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Doris Wedlich
Head of Division
Prof. Dr. Doris Wedlich

Campus South
Tuesday, Thursday, Friday
Bldg.    10.11, Room 114
Phone: +49 721 608 43990

Campus North
Monday, Wednesday
Bldg.    433, Room 109
Phone: +49 721 608 28661

 

Mail doris wedlichEiq3∂kit edu

Foto S. Fuhr
Administrative Assistant
Sabine Fuhr

Campus South
Tuesday, Thursday, Friday
Bldg.    10.11, Room 113
Phone: +49 721 608 43991

Campus North
Monday, Wednesday
Bldg.    433, Room 111
Phone: +49 721 608 26081

Mail: sabine fuhrCqt3∂kit edu


Ruth Schwartländer
Manager Processes
Dr. Ruth Schwartländer

Campus South
Bldg.    10.11, Room 112
Phone: +49 721 608 41061

Mail: ruth schwartlaenderUkb0∂kit edu

 

Dr. Christian Röthig
Manager Resources
Dr. Christian Röthig

Campus North,
Bldg.    433, Room 112
Phone: +49 721 608 26068

Campus South
Bldg.    10.11, Room 112
Phone: +49 721 608 41060

Mail: christian roethigCxk9∂kit edu

Andreas Martin
Officer
Andreas Martin

Campus North
Bldg.    433, Room 120
Phone: +49 721 608 26283

Mail: andreas martinGuf4∂kit edu

Officer

Nadja Lodes

 

Campus South
Bldg.    10.11, Room 112
Phone: +49 721 608 41061

Mail: nadja lodesZmf3∂kit edu

Division I - Biology, Chemistry, and Process Engineering

Division I comprises twenty KIT institutes, the KIT Department of Chemistry and Biosciences and the KIT Department of Chemical and Process Engineering as well as the Helmholtz Programme BioInterfaces in Technology and Medicine.

 

Since January 1, 2014, Professor Dr. Doris Wedlich has been Head of Division I.

 

NEWS

Direktorat der Nationalen Forschungsdateninfrastruktur wird in Karlsruhe angesiedelt

Gemeinsame Bewerbung von KIT und FIZ Karlsruhe im Interessenbekundungsverfahren der Gemeinsamen Wissenschaftskonferenz erfolgreich.

In der Nationalen Forschungsdateninfrastruktur (NFDI) sollen die wertvollen Datenbestände von Wissenschaft und Forschung für das gesamte deutsche Wissenschaftssystem systematisch erschlossen, vernetzt und nutzbar gemacht werden. Bislang sind sie zumeist dezentral, projektbezogen oder auf Zeit verfügbar. Bund und Länder werden die NFDI gemeinsam fördern und mit diesem digitalen Wissensspeicher eine unverzichtbare Voraussetzung für neue Forschungsfragen, Erkenntnisse und Innovationen schaffen. Die Gemeinsame Wissenschaftskonferenz (GWK) hat nun beschlossen, das Direktorat der NFDI in Karlsruhe anzusiedeln, sowie das Karlsruher Institut für Technologie (KIT) und das FIZ Karlsruhe mit den Aufgaben zu betrauen, die in der komplexen Gründungsphase anstehen.

 

Mehr Informationen zu "Direktorat der Nationalen Forschungsdateninfrastruktur wird in Karlsruhe angesiedelt"
“Crowd oil” instead of “crude oil”: building-integrated compact plants for the decentralized production of liquid fuels could cover a large part of the demand (Graphic: Nature Communications)
Crowd Oil – Fuels From Air-conditioning Systems

Researchers Want to Use Air-conditioning and Ventilation Systems for Decentralized Production of Carbon-neutral Synthetic Fuels – Publication in Nature Communications.

Researchers at the Karlsruhe Institute of Technology (KIT) and the University of Toronto have proposed a method enabling air conditioning and ventilation systems to produce synthetic fuels from carbon dioxide (CO2) and water from the ambient air. Compact plants are to separate CO2 from the ambient air directly in buildings and produce synthetic hydrocarbons which can then be used as renewable synthetic oil. The team now presents this "crowd oil" concept in Nature Communications. (DOI: 10,1038/s41467-019-09685-x).

 

More information about Crowd Oil – Fuels From Air-conditioning Systems
rof. Stefano Passerini and Hyein Moon assemble a sodium ion battery in a glove box. (Foto: Amadeus Bramsiepe, KIT)
Sodium-Ion Batteries: from Materials Development to Technology Innovation

Within the TRANSITION Project, KIT, HIU and partners will develop powerful Sodium-ion battery prototypes for future application in electro-mobility and stationary energy storage.

To provide an environmentally friendly, cost-effective and high-performing alternative to lithium-ion batteries – that’s the goal for the next generation of sodium-ion batteries. The technically relevant active materials and electrolytes are currently being designed and optimized by scientists of the Helmholtz Institute Ulm (HIU) of the Karlsruhe Institute of Technology, the Center for Solar Energy and Hydrogen Research Baden-Württemberg (ZSW) and the Friedrich-Schiller-University Jena (FSU). Within the TRANSITION project, they are developing solutions to ensure the technology transfer of sodium-ion batteries to the industrial level, making a significant contribution to a more sustainable energy storage market in Germany. The project is funded by the German Federal Ministry of Education and Research (BMBF) with EUR 1.15 million for a duration of three years.

More information about "Sodium-Ion Batteries: from Materials Development to Technology Innovation"
 
Storing energy from renewable sources – this is one of the challenges associated with the energy transition. (Photo: Pascal Armbruster, KIT)
Chemical Storage of Renewable Energies

KIT Coordinates Germany-wide DFG Priority Program – Investigation of Catalytic Systems under Fluctuating Operation Conditions When Using Wind and Solar Energy.

In 2050, 80% of the electric power in Germany has to be based on renewable resources. To reach this goal, it is required to store electric power in the form of chemical energy carriers. Within the priority program “Catalysts and Reactors under Dynamic Conditions for Energy Storage and Conversion” (SPP 2080, DynaKat) funded by the German Research Foundation (DFG), twelve big research consortia study how catalytic reaction systems behave under such conditions. The priority program is coordinated by Karlsruhe Institute of Technology (KIT).

More Information about "Chemical Storage of Renewable Energies"
 
17 science and industry institutions from eight countries cooperate under the EU-funded Si-DRIVE project. (Graphics: Si-DRIVE)
Chemical Storage of Renewable Energies

Within the Si-DRIVE European Research Project, KIT, HIU, and Partners Will Develop Innovative Solutions – Their Goal Is to Establish a European Lithium-ion Battery Production.

Scientists of the Helmholtz Institute Ulm (HIU) founded by Karlsruhe Institute of Technology (KIT) and their European cooperation partners are developing a sustainable cell concept that is exclusively based on ecologically and economically uncritical materials. Within the Si-DRIVE project, the consortium analyzes the complete value-added chain of a battery and plans to establish European production by 2030. The project is funded by the European Union (EU) with EUR 8 million. The project duration is four years.

More Information about "Chemical Storage of Renewable Energies"
Eggshells consist of porous calcium carbonate that is highly suited for use in electrochemical storage systems. (Photo: Manuel Balzer, KIT)
Storing Energy with Eggshells

For the First Time, a Research Group Successfully Uses Eggshells as Electrode for Energy Storage.

Biowaste in the form of chicken eggshells has proved to be very effective for energy storage. This finding was made by an international team of researchers, including scientists of the Helmholtz Institute Ulm (HIU) established by Karlsruhe Institute of Technology (KIT). In the journal Dalton Transactions of the Royal Society of Chemistry, they present the sustainable storage material that might be used in a low-cost lithium-ion capacitor. (DOI: 10.1039/c8dt03252a)

More information about "Storing Energy with Eggshells"