Dersin Kodu

Dersin Adı

T

U

L

AKTS

NST501.1

Introduction to Nanoscience and Nanotechnology

3

0

3

6

NST503.1

Nanophotonics

3

0

3

6

NST507.1

Electrical, optical and Magnetic Properties of Solids

3

0

3

6

NST510.1

Basics of Thin Film Materials

3

0

3

6

NST519.1

Physics and Applications of Semiconductor Nanostructures

3

0

3

6

NST523.1

Nanobiotechnology

3

0

3

6

NST524.1

Nanobiophotonics

3

0

3

6

NST526.1

Nanomaterials

3

0

3

6

NST530.1

Characterization of Nanomaterials

3

0

3

6

NST511.1

Polymeric Nanomaterials

3

0

3

6

NST541.1

Nanochemistry

3

0

3

6

NST551.1

Nanophysics

3

0

3

6

NST546.1

Nanocatalysts

3

0

3

6

NST548.1

Introduction to Molecular Recognition and Self-assembly

3

0

3

6

NST525.1

Biomaterials for Nanotechnology

3

0

3

6

NST603

Quantum Mechanics For Nanostructures    

3

0

3

6

NST606

Principle And Applicatıons Of Laser In Nanotechnology    

3

0

3

6

 

 

 

 

DİSİPLİNLERARASI NANOTEKNOLOJİ ANABİLİM DALI YÜKSEK LİSANS ÖĞRETİM PROGRAMI DERSLERİNİN İÇERİKLERİ

 

KODU

(CODE)

DERSİN ADI ve İÇERİĞİ (NAME OF THE COURSES AND CONTENT)

T

U

L

AKTS

NST500

MSc Thesis

0

1

0

24

Preparation of Master thesis under supervision of the graduate student’s supervisor. Required for all candidates for the master degree.

 

KODU

(CODE)

DERSİN ADI ve İÇERİĞİ (NAME OF THE COURSES AND CONTENT)

T

U

L

AKTS

NST589

Special Studies

6

0

0

6

Studying relevant topics in Nanoscience and Nanotechnology essential to MSc thesis, discussing relevant literature, provide technical assistance to students, to read and comment on the draft report, to give guidance on the standard and amount of work required.

 

KODU

(CODE)

DERSİN ADI ve İÇERİĞİ (NAME OF THE COURSES AND CONTENT)

T

U

L

AKTS

NST590

Seminar

0

2

0

6

Students are required to present a seminar on the key content of their research. They should describe the scope of the thesis, the reviewed literature and its relevance to the research. The material should be prepared in a fashion that suits oral presentation.

 

 

ZORUNLU DERSLER

KODU

(CODE)

DERSİN ADI ve İÇERİĞİ (NAME OF THE COURSES AND CONTENT)

T

U

L

AKTS

NAS502.1

Research Methods

3

0

0

6

Overview of the research methods, definition of the research questions, gathering the background information about the problem, performing the experiments and collecting and analysing the data, interpretation the data and drawing the conclusions and publishing the results.

 

KODU

(CODE)

DERSİN ADI ve İÇERİĞİ (NAME OF THE COURSES AND CONTENT)

T

U

L

AKTS

NST501.1

Introduction to Nanoscience and Nanotechnology

3

0

3

6

This course is intended to be a gateway for the senior and graduate students to the range of special graduate courses in nanoscience and technology for engineers. The course consists of topics in fundamental nanoscale science, plus an overview of areas in nanotechnology.

 

SEÇMELİ DERSLER

 

KODU

(CODE)

DERSİN ADI ve İÇERİĞİ (NAME OF THE COURSES AND CONTENT)

T

U

L

AKTS

NST502.1

Introduction to Micro and Nanofabrication

3

0

3

6

Deals with aspects of the technology of processing procedures involved in the fabrication of microelectronic devices and microelectromechanical systems (MEMS). Students will become familiar with various fabrication techniques used for discrete devices as well as large-scale integrated thin-film circuits. Students will also learn that MEMS are sensors and actuators that are designed using different areas of engineering disciplines and they are constructed using a microlithographically-based manufacturing process in conjunction with both semiconductor and micromachining microfabrication technologies.

 

KODU

(CODE)

DERSİN ADI ve İÇERİĞİ (NAME OF THE COURSES AND CONTENT)

T

U

L

AKTS

NST503.1

Nanophotonics

3

0

3

6

The course will cover nanoscale processes and devices and their applications for manipulating light on the nanoscale. The following topics will be covered: Fundamentals, Maxwell’s equations, light-matter interaction, dispersion, EM properties of nanostructures, etc.

 

KODU

(CODE)

DERSİN ADI ve İÇERİĞİ (NAME OF THE COURSES AND CONTENT)

T

U

L

AKTS

NST507.1

Electrical, optical and Magnetic Properties of Solids

3

0

3

6

Crystallography: unit cells; Miller indices, Defects: Point defects; Non-stoichiometry. Solid solutions, Line and planar defects. Surface effects. Antisite defects, Classical theory of electronic conduction in metals. Noise., Resistivity of metals: thermal and compositional effects., Hall effect and Hall devices. Resistivity of thin metal films, Skin effect. Thermal conductivity, Electrical conductivity of nonmetals, Light as particles: photoelectric effect. Electrons as waves. Time-independent Schrödinger equation, Electron in an infinite potential well. Electron in a 3-D box. Heisenberg uncertainty principle. Tunneling. Hydrogenic atoms. Helium atom. 10/06 Periodic table, molecular orbitals Band theory of solids. Semiconductors. Effective electron mass. Density of states. Boltzmann statistics. Fermi-Dirac statistics Quantum theory of metals. Brillouin zones. Metal-metal contacts. Thermocouples. Intrinsic semiconductors. Carrier concentrations, mobilities. Band gaps in III-V compounds. Extrinsic semiconductors. Temperature dependence of electronic conductivity Rectifying contacts; Schottky diodes; solar cells. Ohmic contacts; thermoelectric coolers. p-n junctions: forward and reverse bias; reverse breakdown.Direct and indirect band gaps. LEDs.

 

KODU

(CODE)

DERSİN ADI ve İÇERİĞİ (NAME OF THE COURSES AND CONTENT)

T

U

L

AKTS

NST510.1

Fundamentals of Thin Film Materials

3

0

3

6

The following topics will be covered: A review of materials science, Vacuum science and Technology, Physical vapor deposition, Chemical vapor deposition, Film formation and structure, Characterization of thin film Epitaxy, İnterdiffusion and reactions in thin film, Mechanical properties of thin films, Electrical and magnetic properties of thin films, Optical properties of thin film, Metallurgical and protective coatings, Modification of surfaces and films, Emerging thin-film materials and applications.

 

 

KODU

(CODE)

DERSİN ADI ve İÇERİĞİ (NAME OF THE COURSES AND CONTENT)

T

U

L

AKTS

NST519.1

Physics and Applications of Semiconductor Nanostructures

3

0

3

6

This course is intended to introduce the concept of electronic energy band engineering for device applications. Topics to be covered are electronic energy bands, optical properties, electrical transport properties of multiple quantum wells, superlattices, quantum wires, and quantum dots; mesoscopic systems, applications of such structures in various solid state devices, such as high electron mobility, resonant tunneling diodes, and other negative differential conductance devices, double-heterojunction injection lasers, superlattice-based infrared detectors, electron-wave devices (wave guides, couplers, switching devices), and other novel concepts and ideas made possible by nano-fabrication technology.

 

KODU

(CODE)

DERSİN ADI ve İÇERİĞİ (NAME OF THE COURSES AND CONTENT)

T

U

L

AKTS

NST523.1

Nanobiotechnology

3

0

3

6

This course describes the application of nano-and micro-fabrication methods to build tools for exploring the mysteries of biological systems. It is a graduate-level course that will cover the basics of biology and the principles and practice of nano- and microfabrication techniques, with a focus on applications in biomedical and biological research.

 

KODU

(CODE)

DERSİN ADI ve İÇERİĞİ (NAME OF THE COURSES AND CONTENT)

T

U

L

AKTS

NST523.1

Nanobiophotonics

3

0

3

6

This course focuses on diagnostic and therapeutic applications of photonics-based technologies with particular emphasis on nanotechnology enabled optical approaches. It has been developed in parallel with the fast-advancing multidisciplinary research and technological developments in the field of nanophotonics and bionanophotonics, and addresses these areas: Quantum mechanical description of light-matter interaction in nanostructure (Localization of photons and electrons, Light source and photodetector), Nanophotonics (Subwavelength light control, light-matter interaction in nanostructure), Nanobiophotonics: Nanotechnology for Biophotonics (Ultra-fast, ultra-intensive, ultra-sensitive optical imaging, Quantum dots in biosensing, bioimaging, and drug delivery)

 

KODU

(CODE)

DERSİN ADI ve İÇERİĞİ (NAME OF THE COURSES AND CONTENT)

T

U

L

AKTS

NST526.1

Nanomaterials

3

0

3

6

"Nanomaterials," is an interdisciplinary introduction to processing, structure, and properties of materials at the nanometer length scale. The course will cover recent breakthroughs and assess the impact of this burgeoning field. Specific nanofabrication topics include epitaxy, beam lithographies, self- assembly, biocatalytic synthesis, atom optics, and scanning probe lithography. The unique size- dependent properties (mechanical, thermal, chemical, optical, electronic, and magnetic) that result from nanoscale structure will be explored in the context of technological applications including computation, magnetic storage, sensors, and actuators.

 

 

KODU

(CODE)

DERSİN ADI ve İÇERİĞİ (NAME OF THE COURSES AND CONTENT)

T

U

L

AKTS

NST530.1

Characterization of Nanomaterials

3

0

3

6

The purpose of this course is to teach the students underlying principles of analytical techniques that are commonly used for the evaluation of bulk properties of nanomaterials. These include surface analysis technique FTIR spectroscopy; optical properties evaluation by UV-Vis spectroscopy; crystallographic phase identification by XRD; thermal properties evaluation using TGA and DSC; microstructure investigation by Electron microscopy (SEM and HRTEM); surface area analysis by BET surface area analyzer; magnetic properties by VSM and particle size- surface charge analysis by DLS and seta potential techniques. The course is planned in the form of theoretical and experimental modules for each analysis technique.

 

 

KODU

(CODE)

DERSİN ADI ve İÇERİĞİ (NAME OF THE COURSES AND CONTENT)

T

U

L

AKTS

NST511.1

Polymeric Nanomaterials

3

0

3

6

The following topics will be covered: (i) Nanogels, Interfaces, Carriers, and Polymersomes

Synthesis and Characterization of Polymeric Nanogels, (ii) Nanoparticles, (iii) Nanoscaffolds, Nanotubes, and Nanowires.

 

KODU

(CODE)

DERSİN ADI ve İÇERİĞİ (NAME OF THE COURSES AND CONTENT)

T

U

L

AKTS

NST546.1

Nanocatalysts

3

0

3

6

Catalyst definition, differences of nanocatalysts with conventional catalyst applications and preparation methods of nanocatalysts

 

KODU

(CODE)

DERSİN ADI ve İÇERİĞİ (NAME OF THE COURSES AND CONTENT)

T

U

L

AKTS

NST525.1

Biomaterials for Nanotechnology

3

0

3

6

Topics include: introduction of biomaterials, introduction of nanobiomaterials, synthetic nanobiomaterials, biological nanobiomaterials (DNA nanomaterials, protein and peptide nanomaterials, etc), biofunctionalization of nanobiomaterials, use of nanobiomaterials in tissue engineering, drug delivery, gene delivery, cancer therapy, and bioimaging. Key advances from the recent literature will be reviewed to supplement specific lecture topics.

 


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