Didactic and Scientific Centre of Microelectronics and Nanotechnology
|
Michał Marchewka, PhD - Director of the Centre phone: 17 851 86 71 |
Conducting research in the field of low-dimensional structures based on III-V and II-VI compounds. In the case of III-V compounds, these are works related to the production of optically active elements in the infrared range from 3 to 15 µm. In the case of structures II-VI it is the implementation of tasks related to topological states in mixed HgCdTe compounds. |
|
Małgorzata Pociask-Biały, PhD, DSc, Associate Prof. phone: 17 851 86 64 |
Evolution processes of the defect structure in cadmium-mercury tellurides induced by ion etching. Application of a new method for studying the defect structure of HgCdTe using low-energy ion etching to modify the properties of HgCdTe, which enables the study and analysis of the relaxation of electrical parameters of HgCdTe. Research on photo- and thermoconversion of electromagnetic radiation in laboratory and natural conditions. Application of the method of studying the optical properties of nanostructured protective coatings of photovoltaic elements. Heat transport through various types of thermal insulation materials - research for the use in the photovoltaic and aviation industry. |
|
Ewa Bobko, PhD, Eng. phone: 17 851 86 82 |
Study of structures using the scanning electron microscope SEM. Nanopattering and nanolithography of structures (photolithography and electron lithography). |
|
Dariusz Płoch, PhD phone: 17 851 86 77 |
Electron-phonon interaction in semiconductor structures and crystals. Magnetic resonance observations in double quantum wells based on InGaAs / InAlAs. The use of strong impulsive magnetic fields in the study of galvanomagnetic phenomena. Fabrication of low-dimensional structures - quantum gates. Fabrication of quantum wires based on double quantum wells using electron nanolithography. The use of scanning electron microscopy (SEM) in materials engineering. |
|
Iwona Rogalska, PhD, Eng. phone: 17 851 86 79 |
The research is related to the technology of growth of semiconductor structures based on AIIIBV compounds using molecular beam epitaxy (MBE).The studies primarily focus on the production and characterization of the InSb semiconductor material for applications in detectors operating in the 3-5 µm range. In addition, the work is underway to design and create the superlattice structure of type II InAs / GaSb on GaSb substrates. |
|
Kamil Szmuc, PhD, Eng. phone: 17 851 87 43 |
- preparation of noble metal nanoparticles for catalytic applications, - synthesis of nano-objects with shape control, - funcionalisation of nanocomposites with biocidal properties, - analysis using SEM and S/TEM, FTIR and electrochemical measurement, - the use of infrared spectroscopy and microscopy (FPA) in medical diagnostics and evaluation of the effectiveness of the treatment process |
|
Renata Wojnarowska-Nowak, PhD phone: 17 851 86 76 |
The research is focused on: - plasmonic materials which allow for the effective generation of the SERS effect (Surface Enhanced Raman Scattering) and the possibility of its application in optical biosensors; production of bionanocomplexes on the basis of gold nanoparticles and selected biological particles and determine their properties; - analysis of the properties of nanomaterials (e.g. metallic nanoparticles, MBE-produced nanomaterials, semiconductor quantum dots) using spectroscopic methods - Raman spectroscopy, Fourier transform infrared spectroscopy (FTIR), photoluminescence, absorption spectroscopy in the UV-VIS range; - the use of spectroscopic methods in the study of biological objects. |
|
Małgorzata Trzyna-Sowa, PhD phone: 17 851 86 82 |
Compositional tests of a wide range of materials using the TOF SIMS method (Time-of-Flight Secondary Ion Mass Spectrometry ). |
|
Paweł Śliż, MSc phone: 17 851 86 78 |
Measurement of magneto transport properties of semiconductors at low and ultra-low temperatures in strong magnetic fields.
Designing of control and measurement systems and tools for the analysis of measurement data in the LabVIEW programming environment and Python language. |
|
Kinga Maś, MSc phone: 17 851 86 70 |
|
|
Dawid Jarosz, PhD, Eng. |
|
|
Jakub Grendysa, MSc, Eng. phone: 17 851 86 79 |
|
|
Piotr Krzemiński, MSc, Eng. phone: 17 851 86 83 |
|
|
Rafał Kuna, MSc phone: 17 851 86 75 |
|
|
Marta Ruszała, MSc, Eng. phone: 17 851 86 83 |
|