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Academic Programs »    The Norman Seiden Multidisciplinary Program for Nanoscience and Nanotechnology »

The program courses

program courses Core subjects / mandatory:
 
Credit points Open in semester: Course name Course number
2.5   Statistical Thermodynamics for Nano Sciences 648012
2.5   Nanoscale transport phenomena 648013
2.5   Quantum mechanics in nano science and nanotechnology 648010
3.5   Fundamentals in Bionanotechnology 648011
2   Nanoscience and nanotechnology Seminar 648001
3   Nanosciences and nanotechnology Laboratory
* this course is Intended only for students who are studying in the program
648006


The curriculum will be divided into three clusters / areas:

(1) Nanobio, (2) nano- materials chemistry and physics and (3) nano- Electronics Photonics and mechanics.

After successfully completing the six mandatory courses, students will be required to choose of two clusters of overlapping courses with different background areas from the background they came from.

In addition, they will have to choose two elective courses (after consultating with the supervisor and with the approval of the program coordinator (

Complete 25 credit points in total.

Please note that the courses are taught in different faculties.


Nano bio cluster:

Cluster Course name Course number
Nano Electronics Photonics and mechanics. Nanomaterials chemistry and physics Nano bio
Transport processes in interfaces 036038
  Flow and convection in miniaturized devices 036066 temp. number
    Biomechanics of cells and molecules 036071
  Nanoparticles in Biology Mechanics and Rheology 336021
  Electron Microscopy 056120
  Colloidal systems (nanosystems) 056140
  Surface phenomena 056166
  Statistical Thermodynamics 056378
  Complex fluids 056383
Molecular materials 056390
Nano (bio)-materials based sensors 056391
  Structure and properties of polymers 058129
  Polymer thermodynamics 058172
  Physical methods for characterizing of polymers 058173
  Structure determination using radiation scattering 058181
  Polymers and their applications in biotechnology 054413
  Structure and properties of biological materials and food 64238
  Micro and nano-encapsulation of food 066328
   Biotechnology Entrepreneurship 066525
  Applied Biocatalysis 066518
  Emulsions in food and biotechnology 066329
  Biotechnology of antimicrobial peptides 066524
  Controlled release of drugs 336528
  Principles of biochemical sensors in biomedical engineering 336531
  Nanoparticles in biology, mechanics and rheology 336021
  Materials in Biomedical engineering 315018
  Biophysics and bio- engineering of molecules 336538
  Biomolecular machines 138021
   Principles of molecular recognition between proteins and nucleic acids 136090
Nanoscale design of materials made of carbon 318243
Thermodynamics and Kinetics of Interfaces 318320
   Experimental design and analysis 096475
   How to write? (Scientific Writing( 324648



Nano- physics, chemistry and materials:

Overlapping clusters Course name Course number
Nano Electronics and Photonics mechanics. Nanomaterials chemistry and physics Nano bio
Transport processes in interfaces 036038
  Methods of analysis and modeling in micro systems 038800
  Heat radiation 38731
  Nonlinear vibration 36048
  Flow and convection in miniaturized devices 036066 temp. number
    Methods of calculation in material Nanomechanics 036066 temp. number
  Electron Microscopy 056120
  Colloidal systems (nano-systems) 056140
  Surface phenomena 056166
  Statistical Thermodynamics 056378
  Complex fluids 056383
Molecular materials 056390
Nano (bio)-materials based sensors 056391
  Structure and properties of polymers 058129
  Polymer thermodynamics 058172
  Physical methods for polymer characterization 058173
  Structure determination using radiation scattering 058181
  Polymers and their applications in biotechnology 054413
  Structure and properties of biological materials and food 64238
  Micro and nano-encapsulation of food 066328
  Applied Biocatalysis 066518
  Emulsions in food and biotechnology 066329
  Biotechnology of antimicrobial peptides 066524
  Controlled release of drugs 336528
  Principles of biochemical sensors in biomedical engineering 336531
  Nanoparticles in Biology Mechanics and Rheology 336021
  Materials in Biomedical engineering 315018
  Biophysics and bio- engineering of molecules 336538
  Biomolecular Machines 138021
Nanoscale design of materials made of carbon 318243
Thermodynamics and Kinetics of Interfaces 318320
  Advanced theoretical physical chemistry 126601
  Advanced experimental physical chemistry 126602
  Nanoparticles in Biology Mechanics and Rheology 336021


Nano- Electronics Photonics and Mechanics:

Cluster Course name Course number
Nano Electronics and Photonics mechanics Nanomaterials chemistry and physics Nano bio
Transport processes in interfaces 036038
  Methods in biomedical optical microscopy 336534
  Heat radiation 38731
   Nano-optics and cyclical optical Structures 036070
  Methods of analysis and modeling in micro systems 038800
  Nonlinear vibration 36048
   Electro kinematics in nano and micro flow 036076
Molecular materials 056390
Nano (bio)-materials based sensors 056391
Nanoscale design of materials made of carbon 318243
Thermodynamics and Kinetics of Interfaces 318320
  Advanced theoretical physical chemistry 126601
  Advanced experimental physical chemistry 126602
  Introduction to molecular electronics 49047