General information:
Code:
UBPJO-244
Name:
Molecular nanoelectronics
Profile of education:
Academic (A)
Lecture language:
English
Semester:
Spring
Course homepage:
 
Responsible teacher:
prof. dr hab. Szaciłowski Konrad (szacilow@agh.edu.pl)
Academic teachers:
prof. dr hab. Szaciłowski Konrad (szacilow@agh.edu.pl)
Module summary

Basic principles of classical electronics, synthesis, properties and electronic structure of molecular precursors, discusses techniques used for fabrication of nanoelectronic structures.

Description of learning outcomes for module
MLO code Student after module completion has the knowledge/ knows how to/is able to Connections with FLO Method of learning outcomes verification (form of completion)
Social competence
M_K001 Umiejętność rozwiązywania problemów w grupie - Activity during classes
Knowledge
M_W001 Podstawowe wiadomości o właściwościach elektrycznych cząsteczek - Activity during classes
M_W002 Znajomość podstaw nanoelektroniki molekularnej - Examination
M_W003 Podstawowa znajomość teorii pasmowej ciała stałego oraz fizykochemii półprzewodników - Examination
FLO matrix in relation to forms of classes
MLO code Student after module completion has the knowledge/ knows how to/is able to Form of classes
Lecture
Audit. classes
Lab. classes
Project classes
Conv. seminar
Seminar classes
Pract. classes
Zaj. terenowe
Zaj. warsztatowe
Others
E-learning
Social competence
M_K001 Umiejętność rozwiązywania problemów w grupie + - - - - - - - - - -
Knowledge
M_W001 Podstawowe wiadomości o właściwościach elektrycznych cząsteczek + - - - - - - - - - -
M_W002 Znajomość podstaw nanoelektroniki molekularnej + - - - - - - - - - -
M_W003 Podstawowa znajomość teorii pasmowej ciała stałego oraz fizykochemii półprzewodników + - - - - - - - - - -
Module content
Lectures:
Molecular nanoelectronics

The course consists of three parts. The first part deals with basic principles of classical electronics: construction and operational properties of basic active components (diodes, bipolar transistors, FET transistors), structure and fabrication technology of monolithic integrated circuits. Technological and physical limits of classical electronic semiconducting devices are also included in this part.
The second part is mostly devoted to synthesis, properties and electronic structure of molecular precursors used in molecular electronics (fullerenes, porphyrins, phthalocyanines, policenes, tetrathiafulvalenes and carbon nanotubes). Properties critical for applications of these materials in electronics are especially emphasized.
The third part of the course discusses techniques used for fabrication and investigation of nqnoelectronic structures using single molecules and thin layers. Organic field effect transistors (OFET), organic photovoltaic systems and molecular optoelectronic switches are described in detail.

Student workload (ECTS credits balance)
Student activity form Student workload
Summary student workload 60 h
Module ECTS credits 2 ECTS
Participation in lectures 15 h
Preparation for classes 15 h
Realization of independently performed tasks 30 h
Additional information
Method of calculating the final grade:

Egzamin 100%

Prerequisites and additional requirements:

Prerequisites and additional requirements not specified

Recommended literature and teaching resources:

Recommended literature and teaching resources not specified

Scientific publications of module course instructors related to the topic of the module:

Additional scientific publications not specified

Additional information:

None