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Data

Official data in SubjectManager for the following academic year: 2024-2025

Course director

Number of hours/semester

Lectures: 28 hours

Practices: 0 hours

Seminars: 0 hours

Total of: 28 hours

Subject data

  • Code of subject: OPF-OPS-T
  • 2 Credit
  • Pharmacy
  • Optional module
  • spring
Prerequisites:

OPA-PC1-T finished

Course headcount limitations

min. 5 people – max. 15 people

Topic

Optical sensors are widely used for in-situ, in vivo and online measurements as well as in process control. The interaction of light with materials results in a broad range of possible optical sensing methods. The selective chemical recognition coupled with optical detection techniques allow to create optical sensors with completely different geometry. Students taking the course will learn the different kind of optical sensors, their working principles; medical applications, the applications in environmental monitoring and process control are also discussed.

Lectures

  • 1.

    Interaction of electromagnetic waves and matter

    - Kovács Barna Szilárd
  • 2.

    Optical properties and their measurement with conventional laboratory equipment

    - Kovács Barna Szilárd
  • 3.

    Spectroscopic setup used for sensor application

    - Kovács Barna Szilárd
  • 4.

    Absorption, refractive index and fluorescence measurements in optical sensors

    - Kovács Barna Szilárd
  • 5.

    Measurement of mechanical and electric parameters via optical sensors

    - Kovács Barna Szilárd
  • 6.

    Major components of optical sensors

    - Kovács Barna Szilárd
  • 7.

    Optical parts; build-up of optodes

    - Kovács Barna Szilárd
  • 8.

    Immobilization of indicators: covalent bond, lipophilic indicators

    - Kovács Barna Szilárd
  • 9.

    Adsorption, sol-gel method, ion-pairing

    - Kovács Barna Szilárd
  • 10.

    Group work

    - Kovács Barna Szilárd
  • 11.

    Group work

    - Kovács Barna Szilárd
  • 12.

    Nano beads and quantum dots (QDs) in optical sensors

    - Kovács Barna Szilárd
  • 13.

    Polymers, polymer layers

    - Kovács Barna Szilárd
  • 14.

    The role of additives on the membrane stability

    - Kovács Barna Szilárd
  • 15.

    Optical isolation, primary- and preventive layers

    - Kovács Barna Szilárd
  • 16.

    Configurations of optodes: optical fibers, waveguides, capillaries, nanobeads

    - Kovács Barna Szilárd
  • 17.

    Optical sensors for pH and ion concentration measurements

    - Kovács Barna Szilárd
  • 18.

    Co-extraction and ion-exchange mechanisms

    - Kovács Barna Szilárd
  • 19.

    Optical gas sensing in everyday use

    - Kovács Barna Szilárd
  • 20.

    Group work

    - Kovács Barna Szilárd
  • 21.

    Group work

    - Kovács Barna Szilárd
  • 22.

    Optical sensors in medical diagnostics

    - Kovács Barna Szilárd
  • 23.

    Measurements in living cells

    - Kovács Barna Szilárd
  • 24.

    Optical biosensors I: biocatalytic sensors (enzymes, bacteria)

    - Kovács Barna Szilárd
  • 25.

    Optical biosensors II: Receptor based sensors, and immuno-complex based sensing. DNA fragment based sensors, aptamer sensing, MIPs

    - Kovács Barna Szilárd
  • 26.

    Group work

    - Kovács Barna Szilárd
  • 27.

    Group work

    - Kovács Barna Szilárd
  • 28.

    Summary, test

    - Kovács Barna Szilárd

Practices

Seminars

Reading material

Obligatory literature

Optical Chemical Sensors (ed. F. Baldini, A.N. Chester, J. Homola, S. Martellucci), NATO Science Series II. Vol 224, Springer, 2006

R.W. Cattrall: Chemical Sensors, Oxford Science, 1997

B.R. Eggins: Biosensors: an Introduction, Wiley, 1996

Literature developed by the Department

Notes

Recommended literature

Conditions for acceptance of the semester

Participating in the project groupwork, grade of the written test

Mid-term exams

Oral, during the project groupwork

Making up for missed classes

By arrangement with the lecturer

Exam topics/questions

-

Examiners

  • Kovács Barna Szilárd

Instructor / tutor of practices and seminars