-Zentrum Berlin (HZB) and Technische Universität Berlin now shows how green hydrogen from sunlight can become profitable.
  • Solar hydrogen: Barriers for charge transport in metal oxides
    Science Highlight
    12.07.2023
    Solar hydrogen: Barriers for charge transport in metal oxides
    In theory, metal oxides are ideally suited as photoelectrodes for the direct generation of hydrogen with sunlight. Now, for the first time, a team at Helmholtz-Zentrum Berlin has succeeded in determining the transport properties of the charge carriers in different metal oxides over a time range of nine orders of magnitude.
  • BESSY II: What drives ions through polymer membranes
    Science Highlight
    05.07.2023
    BESSY II: What drives ions through polymer membranes
    Photoelectrolysers and electrolysis cells can produce green hydrogen or fossil-free carbon compounds – but they require ion-exchange membranes. An HZB team has now studied the transport of ions through the membrane in a hybrid liquid gas electrolyzer at the X-ray source BESSY II. Contrary to expectations, however, concentration differences hardly drive electric field ions. Diffusion is therefore the decisive process. This finding could help in the development of highly efficient and significantly more environmentally friendly membrane materials.
  • Alexander von Humboldt Foundation Grant for Dr. Jie Wei
    News
    16.05.2023
    Alexander von Humboldt Foundation Grant for Dr. Jie Wei
    In April, Dr. Jie Wei started his research work in the Helmholtz Young Investigator Group Nanoscale Operando CO2 Photo-Electrocatalysis at Helmholtz-Zentrum Berlin (HZB) and Fritz Haber Institute (FHI) of the Max Planck Society. Wei received one of the highly competitive Humboldt postdoctoral research fellowships and will pursue his two-year project under the guidance of the academic hosts Dr. Christopher Kley and Prof. Dr. Beatriz Roldan Cuenya.
  • Green hydrogen: How photoelectrochemical water splitting may become competitive
    Science Highlight
    20.03.2023
    Green hydrogen: How photoelectrochemical water splitting may become competitive
    Sunlight can be used to produce green hydrogen directly from water in photoelectrochemical (PEC) cells. So far, systems based on this "direct approach" have not been energetically competitive. However, the balance changes as soon as some of the hydrogen in such PEC cells is used in-situ for a catalytic hydrogenation reaction, resulting in the co-production of chemicals used in the chemical and pharmaceutical industries. The energy payback time of photoelectrochemical "green" hydrogen production can be reduced dramatically, the study shows.
  • TU Berlin appoints Renske van der Veen as professor
    News
    22.02.2023
    TU Berlin appoints Renske van der Veen as professor
    For the past two years, Dr Renske van der Veen has led a research group in time-resolved X-ray spectroscopy and electron microscopy at HZB. Her research focuses on catalytic processes that enable, for example, the production of green hydrogen. She has now been appointed to a S-W2 professorship at the Institute of Optics and Atomic Physics (IOAP) at the Technische Universität Berlin.
  • Electrocatalysis – Iron and Cobalt Oxyhydroxides examined at BESSY II
    Science Highlight
    16.02.2023
    Electrocatalysis – Iron and Cobalt Oxyhydroxides examined at BESSY II
    A team led by Dr. Prashanth W. Menezes (HZB/TU-Berlin) has now gained insights into the chemistry of one of the most active anode catalysts for green hydrogen production. They examined a series of Cobalt-Iron Oxyhydroxides at BESSY II and were able to determine the oxidation states of the active elements in different configurations as well as to unveil the geometrical structure of the active sites. Their results might contribute to the knowledge based design of new highly efficient and low cost catalytical active materials.
  • Recommended reading: Bunsen magazine with focus on molecular water research
    News
    13.01.2023
    Recommended reading: Bunsen magazine with focus on molecular water research
    Water not only has some well-known anomalies, but is still full of surprises. The first issue 2023 of the Bunsen Magazine is dedicated to molecular water research, from the ocean to processes in electrolysis. The issue presents contributions from researchers cooperating within the framework of a European research initiative in the "Centre for Molecular Water Science" (CMWS). A team at HZB presents results from the synchrotron spectroscopy of water. Modern X-ray sources can be used to study molecular and electronic processes in water in detail.
  • How photoelectrodes change in contact with water
    Science Highlight
    17.11.2022
    How photoelectrodes change in contact with water
    Photoelectrodes based on BiVO4 are considered top candidates for solar hydrogen production. But what exactly happens when they come into contact with water molecules? A study in the Journal of the American Chemical Society has now partially answered this crucial question:  Excess electrons from dopants or defects aid the dissociation of water which in turn stabilizes so-called polarons at the surface. This is shown by data from experiments conducted at the Advanced Light Source at Lawrence Berkeley National Laboratory. These insights might foster a knowledge-based design of better photoanodes for green hydrogen production.
  • Photocatalysis: Processes in charge separation recorded experimentally
    Science Highlight
    08.11.2022
    Photocatalysis: Processes in charge separation recorded experimentally
    Certain metal oxides are considered good candidates for photocatalysts to produce green hydrogen with sunlight. A Chinese team has now published exciting results on copper(I) oxide particles in Nature, to which a method developed at HZB contributed significantly. Transient surface photovoltage spectroscopy showed that positive charge carriers on surfaces are trapped by defects in the course of microseconds. The results provide clues to increase the efficiency of photocatalysts.

  • Federal science minister in Berlin-Adlershof
    News
    25.10.2022
    Federal science minister in Berlin-Adlershof
    The Federal Minister for Education and Research, Bettina Stark-Watzinger, was in Berlin-Adlershof today to visit the Catalysis Laboratory (CatLab). CatLab is a research platform of Helmholtz-Zentrum Berlin and the Max Planck Society, dedicated to catalysis research that will deliver important innovations for achieving a green hydrogen economy. Upon her visit to the CatLab, the minister gained an insight into the latest technological advancements on producing and characterising thin-film catalysts and special methods for operando analytics and digital catalysis.
  • “The market itself will push this issue” - Interview on the role of synthetic kerosene for aviation
    Interview
    21.10.2022
    “The market itself will push this issue” - Interview on the role of synthetic kerosene for aviation
    In the research consortium CARE-O-SENE, scientists are looking for more efficient ways to produce synthetic kerosene for use in aviation. We interviewed Tobias Sontheimer of HZB and Dirk Schär of the participating company Sasol about what has to be done, what obstacles there are, and how aviation can be decarbonised.
  • Green hydrogen: faster progress with modern X-ray sources
    Science Highlight
    07.10.2022
    Green hydrogen: faster progress with modern X-ray sources
    In order to produce green hydrogen, water can be split up via electrocatalysis, powered by renewable sources such as sun or wind. A review article in the journal Angewandte Chemie Int. Ed. shows how modern X-ray sources such as BESSY II can advance the development of suitable electrocatalysts. In particular, X-ray absorption spectroscopy can be used to determine the active states of catalytically active materials for the oxygen evolution reaction. This is an important contribution to developing efficient catalysts from inexpensive and widely available elements.
  • For strong non-university research in Berlin
    News
    06.10.2022
    For strong non-university research in Berlin
    The non-university research institutions in Berlin will work even more closely together in the future. Their association Berlin Research 50 (BR50), founded in 2020, has joined forces to form a registered non-profit association on 4. October 2022. Together, the research institutions want to further develop and strengthen Berlin as a science location.

  • Green hydrogen: Nanostructured nickel silicide shines as a catalyst
    Science Highlight
    11.08.2022
    Green hydrogen: Nanostructured nickel silicide shines as a catalyst
    Electrical energy from wind or sun can be stored as chemical energy in hydrogen, an excellent fuel and energy carrier. The prerequisite for this, however, is efficient electrolysis of water with inexpensive catalysts. For the oxygen evolution reaction at the anode, nanostructured nickel silicide now promises a significant increase in efficiency. This was demonstrated by a group from the HZB, Technical University of Berlin and the Freie Universität Berlin as part of the CatLab research platform with measurements among others at BESSY II.
  • Young investigator research group on electrocatalysis at HZB
    News
    01.08.2022
    Young investigator research group on electrocatalysis at HZB
    Dr. Michelle Browne establishes her own young investigator group at the HZB . Starting in August, the group is co-funded by the Helmholtz Association for the next five years. The electrochemist from Ireland concentrates on electrolytically active novel material systems and wants to develop next-generation electrocatalysts, for example hydrogen production. At HZB she will find the perfect environment to conduct her research.
  • A high-ranking Brazilian delegation visited HZB
    News
    17.05.2022
    A high-ranking Brazilian delegation visited HZB
    On 16 May 2022, HZB received a delegation from the Brazilian Ministry of Science, Technology and Innovation (MCTI). Vice-Minister of Science Sergio Freitas de Almeida was visibly impressed by the many research activities being done at HZB to drive the transition to a climate-neutral energy supply in society forward.
  • Royal visit from Sweden at HZB
    News
    16.05.2022
    Royal visit from Sweden at HZB
    King Carl XVI Gustaf of Sweden as well as a group of business leaders from large corporations such as Ericsson, Nordholt, Vattenfall, ABB, Schneider Electric and Swedish representatives from the public sector and academia visited the Adlershof Technology Park on 11 May 2022.
  • Solar hydrogen: Better photoelectrodes through flash heating
    Science Highlight
    04.04.2022
    Solar hydrogen: Better photoelectrodes through flash heating
    Producing low-cost metal-oxide thin films with high electronic quality for solar water splitting is not an easy task. Especially since quality improvements of the upper metal oxide thin films need thermal processing at high temperatures, which would melt the underlying glass substrate. Now, a team at HZB-Institute for Solar Fuels has solved this dilemma: A high intensity and rapid light pulse directly heats the semiconducting metal-oxide thin film, allowing to achieve the optimal heating conditions without damaging the substrate.
  • Innovative catalysts: An expert review
    Science Highlight
    15.02.2022
    Innovative catalysts: An expert review
    Highly efficient (electro-)catalysts are essential for the production of green hydrogen, the chemical industry, fertiliser production and other sectors of the economy. In addition to transition metals, a variety of other metallic or non-metallic elements have now moved into the focus of research. In a review article, experts from CatLab and Technische Universität Berlin present an overview on current knowledge and a perspective on future research questions.
  • Friedrich-Alexander Universität Erlangen-Nürnberg appoints Olga Kasian
    News
    13.10.2021
    Friedrich-Alexander Universität Erlangen-Nürnberg appoints Olga Kasian
    Dr. Olga Kasian is investigating why catalysts for hydrogen production by water electrolysis are limited in efficiency. The chemist has now accepted a professorship at the Friedrich-Alexander-Universität Erlangen-Nürnberg (FAU). The W2 professorship is entitled "Materials for Electrochemical Energy Conversion" and is located at the Faculty of Engineering.

  • Green hydrogen: Why do certain catalysts improve in operation?
    Science Highlight
    09.08.2021
    Green hydrogen: Why do certain catalysts improve in operation?
    Crystalline cobalt arsenide is a catalyst that generates oxygen during electrolytic water splitting in the production of hydrogen. The material is considered to be a model system for an important group of catalysts whose performance increases under certain conditions in the course of electrolysis. Now a HZB-team headed by Marcel Risch has observed at BESSY II how two simultaneous mechanisms are responsible for this. The catalytic activity of the individual catalysis centres decreases in the course of electrolysis, but at the same time the morphology of the catalyst layer also changes. Under favourable conditions, considerably more catalysis centres come into contact with the electrolyte as a result, so that the overall performance of the catalyst increases.

  • Solar hydrogen for Antarctica - study shows advantages of thermally coupled approach
    Science Highlight
    02.07.2021
    Solar hydrogen for Antarctica - study shows advantages of thermally coupled approach
    A team from the Helmholtz-Zentrum Berlin, Ulm University, and Heidelberg University has now investigated how hydrogen can be produced at the South Pole using sunlight, and which method is the most promising. Their conclusion: in extremely cold regions, it can be considerably more efficient to attach the PV modules directly to the electrolyser, i.e. to thermally couple them. This is because the waste heat from the PV modules increases the efficiency of electrolysis in this environment. The results of this study, which has now been published in Energy & Environmental Science, are also relevant for other cold regions on Earth, such as Alaska, Canada, and high mountain regions, for example. In these places, solar hydrogen could replace fossil fuels such as oil and petrol.

  • CatLab - Starting signal for a new generation of catalysts
    News
    21.06.2021
    CatLab - Starting signal for a new generation of catalysts
    The Helmholtz-Zentrum Berlin (HZB) and the Max Planck Society (MPG) are launching CatLab, their new joint catalysis research centre in Berlin. The inauguration ceremony took place on June 21st in the presence of Dr. Stefan Kaufmann, the Innovation Officer for Green Hydrogen at the Federal Ministry of Education and Research (BMBF) and Member of the federal Bundestag. High-ranking representatives from science, government, and industry took part.
  • How quantum dots can "talk" to each other
    Science Highlight
    03.06.2021
    How quantum dots can "talk" to each other

    A group at HZB has worked out theoretically how the communication between two quantum dots can be influenced with light.  The team led by Annika Bande also shows ways to control the transfer of information or energy from one quantum dot to another. To this end, the researchers calculated the electronic structure of two nanocrystals, which act as quantum dots. With the results, the movement of electrons in quantum dots can be simulated in real time.

  • Green hydrogen: "Rust" as a photoanode and its limits
    Science Highlight
    19.04.2021
    Green hydrogen: "Rust" as a photoanode and its limits
    Metal oxides such as rust are intriguing photoelectrode materials for the production of green hydrogen with sunlight. They are cheap and abundant, but in spite of decades of research, progress has been limited. A team at HZB, together with partners from Ben Gurion University and the Technion, Israel, has now analysed the optoelectronic properties of rust (haematite) and other metal oxides in unprecedented detail. Their results show that the maximum achievable efficiency of haematite electrodes is significantly lower than previously assumed. The study demonstrates ways to assess new photoelectrode materials more realistically.

  • Instrument at BESSY II shows how light activates MoS2 layers to become catalysts
    Science Highlight
    05.03.2021
    Instrument at BESSY II shows how light activates MoS2 layers to become catalysts
    Thin films of molybdenum and sulfur belong to a class of materials that can be considered for use as photocatalysts. Inexpensive catalysts such as these are needed to produce hydrogen as a fuel using solar energy. However, they are still not very efficient as catalysts. A new instrument at the Helmholtz-Berlin Zentrum’s BESSY II now shows how a light pulse alters the surface properties of the thin film and activates the material as a catalyst.

  • Solar hydrogen: Photoanodes made of α-SnWO4 promise high efficiencies
    Science Highlight
    26.01.2021
    Solar hydrogen: Photoanodes made of α-SnWO4 promise high efficiencies
    Photoanodes made of metal oxides are considered to be a viable solution for the production of hydrogen with sunlight. α-SnWO4 has optimal electronic properties for photoelectrochemical water splitting with sunlight, but corrodes easily. Protective layers of nickel oxide prevent corrosion, but reduce the photovoltage and limit the efficiency. Now a team at HZB has investigated at BESSY II what happens at the interface between the photoanode and the protective layer. Combined with theoretical methods, the measurement data reveal the presence of an oxide layer that impairs the efficiency of the photoanode.


  • HZB and Humboldt University agree to set up a catalysis laboratory
    News
    25.01.2021
    HZB and Humboldt University agree to set up a catalysis laboratory
    Helmholtz-Zentrum Berlin (HZB) and Humboldt-Universität zu Berlin (HU) have signed a cooperation agreement with the aim of establishing a joint research laboratory for catalysis in the IRIS research building of HU in Adlershof. The IRIS research building offers optimal conditions for the research and development of complex material systems.

  • Architectural Design drafts for new CatLab Center awarded
    News
    07.12.2020
    Architectural Design drafts for new CatLab Center awarded
    An innovative laboratory and office building for catalysis research will be built in Berlin-Adlershof: CatLab is to become an international beacon for catalysis research and drive forward the development of novel catalyst materials, which are urgently required for the production of green hydrogen for the energy transition. In an architectural competition four winning designs have now been selected. All designs include climate friendly solutions.