prof. UAM dr hab. Mikołaj Pochylski
Zainteresowania naukowe
- Dynamika i struktura materii miękkiej (ciecze przechłodzone i szkliwa, układy samo-organizujące)
- Płyny w zewnętrznych polach fizycznych (magnetycznie i elektrycznie indukowana orientacja, elektro-reologia)
- Optyczne metody eksperymentalne (rozpraszanie światła, polarymetria, mikroskopia)
Współpraca z zagranicznymi ośrodkami naukowymi
- Institute for Physico-Chemical Processes, National Council of Science (CNR), Messina, Italy
- Institute for Nanostuctured Materials, National Council of Science (CNR), Rome, Italy
Wykształcenie
- 1996: Zespół Szkół Elektrycznych nr2, ul. Świt 25 (Elektromechanik urządzeń przemysłowych)
- 2001: Magister Fizyki, Wydział Fizyki UAM
- 2006: Doktor Fizyki, Wydział Fizyki UAM
- 2017: Doktor habilitowany, Wydział Fizyki UAM
Inne informacje
- Skarbnik Oddziału poznańskiego Polskiego Towarzystwa Fizycznego
- Certyfikowany programista LabVIEW, Certified LabVIEW Associate Developer (CLAD), 2010
2019
Pochylski, Mikołaj; Gapiński, Jacek; Wojnarowska, Z; Paluch, M; Patkowski, Adam
Nature of intramolecular dynamics in protic ionic glass-former: insight from ambient and high pressure Brillouin spectroscopy Journal Article
In: Journal of Molecular Liquids, vol. 282, pp. 51 - 56, 2019, ISSN: 0167-7322.
Abstract | Links | BibTeX | Tagi: Brillouin scattering, High pressure, Intramolecular dynamics, Ionic liquids
@article{POCHYLSKI201951,
title = {Nature of intramolecular dynamics in protic ionic glass-former: insight from ambient and high pressure Brillouin spectroscopy},
author = {Mikołaj Pochylski and Jacek Gapiński and Z Wojnarowska and M Paluch and Adam Patkowski},
url = {http://www.sciencedirect.com/science/article/pii/S0167732219302417},
doi = {https://doi.org/10.1016/j.molliq.2019.02.131},
issn = {0167-7322},
year = {2019},
date = {2019-01-01},
journal = {Journal of Molecular Liquids},
volume = {282},
pages = {51 - 56},
abstract = {Proton conducting materials play an important role in a variety of electrochemical devices. Especially, the class of protic ionic glass-formers with fast water-independent proton transport within the Grotthuss mechanism has been envisioned as promising fuel cell electrolytes. Nevertheless, despite a number of reports on protic ionic glasses the description of proton transport phenomenon in these systems is still incomplete. Herein, we employed the Brillouin scattering technique to investigate the intramolecular dynamics of acebutolol hydrochloride, protic ionic glass-former with isomerization ability. The studies performed at ambient and elevated pressure revealed the fast relaxation dynamics that may control the proton conductivity, especially at temperatures T < Tg where the vehicle mechanism contribution is negligible.},
keywords = {Brillouin scattering, High pressure, Intramolecular dynamics, Ionic liquids},
pubstate = {published},
tppubtype = {article}
}
Proton conducting materials play an important role in a variety of electrochemical devices. Especially, the class of protic ionic glass-formers with fast water-independent proton transport within the Grotthuss mechanism has been envisioned as promising fuel cell electrolytes. Nevertheless, despite a number of reports on protic ionic glasses the description of proton transport phenomenon in these systems is still incomplete. Herein, we employed the Brillouin scattering technique to investigate the intramolecular dynamics of acebutolol hydrochloride, protic ionic glass-former with isomerization ability. The studies performed at ambient and elevated pressure revealed the fast relaxation dynamics that may control the proton conductivity, especially at temperatures T < Tg where the vehicle mechanism contribution is negligible.