Membership Application
1 - Your basic information
First name:
Middle name(s):
Last name:
Gender: femalemalediverseprefere not to mention
Date of Birth:
Country of Birth:
Nationality:
Office Adress (Street, number, room number):
Insititute:
Your FAU/work E-Mail:
Telephone number:
2 - Your Academic qualifications
Your highest academic qualification: Bachelor's degree or equivalentMasters's degree or equivalentDoctorate or equivalentnone
Your highest academic title (e.g. M.Sc., Dr.-Ing., Dr. rer. nat., Ph.D.):
Date of award of your highest academic qualification:
Subject of your highest qualification (e.g. Chemical Engineering, Mathematics, Physics etc):
Institution which awarded your highest academic qualification (incl. city, country):
3 - Your position Date of start of your doctoral/postdoctoral position:
How is your position funded? If you are unsure, please ask your supervisor/institute secretary! CRC 1452 fundsOther funds
If your position is supported by CRC 1452 funds, please specify when this funding will start and end (leave blank if end date not known) Start date: End date:
Please inform us which project(s) of CRC 1452 you are contributing to or which projects are closest to your own non-CRC 1452 research project. Details of the projects can be found on the CRC 1452 webpage. Select at least one project:
A01 Characterising the active site in liquid metal catalysts. Bär, PappA02 Picosecond dynamics of liquid metal catalysts in confinement. UnruhA03 Scale-bridging tomography and in situ microscopy of SCALMS. Felfer, SpieckerA04 Tuneable supports and geometry effects in SCALMS catalysis. BachmannA05 Textural properties and wetting behaviour of new SCALMS. ThommesA06 Enhancing poisoning resistance and catalyst stability in dehydrogenation reactions through SCALMS. Papp, WasserscheidB01 Task-specific ionic liquids and their Group 10 metal coordination complexes for interface-enhanced catalysis. MeyerB02 Functionalised metal complexes for tuning their surface enrichment and reactivity at ionic liquid interfaces. Ivanović-BurmazovićB03 Support design for enhanced catalytic activity of SILP systems. Inayat, VogelB04 Properties of the gas/liquid interface of interface-enhanced SILP systems. Koller, SteinrückB05 Solid-state NMR investigations of SILP-based catalysts. HartmannB06 Influencing SILP catalyst performance by the location of reaction. HaumannC01 SCILL with mono and bifunctional ionic liquids for selective hydrogenation reactions. WasserscheidC02 Surface and interface science studies of Advanced SCILL systems. SteinrückC03 Molecular interactions and reaction mechanisms in Advanced SCILLs: From ideal model experiments to real materials and operando studies. LibudaC04 Understanding surface modification and stability of Advanced SCILL. Mayrhofer, VirtanenC05 Advanced SCILLs in electrosynthesis: Understanding and tailoring selective hydrogenation and dehydrogenation at ionic liquid interfaces. Kasian, LibudaM01 Atomistic investigations of catalysis at liquid interfaces by density-functional calculations. GörlingM02 Multiscale modelling of SILP and SCILL catalysis. SmithM03 Molecular dynamics simulations of SCALMS, SCILL and SILP: Specific interactions, cooperative effects, self-organisation, and catalytic mechanisms. ZahnM04 Mesoscale simulation of wetting dynamics and interface reactivity. Harting
Please complement your application with a short (max. 2 page) CV listing your educational and vocational history and your key skills
Students and Doctoral candidates should provide a transcript of records from the bachelor’s and master’s degrees, as appropriate.
Include, where available, a list of up to 5 publications most relevant to CRC CLINT 1452.
