Nanotechnology Engineering

Küçült Yazı Tipi Büyüt

Content of Courses for Nanotechnology Engineering MSc Program

  • NTM701 Introduction to Nanotechnology (3-0-3) 6 AKTS

Definition and importance of nanotechnology. Mechanical, optical, magnetic and electrical properties of materials at the nanoscale. Science underlying nanotechnology.

  • NTM702 Nanomaterials Characterization (3-0-3) 6 AKTS

Structural characterisation methods (XRD, SAXS, SEM, TEM, SPM, Gas adsoption), Physical Characterisation methods (thermal, mechanical ve optical characterisation), Electrical and magnetic properties of materials

  • NTM703 Selected Topics in Nanotechnology (2-2-3) 6 AKTS

Solar cells, hydrogen storage, quantum devices, carbon nanotups and applications, nanomechanic, nanocomposits, nanotechnology for accelerators, wearable electronics.

  • NTM704 Nanomaterials Technology (3-0-3) 6 AKTS

Historical approach to nanomaterials, Interdisciplinary approaches on nanotechnology, nanoscaled materials, introduction to synthesis of nanomaterials, fabrication techniques of nanoparticles, current application areas of nanomaterials, recent trens in the fields of nanotecnology, nanomaterial industry.

  • NTM705 Nanotechnology and Polymers (3-0-3) 6 AKTS

Principals of nanotechnology, History, Applications, Polymers in nanotechnology, Nanostructures/nano compounds, Descriptions, Classification, Nanocomposites, Preparations, Characterization and Applications, Nanospheres and medical Applications.

  • NTM706 Nanomaterials and Physical Properties (3-0-3) 6 AKTS

Introduction to Nanoscale Materials, Electronic Structure of Materials, Bonding between atoms and Bonding in Nanomaterials, Surface Science for Nanomaterials, Nanoparticles, Nanorods/nanowire, nanofilm and bulk nanostructure materials, Elektrical, Optical and Magnetic Properties of Nanomaterials, Mechanical Properties of Nanomaterials, Structural Characterization of Nanomaterials: XRD, SEM, TEM, Surface Characterization of Nanomaterials: AES, XPS, SIMS and Applications of Nanomaterials.

  • NTM707 Polymer Technology (3-0-3) 6 AKTS

Properties of polymers, raw materials of polymers and petrochemistry, industrial polymers, filling materials, processing of plastics.

  • NTM708 Biomedical Applications of Nanotechnology (3-0-3) 6 AKTS

To learn the theoretical knowledge of the applications of nanotechnology in biomedicine, properties of nanostructured biomaterials, molecular and cellular engineering principles, tissue engineering concept, gen therapy, applications of medical devices, diagnostics and imaging systems.

  • NTM709 Characterization of Semiconductor Devices (3-0-3) 6 AKTS

General information on semiconductors, p-n junctions, Schottky junctions, current-voltage characteristics of junctions, interface states, device processing.

  • NTM710 Conductive Polymers (3-0-3) 6 AKTS

Polymers as an conductive and non-conductive materials, Electrical applications of polymers, Dielectric properties of polymers, Electrical conductivity of polymers, Measurements of electrical properties, Synthesis methods of conductive polymers, Primary conductive polymers; Plyaniline, Polythiophene, Polypyrrole

  • NTM711 Nanomaterials (3-0-3) 6 AKTS

Principle of physical scaling, micro and nano engineering, micro and nano technologies, natural nanostructures, stability of nanomaterials, production of nanocrystals and nanoparticles, future of nanomaterials.

  • NTM712 Nanomechanic Characterization (3-0-3) 6 AKTS

Principle of nanoindentation, Calculation methods used in nanoindentation, Principle of sample preparation, Measurements of mechanical properties by nanoindentation.

  • NTM713 Nanotechnologic Biomaterials and Approaches for Tissue Engineering (3-0-3) 6 AKTS

To teach the fundamental and aspects of nanofabrication of biomaterials and to examine the cellular interactions at the nanoscale level for tissue development.

  • NTM714 Micro and Nano Production Technology (3-0-3) 6 AKTS

Theory of cutting,micro turning and milling, unconventional micromachining methods, micro and nano Electrochemical machining, micro and nano thermal machining methods, hybrid machining processes.

  • NTM715 X-ray Diffraction (3-0-3) 6 AKTS

X-rays and their properties, uses of x-rays, x-ray diffraction (XRD), structure determination with x-ray diffraction, x-ray analysis of thin films and nanostructures

  • NTM720 Optoelectronic (3-0-3) 6 AKTS

Introduction, Quantum mechanics of electron, Quantum mechanics of photon, Quantum mechanics of electron photon interaction, Lasers, Band structure of semiconductors, Elctronic properties of semiconductors, Optical properties of semiconductors, Hybrid semiconductors, Wave guides, Semiconductor photodedectors, Optical frequency conversion, LEDs, Laser diodes

  • NTM725 Photonic Materials and Applications (3-0-3) 6 AKTS

Theory, design and applications of photonic materials, Photo detectors, Light emitting diodes, Noise at the light detector systems, anisotropic media, Pockels and Kerr effects, Light modulation, Dielectric wave guide, Emission of electromagnetic waves, Wave dispersion and its properties and applicaions, Non-linear optical materials, Secondary harmonics, Raman convertors. 

  • NTM727 Nanostructured Materials (2-2-3) 6 AKTS

Metals and alloys, types of alloys, nanostructured Alloys, Hume-Rothery rules, production methods of the nanophased materials, intermetallic compounds, phase transformations, production of the nanocomposites, some physical and mechanical properties of the nanostructured alloys, and their application areas.

  • NTM730 Bionanotechnology: Molecular Engines (3-0-3) 6 AKTS

Most natural bionanomachines are composed of proteins/ Nucleic acids which carry information/ Lipids that are used for infrastructure/ Polysaccharides with specialized structural roles/ Structural principles of bionanotechnology/ Capturing light by small molecules/ Transfer of chemical energy/ Enzymes performing reactions/ Helical structures of muscle fibrils/ ATP synthase/ Traffic through membranes/ Biomolecular sensing (taste and smell).

  • NTM732 Fundamentals of Heat Mass And Momentum Transport (3-0-3) 6 AKTS

Heat-mass-momentum transport mechanisms in macro scale andin nanostructured materials. Viscosity and the mechanism of momentum transport, Thermal conductivity and the mechanism of energy transport, Diffusivity and the mechanism of mass transport, Velocity distributions in laminar flow, Heat-mass-momentum equations, Temperature distributions in solids and in laminar flow, Concentration distributions in solids and in laminar flow. Transport phenomena in nanostructured materials.

  • NTM734 The Importance of Nano-Sized Materials in Superconductor (3-0-3) 6 AKTS

Impact of addition of nanoparticles on magnetic and microstructure properties of superconductors; XRD, SEM, AFM, M-H (magnetic hystresis) loops and resistivity studies to investigate the structural and physical properties of nanoparticle-doped superconductors; the Bean’s model to obtain the Jc values (critical current density) from the hysteresis loops.

  • NTM797 M.Sc. Seminar (0-2-0) 3 AKTS

Examination of a specific topic from different source and writing this topic obeying spelling rules, then, make an oral presentation in front of a community.

  • NTM798 Specialized Field Topic (3-0-0) 15 AKTS

To gaining oral presentation and discussion skills, determining objectives of thesis and determine a road map for thesis.

  • NTM799 Thesis Study (0-1-0) 15 AKTS

Master thesis is an authentic study which have to be carried out after theoretical and practical courses. Thesis is directed by an adviser. Student is supported about literature knowledge, the solution of encountered problems and scientific ethics. The final evaluation exam is the assesment of thesis and an oral exam.


Content of Courses for Nanotechnology Engineering PhD Program

  • NTM807 Nanobiomaterials (3-0-3) 6 AKTS

This course aims to explain and teach all important aspects dealing with the chemistry, physics, biology and engineering of nanostructured biomaterials and their applications in nanobiotechnology and biomedical applications with lectures, discussions and presentations.

  • NTM812 Micro/Nano-scale Tissue Engineering (3-0-3) 6 AKTS

The course aims to explain and teach the development of novel platforms for generating functional tissues using cells and intelligent biomaterials with precise control of tissue assembly at the nanometer level.

  • NTM814 Biosensor Technologies (3-0-3) 6 AKTS

Bioelectronic Devices and Main Translators. Determinable Substances. Biosensör Regulators: Potantiometric (Glass, Liquid, Solid Phase Membrane, Gas Sensitive Membrane Electrodes), Amperometric, Optical, Calorimetric and Other Regulator Systems. Enzyme Electrodes. Biosensor System Applications in Environmental and Food Research. New Advances on Biosensors.

  • NTM815 Thin Film Coating Methods (3-0-3) 6 AKTS

General information on thin film coating methods, Electrochemical coating, PVD, CVD and Sol-jel coating methods.

  • NTM816 Electromagnetic Theory (3-0-3) 6 AKTS

Electrostatic Electrostatic Boundary Value Problems, multi-polar, macroscopic electrostatic Environments, dielectrics, Magnetostatics, Time Varying Fields, Maxwell Equations.

  • NTM817 Spectroscopic Characterization of Nanomaterials (3-0-3) 6 AKTS

Raman spectroscopy, X-ray photoelectron spectroscopy, Infrared spectroscopy, Intsrumentation techniques and its applications, Data analysis via Sigma Plot, Peak deconvolution

  • NTM818 Condensed Matter Physics (3-0-3) 6 AKTS

Classifying of solids, thermal properties of solids, some thermodynamic models

  • NTM825 Phase Transformation in Metals and Alloys (3-0-3) 6 AKTS

Thermodynamics and kinetics of the phase transformations, equilibrium, the effects of grain boundaries and interfacial regions on the phase transformations, melting and solidification, nucleation and growth, phase transformation kinetics, stable (equilibrium) phases, metastable (nonequilibrium) phases, phase transformation in solid state, recrystallization and grain growth.

  • NTM826 Advanced Heat Transfer (3-0-3) 6 AKTS

Heat transfer mechanisms: Conduction, Convection, Radiation; Principles of Energy Conservation, Heat Conduction, Heat transfer in nanoscale. Steady state one dimensional heat conduction, Steady state two dimensional heat conduction, Heat conduction through planar and radial systems, Various solution methods, Unsteady satate heat conduction, Numerical solutions, Convection, Cconvection boundary layers, Natural convection, Forced convection. Heat transfer applications in nanostructures.

  • NTM827 Materials Election and Application Fields (3-0-3) 6 AKTS

Princible of materials election, materials election in point of their pyhsical and mechanical properties, Materials election diagrams, materials election and design, materials election for the application fields, examples for materials election, the relation between materials election and materials process.

  • NTM828 Fuel Cell Technologies (3-0-3) 6 AKTS

Definitions, historical develeopments of fuel cells, energy necessities, emissions, Alcali fuel cells and their design principles, phosphorous acid fuel cells, molten carbonate fuel cells, solid oxide fuel cells, solid polymer fuel cells, electrochemistry of fuel cells, fuel production methods for fuel cells, example problems of fuel cells and encountered problems in their applications.

  • NTM830 Inorganic Nanocomposite Materials (3-0-3) 6 AKTS

Nanocomposites,Ceramic-matrix nanocomposites, Metal matrix nanocomposites, Bulk ceramics nanocomposites, Carbon nanotube-based nanocomposites, Applications of nanocomposites, applications of inorganic nanocomposites, inorganic nanocomposites for electrical and optical applications, Thin film nanocomposites.

  • NTM832 Structural and Dynamical Properties of Nanoalloys (3-0-3) 6 AKTS

Introduction, Definition of Nanoalloys and cluster and overwiev, The use of nanoalloys, Interaction potential of metals, Structural properties of binary metal nanoalloys, Dynamical properties of binary metal nanoalloys, To obtain the structural and dynamical properties of nanoalloys by means of a simulation.

  • NTM835 Lithographic Methods (3-0-3) 6 AKTS

Litographic Methods (CVD, PVD, e-beam, ion beam, magnetron sputtering), Molecular beam epitaxy, Dissolver based production methods (micro-contact printing, ink printing, nanoimprint, dip-pen lithography )

  • NTM897 Seminar (0-2-0) 3 AKTS

Examination of a specific topic from different source and writing this topic obeying spelling rules, then, make an oral presentation in front of a community.  

  • NTM898 Specialized Field Topic (4-0-0) 15 AKTS

To gaining oral presentation and discussion skills, determining objectives of thesis and determine a road map for thesis.

  • NTM899 Thesis Study (0-1-0) 15 AKTS

Master thesis is an authentic study which have to be carried out after theoretical and practical courses. Thesis is directed by an adviser. Student is supported about literature knowledge, the solution of encountered problems and scientific ethics. The final evaluation exam is the assesment of thesis and an oral exam.

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