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Prof. Dr. Aliaksandr Bandarenka

Photo von Prof. Dr. Aliaksandr S. Bandarenka
Phone
+49 89 289-12531
Room
3093
E-Mail
bandarenka@ph.tum.de
Links
Homepage
Page in TUMonline
Group
Physics of Energy Conversion and Storage
Job Title
Professorship on Physics of Energy Conversion and Storage

Courses and Dates

Title and Module Assignment
ArtSWSLecturer(s)Dates
Energy Materials 1
eLearning course
Assigned to modules:
VO 2 Bandarenka, A. singular or moved dates
Experimental Physics for Chemical Engineering
eLearning course
Assigned to modules:
VO 3 Bandarenka, A.
Assisstants: Kressierer, J.
singular or moved dates
Electrified Solid/Liquid Interfaces: from Theory to Applications
Assigned to modules:
HS 1 Bandarenka, A. singular or moved dates
Energy Materials
Assigned to modules:
HS 1 Bandarenka, A. singular or moved dates
Exercise to Experimental Physics for Chemical Engineering
eLearning course
Assigned to modules:
UE 2
Responsible/Coordination: Bandarenka, A.
dates in groups
Electrified Interfaces and Catalysis
Assigned to modules:
SE 2 Bandarenka, A. singular or moved dates
FOPRA Experiment 22: Laser-Induced Current Transient Technique (AEP, KM)
course documents
Assigned to modules:
PR 1 Gubanova, E. Sadraoui, K.
Responsible/Coordination: Bandarenka, A.
FOPRA Experiment 30: Electrocatalysis (Alkaline Water Electrolysis) (AEP, KM)
Assigned to modules:
PR 1 Schneider, P.
Responsible/Coordination: Bandarenka, A.
FOPRA Experiment 101: Lithium-Ion Battery (AEP, KM)
course documents
Assigned to modules:
PR 1 Götz, R.
Responsible/Coordination: Bandarenka, A.
Revision Course to Electrified Solid/Liquid Interfaces: from Theory to Applications
Assigned to modules:
RE 2
Responsible/Coordination: Bandarenka, A.
Revision Course to Energy Materials
Assigned to modules:
RE 2
Responsible/Coordination: Bandarenka, A.

Offered Bachelor’s or Master’s Theses Topics

In-situ Electrochemical Electron Paramagnetic Resonance (EPR) Spectroscopy for Battery Systems
In this project, EPR spectroscopy will be used in combination with cyclic voltammetry and impedance spectroscopy for the characterization of electrified solid/solid and solid/liquid interfaces. As most issues of the so-called all-solid-state Li-ion batteries originate from the solid electrolyte-lithium interface, the changes of bulk and thin lithium metal anodes will be investigated. Further, within a solid/liquid system, the EPR will be applied to study the hydrogen evolution reaction (HER) mechanism on the Pt and/or Pd electrodes. The detection of paramagnetic intermediates by EPR in the electrolyte or at the surface of the catalyst will help to understand which intermediates are involved in the HER. The contact person is Dr. Elena Gubanova, e-mail: elena.gubanova@tum.de
suitable as
  • Master’s Thesis Applied and Engineering Physics
Supervisor: Aliaksandr Bandarenka
Top-down approach for the synthesis of shape controlled nanoparticles
The thesis focuses on the facile synthesis of nanoparticles (NPs) by electrochemical erosion of different materials. NP can be immobilized on a support for applications in electro- and heterogeneous catalysis. Our unique approach involves applying an alternating voltage to a metal substrate placed in an electrolyte. The “green” method uses no further chemicals and allows controlling shape and size of the NPs adjusting parameters such as applied potential, frequency and electrolyte composition. Different characterization techniques such as TGA, XPS, XRD, SEM etc. will be used for the investigation of prepared materials and performance tests will be conducted. The contact persons are Dr. Elena Gubanova (elena.gubanova@tum.de) and Christian Schott (christian.schott@tum.de).
suitable as
  • Master’s Thesis Applied and Engineering Physics
Supervisor: Aliaksandr Bandarenka
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