ORGANISATION/COMPANYRegional Centre of Advanced Technologies and Materials
RESEARCH FIELDChemistry › Physical chemistry
RESEARCHER PROFILERecognised Researcher (R2)
APPLICATION DEADLINE07/01/2017 22:00 - Europe/London
LOCATIONCzech Republic › Olomouc
TYPE OF CONTRACTPermanent
HOURS PER WEEK40
OFFER STARTING DATE31/01/2017
Prof. Dr. Patrik Schmuki (Friedrich-Alexander University, Erlangen and Palacky University in Olomouc) http://www.lko.uni-erlangen.de/People/schmuki.html)
and co-supervised by
Prof. Dr. Radek Zboril (Palacky University in Olomouc)
The Regional Centre of Advanced Technologies and Materials (RCPTM; www.rcptm.com) at Palacký University in Olomouc, Czech Republic, and the Institute for Surface Science and Corrosion at Friedrich-Alexander University, Erlangen, Germany (LKO, http://www.lko.uni-erlangen.de) announce the opening of a new postdoc position for scientists experienced in the fields of materials chemistry, nanomaterials, and (photo)electrochemistry.
We offer a stimulating environment, attractive salary, and a unique opportunity to join two well-known research groups with state-of-the-art instrumentation including plasma-assisted deposition methods (HiPIMS, PECVD), cryoHRTEM, AFM, UHV STM, SEM, SQUID, PPMS, XPS and advanced Raman spectroscopy, GDOES, in-field Mössbauer spectroscopy, NMR, fluorescence spectroscopy, and one of the best equipped electrochemical and photoelectrochemical laboratories in Europe.
PhD or equivalent in any field of Chemistry; good publication record, excellent oral and written English.
Chemistry - Physical chemistry – Materials chemistry - Nanotechnologies
Experienced researcher (4-10 yrs). Post-Doc position or Senior Researcher.
Recognized Researcher (R2)
The successful candidate will receive a one-year contract (which would be extended up to five-years in the case of positive annual evaluation) at Palacký University in Olomouc in the Czech Republic. As a part of the contract it is expected to spend extended visits at research group at LKO, Friedrich-Alexander University. This unique position is open immediately for qualified applicants. The expected beginning of the contract: January 1st.
Submit an application including a curriculum vitae and a list of publications to: firstname.lastname@example.org, email@example.com, and firstname.lastname@example.org. Arrange for a letter of recommendation to be sent directly to the same email addresses.
Screening of applicants will resume immediately. Selected applicants will be invited for an interview.
· S. Kment, P. Schmuki, Z. Hubicka, R. Zboril, et al., “Photoanodes with fully controllable texture: the enhanced water splitting efficiency of thin hematite films exhibiting solely (110) crystal orientation”, ACS NANO, 9 (20015) 7113-7123.
· H. Han, S. Kment, P. Schmuki, R. Zboril, et al., “α-Fe2O3/TiO2 3D Hierarchical Nanostructures for enhanced photoelectrochemical water splitting”, NANOSCALE (2016) DOI: 10.1039/C6NR06908H
· J. Tucek, K. C. Kemp, K. S. Kim, R. Zboril, “Iron-oxide-supported nanocarbon in lithium-ion batteries, medical, catalytic and environmental applications”, ACS NANO, 8 (2014) 7571-7612.
· S. Kment, P. Schmuki, E. Schubert, R. Zboril, “On the improvement of PEC activity of hematite thin films deposited by high-power pulsed magnetron sputtering method”, APPLIED CATALYSIS B: ENVIRONMENTAL, 165 (2015) 344-350.
· K. Sivula, R. Zboril, F. Le Formal, R. Rosa, A. Weidenkaff, J. Tucek, J. Frydrych, M. Graetzel, “Photoelectrochemical water splitting with mesoporous hematite prepared by a solution-based colloidal approach”, JOURNAL OF THE AMERICAN CHEMICAL SOCIETY, 132 (2010) 7436-7444.
· I. Cesar, K. Sivula, A. kay, R. Zboril, M. Graetzel, “Influence of feature size, film thickness, and silicon doping on the performance of nanostructures hematite photoanodes for solar water splitting”, JOURNAL OF PHYSICAL CHEMISTRY C, 113 (2009) 772-782.
· J. Frydrych, L. Machala, J. Tucek, K. Siskova, J. Filip, J. Pechousek, K. Safarova, M. Vondracek, J. H. Seo, O. Schneeweiss, M. Graetzel, K. Sivula, R. Zboril, “Facile fabrication of tin-doped hematite photoelectrodes – effect of doping on magnetic properties and performance for light-induced water splitting”, JOURNAL OF MATERIALS CHEMISTRY, 22 (2012) 23232-23239.
· K. Lee, A. Mazare, P. Schmuki, “One-dimensional titanium dioxide nanomaterials: nanotubes”, CHEMICAL REVIEWS, 114 (2014)
Required Research Experiences
YEARS OF RESEARCH EXPERIENCE4 - 10
REQUIRED EDUCATION LEVELChemistry: PhD or equivalent
REQUIRED LANGUAGESENGLISH: Excellent
The research program:
The research work of the photoelectrochemical group at RCPTM in Olomouc under the supervision of Prof. Schmuki is focused on the development, characterization, and testing the functional properties of advanced nano-heterostructures based on TiO2, Fe2O3, WO3, etc. combined with various hybrid counterparts (co-catalysts, multilayer assemblies, optical sensitization, etc.) for hydrogen generation via the solar water splitting.
The inorganic materials are primarily synthetized by state-of-the-art plasma-assisted deposition techniques involving high-power impulse magnetron sputtering (HiPIMS) and plasma enhanced chemical vapor deposition (PECVD) methods as well as chemical pathways such as hydrothermal growth, spray pyrolysis, doctor blading, etc.
Required experiences in some of these areas:
· Chemical growth of nanostructures – hydrothermal method, electrochemical anodization, electrodeposition, doctor blading;
· Surface chemistry – combination and coupling of various interactive heterogeneous partners (e.g. TiO2/carbon based materials, α-Fe2O3 / co-catalyst, multilayer assemblies, etc.);
· Understanding of advanced methods and results of nanomaterials characterization (HRTEM, TEM, XPS, XRD, Raman spectroscopy, EPR, GI-XRD);
· Advanced electrochemistry and photolectrochemistry (J-V characteristics, carrier lifetimes, transient spectroscopy, IPCE, APCE, electrochemical impedance spectroscopy, hydrogen evolution, etc.).
The applicant responsibilities:
· Controlled synthesis of inorganic nanostructured materials (mainly TiO2; α-Fe2O3, WO3, BiVO4, etc.) by aforementioned chemical procedures.
· Preparation of the inorganic nanostructures (nanotubes, nano- and meso-porous structures, nanowires) by means of electrochemical anodization of magnetron sputtered metal and alloy films;
· Synthesis/binding the counterparts towards hybrid nanostructures;
· Complex, crystallinity, morphology, chemical, optical and surface characterization of the hybrid nanostructures;
· Complex testing of photoinduced functionality of the prepared systems particularly by photoelectrochemistry and electrochemistry (J-V characteristics, carrier lifetimes, transient spectroscopy, IPCE, APCE, electrochemical impedance spectroscopy, hydrogen evolution, etc.).
EURAXESS offer ID: 161065
The responsibility for the jobs published on this website, including the job description, lies entirely with the publishing institutions. The application is handled uniquely by the employer, who is also fully responsible for the recruitment and selection processes.
Please contact email@example.com if you wish to download all jobs in XML.