Universität Wien

270028 VO Organische Heteroatomchemie (2024S)

4.00 ECTS (2.00 SWS), SPL 27 - Chemie

An/Abmeldung

Hinweis: Ihr Anmeldezeitpunkt innerhalb der Frist hat keine Auswirkungen auf die Platzvergabe (kein "first come, first served").

Details

Sprache: Deutsch

Prüfungstermine

Lehrende

Termine (iCal) - nächster Termin ist mit N markiert

  • Montag 08.04. 09:30 - 11:00 Kleiner Hörsaal 3 Chemie Boltzmanngasse 1 HP
  • Mittwoch 10.04. 13:00 - 14:30 Kleiner Hörsaal 3 Chemie Boltzmanngasse 1 HP
  • Donnerstag 11.04. 10:30 - 12:00 Seminarraum 3 Organische Chemie 1OG Boltzmanngasse 1
  • Dienstag 16.04. 15:30 - 17:00 Kleiner Hörsaal 3 Chemie Boltzmanngasse 1 HP
  • Mittwoch 17.04. 13:00 - 14:30 Kleiner Hörsaal 3 Chemie Boltzmanngasse 1 HP
  • Montag 22.04. 09:30 - 11:00 Kleiner Hörsaal 3 Chemie Boltzmanngasse 1 HP
  • Donnerstag 02.05. 09:30 - 11:00 Kleiner Hörsaal 3 Chemie Boltzmanngasse 1 HP
  • Montag 06.05. 11:00 - 12:30 Kleiner Hörsaal 3 Chemie Boltzmanngasse 1 HP
  • Mittwoch 08.05. 13:00 - 14:30 Kleiner Hörsaal 3 Chemie Boltzmanngasse 1 HP
  • Montag 27.05. 11:00 - 12:00 Seminarraum 2 Währinger Straße 38 Dekanat 1. Stock

Information

Ziele, Inhalte und Methode der Lehrveranstaltung

The course "Heteroatom Chemistry," aims to provide students with a comprehensive understanding of the organic chemistry of elements other than carbon, with a specific focus on the heteroatoms commonly encountered in organic compounds. The primary learning objective is to equip students with the knowledge and skills necessary to understand and apply the principles of heteroatom chemistry in various scientific contexts, including research and industrial applications. By the end of this course, students should be able to:

Identify and explain the unique properties and behaviors of heteroatoms within molecules.
Understand the role of heteroatoms in the structure, reactivity, and function of organic and inorganic compounds.
Apply principles of heteroatom chemistry to predict and rationalize the outcomes of chemical reactions.
Be aware of modern techniques for the synthesis and characterization of heteroatom-containing compounds.

The course content is structured to cover a broad range of topics essential to heteroatom chemistry, including but not limited to:

Introduction to heteroatoms and their significance in chemistry.
Periodic trends and electronic configurations of heteroatoms.
Acid-base behavior, bonding, and steric effects of heteroatoms in compounds.
Role of heteroatoms in catalysis.
Synthetic strategies for incorporating heteroatoms into organic frameworks.
Case studies highlighting the importance of heteroatoms in pharmaceuticals, materials science, and environmental chemistry.

Teaching methods for this course include a combination of lectures and problem-solving sessions. Lectures will provide the theoretical foundation of heteroatom chemistry, supplemented by visual aids and real-world examples to enhance understanding.

The course will be taught in english.

Art der Leistungskontrolle und erlaubte Hilfsmittel

In the "Heteroatom Chemistry" course, assessment of student learning will be conducted through a comprehensive two-hour written exam at the end of the course. This exam is designed to evaluate students' mastery of the course material, their ability to integrate and apply heteroatom chemistry principles, and their problem-solving skills in theoretical contexts. The exam will cover all topics discussed during the course, with questions formatted as a mix of short answer, mechanistic, synthetic and essay questions, that require analytical and critical thinking.

Assessment Requirements:

Final Written Exam: The two-hour written exam will be the sole component of assessment for this course. It will comprehensively cover the course content, including the properties and behaviors of heteroatoms, their roles in various chemical compounds, synthetic strategies, and applications in real-world contexts. The exam will test students on their ability to understand key concepts, apply theoretical knowledge to problem-solving, and articulate their understanding clearly and concisely.

Mindestanforderungen und Beurteilungsmaßstab

The exam will be graded on the basis of total points earned out of the total points possible. The allocation of points for each question or section will be clearly indicated on the exam paper, allowing students to manage their time effectively and prioritize their responses.
Typical key, for a total of 200 points:
<100 points, Grade 5
100-124 Points, Grade 4
125-154 Points, Grande 3
155-179 points, Grade 2
> 180 Points, Grade 1

Prüfungsstoff

For the "Heteroatom Chemistry" course, the preparation for the final written exam entails a thorough understanding and review of all the course materials covered during the lectures.

Literatur


Zuordnung im Vorlesungsverzeichnis

CH-SYN-02

Letzte Änderung: Do 31.10.2024 13:46