Branch Details

Advanced nanotechnologies and microtechnologies

Original title in Czech: Pokročilé nanotechnologie a mikrotechnologieCEITEC VUTAbbreviation: PNTMTAcad. year: 2019/2020

Programme: Advanced Materials and Nanosciences

Length of Study: 4 years

Accredited from: 17.7.2012Accredited until: 31.7.2020

Supervisor

Issued topics of Doctoral Study Program


Course structure diagram with ECTS credits

1. year of study, winter semester
AbbreviationTitleL.Cr.Sem.Com.Compl.Gr.Op.
DS444Academic English for PhDen0winterCompulsoryExyes
DS446Friday CEITEC BUT seminaren2winterCompulsoryCryes
DS113APrinciples of Nanosciences and Nanotechnologiesen0winterCompulsoryDrExyes
DS113Principles of Nanosciences and Nanotechnologiescs0winterCompulsoryDrExyes
DS101Inorganic Materials Chemistrycs0winterCompulsory-optionalDrExyes
DS102ADiagnostics and measurements of functional properties of nanostructuresen0winterCompulsory-optionalExyes
DS102Diagnostics and measurements of functional properties of nanostructurescs0winterCompulsory-optionalExno
DS103AExperimental biophotonicsen0winterCompulsory-optionalDrExyes
DS103Experimental biophotonicscs0winterCompulsory-optionalDrExyes
DS104Physical Principles of Deformation of Solidscs0winterCompulsory-optionalDrExyes
DS105Green's functions in modern condensed matter physicscs0winterCompulsory-optionalDrExyes
DS105AGreen's functions in modern condensed matter physicsen0winterCompulsory-optionalDrExyes
DS101AInorganic Materials Chemistryen0winterCompulsory-optionalDrExyes
DS114ALaser-Induced Breakdown Spectroscopy – fundamentals, utilization and related techniquesen0winterCompulsory-optionalDrExyes
DS106AMicro and nano computed tomographyen0winterCompulsory-optionalDrExyes
DS107AMicrotechnologiesen0winterCompulsory-optionalDrExyes
DS106Micro and nano CTcs0winterCompulsory-optionalDrExyes
DS107Microtechnologiescs0winterCompulsory-optionalDrExyes
DS108Nanophotonicscs0winterCompulsory-optionalDrExyes
DS108ANanophotonicsen0winterCompulsory-optionalDrExyes
DS104A Physical Principles of Deformation of Solidsen0winterCompulsory-optionalDrExyes
DS112A Prediction of mechanical and magnetic properties of solids from their electronic structureen0winterCompulsory-optionalDrExyes
DS112Prediction of mechanical and magnetic properties of solids from their electronic structurecs0winterCompulsory-optionalDrExyes
DS111ASemiconductor heterostructuresen0winterCompulsory-optionalDrExno
DS114Laser-Induced Breakdown Spectroscopy – fundamentals, utilization and related techniquescs0winterCompulsory-optionalDrExyes
DS115ASurface Scienceen0winterCompulsory-optionalDrExyes
S4001International performanceen2winterOptional (voluntary)Exyes
S4002Law, ethics and philosophy of scienceen2winterOptional (voluntary)Exyes
1. year of study, summer semester
AbbreviationTitleL.Cr.Sem.Com.Compl.Gr.Op.
DS445Academic English for PhD 2en0summerCompulsoryExyes
DS446Friday CEITEC BUT seminaren2summerCompulsoryCryes
DS102ADiagnostics and measurements of functional properties of nanostructuresen0summerCompulsory-optionalExyes
DS102Diagnostics and measurements of functional properties of nanostructurescs0summerCompulsory-optionalExyes
DS103AExperimental biophotonicsen0summerCompulsory-optionalDrExyes
DS103Experimental biophotonicscs0summerCompulsory-optionalDrExyes
DS104Physical Principles of Deformation of Solidscs0summerCompulsory-optionalDrExyes
DS105Green's functions in modern condensed matter physicscs0summerCompulsory-optionalDrExyes
DS105AGreen's functions in modern condensed matter physicsen0summerCompulsory-optionalDrExyes
DS114ALaser-Induced Breakdown Spectroscopy – fundamentals, utilization and related techniquesen0summerCompulsory-optionalDrExyes
DS106AMicro and nano computed tomographyen0summerCompulsory-optionalDrExyes
DS107AMicrotechnologiesen0summerCompulsory-optionalDrExyes
DS106Micro and nano CTcs0summerCompulsory-optionalDrExyes
DS107Microtechnologiescs0summerCompulsory-optionalDrExyes
DS108Nanophotonicscs0summerCompulsory-optionalDrExyes
DS108ANanophotonicsen0summerCompulsory-optionalDrExyes
DS104A Physical Principles of Deformation of Solidsen0summerCompulsory-optionalDrExyes
DS111Semiconductor heterostructurescs0summerCompulsory-optionalExno
DS112A Prediction of mechanical and magnetic properties of solids from their electronic structureen0summerCompulsory-optionalDrExyes
DS112Prediction of mechanical and magnetic properties of solids from their electronic structurecs0summerCompulsory-optionalDrExyes
DS111ASemiconductor heterostructuresen0summerCompulsory-optionalDrExno
DS114Laser-Induced Breakdown Spectroscopy – fundamentals, utilization and related techniquescs0summerCompulsory-optionalDrExyes
DS115ASurface Scienceen0summerCompulsory-optionalDrExyes
S4003Career management for scientistsen2summerOptional (voluntary)Exyes
S4004Financing of research – training in grant applicationsen2summerOptional (voluntary)Colyes
2. year of study, winter semester
AbbreviationTitleL.Cr.Sem.Com.Compl.Gr.Op.
DS101Inorganic Materials Chemistrycs0winterCompulsory-optionalDrExyes
DS102ADiagnostics and measurements of functional properties of nanostructuresen0winterCompulsory-optionalExyes
DS103AExperimental biophotonicsen0winterCompulsory-optionalDrExyes
DS103Experimental biophotonicscs0winterCompulsory-optionalDrExyes
DS104Physical Principles of Deformation of Solidscs0winterCompulsory-optionalDrExyes
DS105Green's functions in modern condensed matter physicscs0winterCompulsory-optionalDrExyes
DS105AGreen's functions in modern condensed matter physicsen0winterCompulsory-optionalDrExyes
DS101AInorganic Materials Chemistryen0winterCompulsory-optionalDrExyes
DS114ALaser-Induced Breakdown Spectroscopy – fundamentals, utilization and related techniquesen0winterCompulsory-optionalDrExyes
DS106AMicro and nano computed tomographyen0winterCompulsory-optionalDrExyes
DS107AMicrotechnologiesen0winterCompulsory-optionalDrExyes
DS106Micro and nano CTcs0winterCompulsory-optionalDrExyes
DS107Microtechnologiescs0winterCompulsory-optionalDrExyes
DS108Nanophotonicscs0winterCompulsory-optionalDrExyes
DS108ANanophotonicsen0winterCompulsory-optionalDrExyes
DS104A Physical Principles of Deformation of Solidsen0winterCompulsory-optionalDrExyes
DS112A Prediction of mechanical and magnetic properties of solids from their electronic structureen0winterCompulsory-optionalDrExyes
DS112Prediction of mechanical and magnetic properties of solids from their electronic structurecs0winterCompulsory-optionalDrExyes
DS111ASemiconductor heterostructuresen0winterCompulsory-optionalDrExno
DS114Laser-Induced Breakdown Spectroscopy – fundamentals, utilization and related techniquescs0winterCompulsory-optionalDrExyes
DS115ASurface Scienceen0winterCompulsory-optionalDrExyes
S4001International performanceen2winterOptional (voluntary)Exyes
S4002Law, ethics and philosophy of scienceen2winterOptional (voluntary)Exyes
2. year of study, summer semester
AbbreviationTitleL.Cr.Sem.Com.Compl.Gr.Op.
DS102ADiagnostics and measurements of functional properties of nanostructuresen0summerCompulsory-optionalExyes
DS102Diagnostics and measurements of functional properties of nanostructurescs0summerCompulsory-optionalExyes
DS103AExperimental biophotonicsen0summerCompulsory-optionalDrExyes
DS103Experimental biophotonicscs0summerCompulsory-optionalDrExyes
DS104Physical Principles of Deformation of Solidscs0summerCompulsory-optionalDrExyes
DS105Green's functions in modern condensed matter physicscs0summerCompulsory-optionalDrExyes
DS105AGreen's functions in modern condensed matter physicsen0summerCompulsory-optionalDrExyes
DS114ALaser-Induced Breakdown Spectroscopy – fundamentals, utilization and related techniquesen0summerCompulsory-optionalDrExyes
DS106AMicro and nano computed tomographyen0summerCompulsory-optionalDrExyes
DS107AMicrotechnologiesen0summerCompulsory-optionalDrExyes
DS106Micro and nano CTcs0summerCompulsory-optionalDrExyes
DS107Microtechnologiescs0summerCompulsory-optionalDrExyes
DS108Nanophotonicscs0summerCompulsory-optionalDrExyes
DS108ANanophotonicsen0summerCompulsory-optionalDrExyes
DS104A Physical Principles of Deformation of Solidsen0summerCompulsory-optionalDrExyes
DS111Semiconductor heterostructurescs0summerCompulsory-optionalExno
DS112A Prediction of mechanical and magnetic properties of solids from their electronic structureen0summerCompulsory-optionalDrExyes
DS112Prediction of mechanical and magnetic properties of solids from their electronic structurecs0summerCompulsory-optionalDrExyes
DS111ASemiconductor heterostructuresen0summerCompulsory-optionalDrExno
DS114Laser-Induced Breakdown Spectroscopy – fundamentals, utilization and related techniquescs0summerCompulsory-optionalDrExyes
DS115ASurface Scienceen0summerCompulsory-optionalDrExyes
S4003Career management for scientistsen2summerOptional (voluntary)Exyes
S4004Financing of research – training in grant applicationsen2summerOptional (voluntary)Colyes