FCK3322 Supramolecular Chemistry 7.5 credits

The course treats the basics in the field of supramolecular chemistry, with a focus on how molecules interact intermolecularly, and how compounds can be designed to bind to each other. Applications of the field within materials science, chemical biology, molecular machines and catalysis are discussed in detail.

Information for research students about course offerings

The course is planned for the autumn of 2023 or when needed.

Contact the examiner for information.

About course offering

For course offering

Spring 2024 Start 18 Mar 2024 programme students

Target group

No information inserted

Part of programme

No information inserted

Periods

P4 (7.5 hp)

Duration

18 Mar 2024

3 Jun 2024

Pace of study

50%

Form of study

Normal Daytime

Language of instruction

Swedish

Course location

KTH Campus

Number of places

Places are not limited

Planned modular schedule

Course memo

Course memo is not published

Schedule

Schedule is not published

Application

For course offering

Spring 2024 Start 18 Mar 2024 programme students

Application code

61112

Contact

For course offering

Spring 2024 Start 18 Mar 2024 programme students

Contact

Fredrik Schaufelberger ( fresch@kth.se)

Examiner

No information inserted

Course coordinator

No information inserted

Teachers

No information inserted

Headings with content from the Course syllabus FCK3322 (Spring 2022–) are denoted with an asterisk ( )

Content and learning outcomes

Course disposition

The course comprises a traditional lecture part (including guest lectures), as well as a seminar series where the participating students prepare and lead seminar on relevant research in the field.

The course comprises approximately 200 hours, of which 60 h are spent on seminars and preparing seminars, as well as 20 h of lectures in addition to self-studies

Course contents

Fundamental concepts of supramolecular chemistry
Cation receptors
Anion receptors
Receptors for neutral molecules and ion pairs
Self-assembly
Supramolecular materials
Mechanically interlocked molecules
Molecular machines
Supramolecular catalysis
Systems chemistry
Supramolecular systems out-of-equilibrium
Applications of supramolecular systems: sensors, devices, drug delivery, biomaterials, etc

Intended learning outcomes

After completion of the course the doctoral student should have the knowledge and ability to:

account for fundamental concepts and methods in supramolecular chemistry.
demonstrate knowledge in synthesis and characterization of supramolecular systems.
explain how supramolecular chemistry is used in organic chemistry, materials science, chemical biology and nanotechnology and be able to understand and discuss current research questions in the field.
discuss how supramolecular chemistry can be used to facilitate sustainable development.

Literature and preparations

Specific prerequisites

Eligible for studies at the third-cycle level.

To be able to profit from the course the graduate student should have taken the course KD2310, or should have acquired the equivalent knowledge elsewhere.

Recommended prerequisites

To be able to profit from the course the graduate student should have taken the course KD2310, or should have acquired the equivalent knowledge elsewhere

Equipment

No information inserted

Literature

“Supramolecular Chemistry”, J. Steed & J Atwood, 3rd. Ed., as well as recommended reference literature and e-resources that are stated in the course memo or in a similar way.

Examination and completion

If the course is discontinued, students may request to be examined during the following two academic years.

Grading scale

P, F

Examination

SEM1 - Seminars, 3.0 credits, grading scale: P, F
TEN1 - Written exam, 4.5 credits, grading scale: P, F

Based on recommendation from KTH’s coordinator for disabilities, the examiner will decide how to adapt an examination for students with documented disability.

The examiner may apply another examination format when re-examining individual students.

Other requirements for final grade

Mandatory attendance and active participation in the seminar part of the course.

Opportunity to complete the requirements via supplementary examination

No information inserted

Opportunity to raise an approved grade via renewed examination

No information inserted

Examiner

Peter Dinér

Ethical approach

All members of a group are responsible for the group's work.
In any assessment, every student shall honestly disclose any help received and sources used.
In an oral assessment, every student shall be able to present and answer questions about the entire assignment and solution.

Further information

Course room in Canvas

Registered students find further information about the implementation of the course in the course room in Canvas. A link to the course room can be found under the tab Studies in the Personal menu at the start of the course.

Offered by

CBH/Chemistry

Main field of study

This course does not belong to any Main field of study.

Education cycle

Third cycle

Add-on studies

No information inserted

Contact

Fredrik Schaufelberger ( fresch@kth.se)

Transitional regulations

If the examination form is changed, the student will be examined according to the examination form that applied when the student was admitted to the course. If the course is completed, the student is given the opportunity to be examined on the course for another two academic years.

Supplementary information

Kursen planeras ges hösten 2023 eller vid behov.

Kontakta examinator för information.

Postgraduate course

Postgraduate courses at CBH/Chemistry