(in Polish) Microscopic Methods in Chemical Analysis 310-ERS-PDWXI-2
study profile – general
form of study – stationary
type of course – obligatory
Field: exact and natural sciences, discipline: chemical sciences
year -3.
Entrance requirements - non
Number of hours - 30 , lecture -15, labor - 15
Teaching methods – conversational lecture, lecture with elements activating students, moderated discussion, student presentations, case study,
ECTS points – 3
Student workload balance:
hours ECT3
Overall student workload 75,0 3,0
classes 15,0 0,6
other activity 15,0 0,6
Preparing for classes 41,3 1,7
examination 3,8 0,2
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Term 2023:
The student learns the basic nomenclature used in modern microscopy (scanning microscopy, scanning probe microscopy, electron microscopy, TEM, SEM, STM, AFM, SNOM, etc). Students get acquainted theoretically and experimentally with individual types of microscopes. The student acquires theoretical knowledge of how to use modern microscopes. They get familiar theoretically with a variety of measurement techniques used in working with specific microscopes. The listener learns about selected applications of each type of microscopy. |
Mode
Prerequisites (description)
Course coordinators
Type of course
Learning outcomes
KP6_WG12 - explains the basics of the construction and operation of research equipment with particular emphasis on microscopy - mikroscops
KP6_UW5 prepares in writing a well-documented study of selected chemical problems in aspect of microscopic methods
KP6_KO1 - interested in the basic chemical processes taking place in the environment
Assessment criteria
Written exam in the form of project with presentation and discussion
Bibliography
1. „Magnetic microscopy of nanostructures” H. Hopster, H.P. Oepen Springer 2005
2. "Introduction to electron microscopy" Andres Kaech 2013
3. "Transmission Electron Microscopy: A Textbook for Materials Science", D.B. Williams and C.B. Carter, 2009
4. "INTRODUCTION INTO TRANSMISSION AND SCANNING TRANSMISSION
ELECTRON MICROSCOPY", FRANK KRUMEICH, 2nd version, March 2022
5. "Fundamentals of Scanning Probe Microscopy", V. L. Mironov 2004
6. "A PRACTICAL GUIDE TO SCANNING PROBE MICROSCOPY" Rebecca Howland and Lisa Benatar, 2000
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Term 2023:
1. „Magnetic microscopy of nanostructures” H. Hopster, H.P. Oepen Springer 2005 |
Term 2024:
1. „Magnetic microscopy of nanostructures” H. Hopster, H.P. Oepen Springer 2005 |
Term 2025:
1. „Magnetic microscopy of nanostructures” H. Hopster, H.P. Oepen Springer 2005 |
Term 2026:
1. „Magnetic microscopy of nanostructures” H. Hopster, H.P. Oepen Springer 2005 |
Additional information
Additional information (registration calendar, class conductors, localization and schedules of classes), might be available in the USOSweb system: