Branch Details

Advanced Materials

CEITEC VUTAbbreviation: AMAcad. year: 2019/2020

Programme: Advanced Materials and Nanosciences

Length of Study: 4 years

Accredited from: 1.1.2011Accredited until:

Profile

The field "Advanced Materials" will provide students with knowledge and skills focused mainly on advanced (functionally and structurally gradient, nanostructured, intelligent) ceramic materials, polymers, metals and composites. This area includes advanced methods of preparation of advanced materials and multifunctional composites with polymer, ceramic and metal matrices, to characterize their structure at different dimensional levels, to quantify the relationships between structural parameters and properties of these materials. The field also includes applications of advanced materials in medicine, mechanical engineering, electrical engineering, energy and chemistry.
By completing the study, the student will gain sufficient professional knowledge and skills needed to solve various scientific problems in research and development institutions and in industrial practice. The graduate will be able to work at the necessary level for further development of the field at the workplaces of their further activities (academic and scientific institutions and institutions of the implementation area) and contribute to improving the competitiveness of research and application areas of these institutions. The concept of the study program enables students to acquire sufficient competencies for cooperation in national and international development, design and research teams. The graduate of this field will gain solid abilities and skills to work in scientific and research centers not only in the Czech Republic but also abroad.

Entry requirements

http://amn-phd.ceitec.cz/admission-step-by-step/

Guarantor

Issued topics of Doctoral Study Program


Course structure diagram with ECTS credits

1. year of study, winter semester
AbbreviationTitleL.Cr.Com.Compl.Hr. rangeGr.Op.
DS444Academic English for PhDen0Compulsoryyes
DS446Friday CEITEC BUT seminaren2Compulsoryyes
DS113APrinciples of Nanosciences and Nanotechnologiesen0Compulsoryyes
DS113Principles of Nanosciences and Nanotechnologiescs0Compulsoryyes
DS213A Advanced ceramics technologiesen0Compulsory-optionalyes
DS216AAdvanced fracture mechanicsen0Compulsory-optionalyes
DS210AAdvanced synthesis of nanoparticle ceramic materialsen0Compulsory-optionalyes
DS201AAdvanced Topics in Polymer Physicsen0Compulsory-optionalyes
DS101Inorganic Materials Chemistrycs0Compulsory-optionalyes
DS202A Bioceramics materials and biocompositesen0Compulsory-optionalyes
DS202Bioceramics materials and biocompositescs0Compulsory-optionalyes
DS204A Colloids, Surfaces and Catalysisen0Compulsory-optionalyes
DS203Degradation and stability of polymerscs0Compulsory-optionalyes
DS203A Degradation and stability of polymersen0Compulsory-optionalyes
DS102ADiagnostics and measurements of functional properties of nanostructuresen0Compulsory-optionalyes
DS102Diagnostics and measurements of functional properties of nanostructurescs0Compulsory-optionalno
DS103AExperimental biophotonicsen0Compulsory-optionalyes
DS103Experimental biophotonicscs0Compulsory-optionalyes
DS104Physical Principles of Deformation of Solidscs0Compulsory-optionalyes
DS105Green's functions in modern condensed matter physicscs0Compulsory-optionalyes
DS105AGreen's functions in modern condensed matter physicsen0Compulsory-optionalyes
DS214AHigh temperature process in inorganics materialsen0Compulsory-optionalyes
DS101AInorganic Materials Chemistryen0Compulsory-optionalyes
DS215Topics in Advaced Ceramic Materialscs0Compulsory-optionalyes
DS204Colloids, Surfaces and Catalysiscs0Compulsory-optionalyes
DS114ALaser-Induced Breakdown Spectroscopy – fundamentals, utilization and related techniquesen0Compulsory-optionalyes
DS206X-ray structure analysis methodscs0Compulsory-optionalyes
DS106AMicro and nano computed tomographyen0Compulsory-optionalyes
DS207A Micromechanics of Deformation and Fracture of Advanced Materialsen0Compulsory-optionalyes
DS107AMicrotechnologiesen0Compulsory-optionalyes
DS106Micro and nano CTcs0Compulsory-optionalyes
DS207Micromechanics of Deformation and Fracture of Advanced Materialscs0Compulsory-optionalyes
DS107Microtechnologiescs0Compulsory-optionalyes
DS108Nanophotonicscs0Compulsory-optionalyes
DS108ANanophotonicsen0Compulsory-optionalyes
DS208Non-oxide ceramicscs0Compulsory-optionalyes
DS208ANon-oxide ceramicsen0Compulsory-optionalyes
DS104A Physical Principles of Deformation of Solidsen0Compulsory-optionalyes
DS216Advanced fracture mechanicscs0Compulsory-optionalyes
DS210Advanced synthesis of nanoparticle ceramic materialscs0Compulsory-optionalyes
DS211APolymers in Medicineen0Compulsory-optionalyes
DS112A Prediction of mechanical and magnetic properties of solids from their electronic structureen0Compulsory-optionalyes
DS112Prediction of mechanical and magnetic properties of solids from their electronic structurecs0Compulsory-optionalyes
DS111ASemiconductor heterostructuresen0Compulsory-optionalno
DS114Laser-Induced Breakdown Spectroscopy – fundamentals, utilization and related techniquescs0Compulsory-optionalyes
DS213Advanced ceramics technologiescs0Compulsory-optionalyes
DS215ATopics in Advaced Ceramic Materialsen0Compulsory-optionalyes
DS214High temperature process in inorganics materialscs0Compulsory-optionalyes
DS206AX-ray structure analysis methodsen0Compulsory-optionalyes
S4001International performanceen2Elective (voluntary)yes
S4002Law, ethics and philosophy of scienceen2Elective (voluntary)yes
1. year of study, summer semester
AbbreviationTitleL.Cr.Com.Compl.Hr. rangeGr.Op.
DS445Academic English for PhD 2en0Compulsoryyes
DS446Friday CEITEC BUT seminaren2Compulsoryyes
DS213A Advanced ceramics technologiesen0Compulsory-optionalyes
DS216AAdvanced fracture mechanicsen0Compulsory-optionalyes
DS210AAdvanced synthesis of nanoparticle ceramic materialsen0Compulsory-optionalyes
DS116AAdvanced Topics in Nanotechnologyen0Compulsory-optionalyes
DS201AAdvanced Topics in Polymer Physicsen0Compulsory-optionalyes
DS202A Bioceramics materials and biocompositesen0Compulsory-optionalyes
DS202Bioceramics materials and biocompositescs0Compulsory-optionalyes
DS204A Colloids, Surfaces and Catalysisen0Compulsory-optionalyes
DS203Degradation and stability of polymerscs0Compulsory-optionalyes
DS203A Degradation and stability of polymersen0Compulsory-optionalyes
DS102ADiagnostics and measurements of functional properties of nanostructuresen0Compulsory-optionalyes
DS102Diagnostics and measurements of functional properties of nanostructurescs0Compulsory-optionalyes
DS103AExperimental biophotonicsen0Compulsory-optionalyes
DS103Experimental biophotonicscs0Compulsory-optionalyes
DS104Physical Principles of Deformation of Solidscs0Compulsory-optionalyes
DS105Green's functions in modern condensed matter physicscs0Compulsory-optionalyes
DS105AGreen's functions in modern condensed matter physicsen0Compulsory-optionalyes
DS214AHigh temperature process in inorganics materialsen0Compulsory-optionalyes
DS215Topics in Advaced Ceramic Materialscs0Compulsory-optionalyes
DS204Colloids, Surfaces and Catalysiscs0Compulsory-optionalyes
DS114ALaser-Induced Breakdown Spectroscopy – fundamentals, utilization and related techniquesen0Compulsory-optionalyes
DS206X-ray structure analysis methodscs0Compulsory-optionalyes
DS106AMicro and nano computed tomographyen0Compulsory-optionalyes
DS207A Micromechanics of Deformation and Fracture of Advanced Materialsen0Compulsory-optionalyes
DS107AMicrotechnologiesen0Compulsory-optionalyes
DS106Micro and nano CTcs0Compulsory-optionalyes
DS207Micromechanics of Deformation and Fracture of Advanced Materialscs0Compulsory-optionalyes
DS107Microtechnologiescs0Compulsory-optionalyes
DS108Nanophotonicscs0Compulsory-optionalyes
DS108ANanophotonicsen0Compulsory-optionalyes
DS208Non-oxide ceramicscs0Compulsory-optionalyes
DS208ANon-oxide ceramicsen0Compulsory-optionalyes
DS104A Physical Principles of Deformation of Solidsen0Compulsory-optionalyes
DS216Advanced fracture mechanicscs0Compulsory-optionalyes
DS210Advanced synthesis of nanoparticle ceramic materialscs0Compulsory-optionalyes
DS111Semiconductor heterostructurescs0Compulsory-optionalno
DS211APolymers in Medicineen0Compulsory-optionalyes
DS112A Prediction of mechanical and magnetic properties of solids from their electronic structureen0Compulsory-optionalyes
DS112Prediction of mechanical and magnetic properties of solids from their electronic structurecs0Compulsory-optionalyes
DS111ASemiconductor heterostructuresen0Compulsory-optionalno
DS212ASpecialty Polymer Synthesisen0Compulsory-optionalno
DS114Laser-Induced Breakdown Spectroscopy – fundamentals, utilization and related techniquescs0Compulsory-optionalyes
DS213Advanced ceramics technologiescs0Compulsory-optionalyes
DS215ATopics in Advaced Ceramic Materialsen0Compulsory-optionalyes
DS214High temperature process in inorganics materialscs0Compulsory-optionalyes
DS206AX-ray structure analysis methodsen0Compulsory-optionalyes
S4003Career management for scientistsen2Elective (voluntary)yes
S4004Financing of research – training in grant applicationsen2Elective (voluntary)yes