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UniversitätSiegenNaturwissenschaftlich-TechnischeFakultät
ModulhandbuchfürdenStudiengang
NanoscienceandNanotechnology
MasterofScience(M.Sc.)
EntwurfStand20.9.2016
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Contents1. Introduction
2. StructureofMasterCourseNanoscienceandNanotechnology
3. ListofModules
4. Modules
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1.QualifikationszieleundVerlaufdesStudiengangsAufbauend auf einem ersten Hochschulabschluss führt das Masterstudium zu einemErwerb von analytischen und methodischen Kompetenzen im Bereich derNanowissenschaft und Nanotechnologie. Die Absolventinnen und Absolventen desStudiengangs haben vertiefte Kenntnisse und Fähigkeiten im Bereich derphysikalischen, chemischen und technologischen Teilfächer der Nanowissenschafterworben. Damit sind sie in der Lage, die interdisziplinären Fragestellungen derNanowissenschaftenundTechnologieerfolgreichzubearbeiten.DieAbsolventinnenundAbsolventendesStudiengangswerdenfürdieuniversitäreundaußeruniversitäre Grundlagenforschung im Bereich der Nanowissenschaftenvorbereitet. Insbesonderesindsie,bedingtdurchden interdisziplinärenCharakterdesStudiengangs, in der Lage, an den relevanten Schnittstellen der klassischen FelderPhysik, Chemie und Ingenieurswissenschaften zu forschen. Sie sind für einPromotionsstudiumineinemderTeilfächerqualifiziert.DieAbsolventinnenundAbsolventenerwerbengrundlegendeKenntnisse inmehrerenTeilaspektendermodernenNanowissenschaften,dieesihnenermöglichen,inIndustrie-undDienstleistungsunternehmenerfolgreichzuarbeiten.DerStudiengangistbewusstdepartmentsübergreifendangelegt,umdieganzeBreiteder Nanowissenschaft und Nanotechnologie als Spiegelbild der MINT Fächerabzudecken. Der Studiengang ist als englischsprachiger und auf Forschung iminternationalen Wettbewerb ausgerichteter Studiengang ein internationalerStudiengang.Inhaltlich wird eine viersemestrige Ausbildung in den wesentlichen Aspekten derNanowissenschaftenangeboten:Im 1. Semester gibt es dazu drei unterschiedliche Säulen, je nachVorkenntnissen derStudierenden.DamiterwerbendieStudierendendieGrundlagenderjeweiligenanderenTeildisziplinen indenNanowissenschaften.Gemeinsamist im1.SemestereinSeminarim Bereich der Forschung in den Nanowissenschaften, in dem u.a. auch auf wichtigeglobale Aspekte wie ein sicherer Umgang mit Nanotechnologie („Nanosafety“)eingegangenwird.Im 2. Semester gibt es dann die Pflichtkurse Nanochemistry, Photonic devices, undNanoelectronic devices. Zwei Praktika sind vorgesehen „Micro and Nanotechnology“und „Nanosynthesis and Nanoanalytics“, die die experimentellen Methoden derNanowissenschaft(incl.Nanotoxikologie)inSiegenabdecken.Im 3. Semester haben die Studierenden die Möglichkeit aus einem breitenWahlpflichtkatalog Vorlesungen zuwählen, zeitgleich findet ein ForschungspraktikumzurVorbereitungaufdieMasterarbeitindenArbeitsgruppenstatt.Im4.SemesterwirdschließlichdieMasterarbeitangefertigt.
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Based on a first university degree, the Master's degree leads to the acquisition ofanalytical and methodological competences in the field of nanoscience andnanotechnology. The graduates of the course have acquired in-depth knowledge andskillsinthefieldofphysical,chemicalandtechnologicalsubdivisionsofthenanoscience.They are therefore able to successfully deal with the interdisciplinary issues ofnanoscienceandnanotechnology.The graduates of the course are prepared for university and non-university basicresearchinthefieldofnanoscience.Inparticular,duetotheinterdisciplinarycharacterofthecourse,theyareabletoperformresearchattherelevantinterfacesoftheclassicalfields of physics, chemistry and engineering sciences. They are qualified for a PhDprograminphysics,chemistryorelectricalengineering.Thegraduatestudentsacquirebasicknowledge inseveralaspectsof themodernnanosciences,whichenablethemtoworksuccessfullyinindustrialandservicecompanies.The study program is designed to bridge the departments of physics, chemistry andengineering to cover the entire width of nanoscience and nanotechnologywithin theMINT subjects. The course is international as it is held in English and it aims forcompetitiveinternationalresearch.In terms of content, four-semester training is offered in the essential aspects ofnanosciences:Inthe1stsemestertherearethreedifferententrytrainings,dependingonthestudents'previous knowledge. In this way, the students acquire the fundamentals of therespectiveotherdisciplinesinthenanosciences.Inthefirstsemester,aseminarwillbeheldinthefieldofnanoscienceresearchandalsoonimportantglobalaspectssuchasasafehandlingofnanotechnology("nanosafety").In the 2nd semester, there will be compulsory courses in nanochemistry, photonicdevices and nanoelectronic devices. Two internships are planned: "Micro andNanotechnology"and"NanosynthesisandNanoanalytics",whichcovertheexperimentalmethodsofnanoscience(includingnanotoxicology)inSiegen.In the 3rd semester, students have the opportunity to choose from a wide list ofcompulsoryelectivecourses,whilea research internship isalsobeingheld toprepareforthemasterthesisintheworkinggroups.Inthe4thsemester,themaster'sthesisispreparedwithintheresearchgroups.
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2.StructureMasterCourseNanoscienceandNanotechnology
BasicmoduleforB.Sc.Physics
BasicmoduleforB.Sc.Chemistry
BasicmoduleforB.Sc.Engineering
Generalchemistry(incl.Labcourse) 9CP Quantumtheory 6CP Quantumtheory 6CP
Advancedsolidstatephysics 6CP Solidstatephysicsincl.
adv.math.methods 9CP Solidstatephysics 6CP
Nanoelectronicdevices 6CP Nanoelectronicdevices 6CP Generalchemistry(incl.Labcourse) 9CP1.
semester
Nano-researchcourse(Seminar+electivemoduleORResearchLab) 9CP
Nanochemistry 6CP
Photonicdevices 6CP
Nanotechnology 6CP
Labcourse“MicroandNanotechnology”(Processing:Litho,PVD,CVD,Etching,FIB,….) 6CP2. semester
Labcourse“Nanosynthesis,nanosafetyandnanoanalytics”(Nanostructuresynthesis+Analytics:PL,Raman,X-Ray,LightScattering,REM,TEM,….) 6CP
(freechoicefromcoursecatalog) 6CP
(freechoicefromcoursecatalog) 6CP
(freechoicefromcoursecatalog) 6CP
3. semester
Researchlabcourse(thesisprep.) 12CP
4. semester
Masterthesis 30CP
Mandatorycourse Freechoicefromcoursecatalogue Mandatorywithfreechoiceofresearchfield Lectureswithnanosciencecontentwhichareoffered
onlyinsemester2or4
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3.ListofModules
Nr Course ModuleID
Semester CP Type P. Comment
1 Solidstatephysics SSP 1 6 Lecture # MandatoryforEng
2 Solidstatephysicsandadvancedmathematicalmethods
SSP/AMM 1 9 Lecture # MandatoryforChem
3 Advancedsolidstatephysics
ASSP 1 6 Lecture # MandatoryforPhys
4 Quantumtheory QT 1 6 Lecture # MandatoryforEng/Chem
5 Generalchemistry GChem 1 9 Lecture/Lab
# MandatoryforPhys/Eng
6 Nanoelectronicdevices NanoDev 1 6 Lecture # MandatoryforPhys/ChemElectiveforEng
7 Nano-researchCourse NRC 1 9 Lab/Lecture/Seminar
# MandatoryforPhys/Chem/Eng
8 Nanochemistry NChem 2 6 Lecture # MandatoryforPhys/Chem/Eng
9 Photonicdevices PhDev 2 6 Lecture # MandatoryforPhys/Chem/Eng
10 Nanotechnology NT 2 6 Lecture # MandatoryforPhys/Chem/Eng
11 Quantumfieldtheoryforsolidstatephysics
SST 1,3 6 Lecture # Elective
12 Nano-Optics NanOpt 1,3 6 Lecture # Elective13 Scanningprobetechniques
fornanostructuresSPT 1,3 6 Lecture # Elective
14 SolidstatephysicsinNanoscience
SSP-NS 1,3 6 Lecture # Elective
15 ModernmethodsofX-rayscattering
MMX 1,3 6 Lecture # Elective
16 Crystallography Cryst 1,3 6 Lecture # Elective17 NanostructuredMaterials NanMat 1,3 6 Lecture # Elective18 AppliedOptical
SpectroscopyApplSpec 1,3 6 Lecture # Elective
19 Physicalchemistryofnanostructuredandsoftmaterials
PC-Nano 1,3 6 Lecture # Elective
20 MethodsandTechniquesofSurfaceAnalysis
MTSA 3 6 Lecture # Elective
21 PolymerChemistryI–PropertiesofPolymers
PolyChemI 1,3 6 Lecture # Elective
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22 MaterialsforEnergyStorageandConversion
MaSC 3 6 Lecture # Elective
23 AdvancedMagneticResonanceSpectroscopy
NMR 3 6 Lecture # Elective
24 Labcourse“MicroandNanotechnology”
LAB1 3 6 Lab-Course
# MandatoryforPhys/Chem/Eng
25 Laboratorycourse“NanosynthesisandNanoanalytics”
LAB2 3 6 Lab-Course
# MandatoryforPhys/Chem/Eng
26 Researchlabcourse RLC 4 12 Lab-Course
# MandatoryforPhys/Chem/Eng
27 MasterThesis MT 4 30 Lab-Course
# MandatoryforPhys/Chem/Eng
28 PhysicsandChemistryofInterfaces
PC-Interf 2,4 6 Lecture # Elective
29 AtomicForceMicroscopyformaterialsandinterfacescience
AFM 2,4 6 Lecture # Elective
30 PolymerChemistryII–SynthesesofPolymers
PolyChemII 2,4 6 Lecture # Elective
31 AdvancedtopicsinPolymerChemistry
AdvPolyChem
1,3 6 Lecture # Elective
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4.ModulesDegreeprogramme MasterNanoscienceandNanotechnology
Coursetitle,Topic Solidstatephysics
Subtitle(optional) 1
ModuleID SSP
Responsiblelecturer Prof.Dr.Gutt/Prof.Dr.Pietsch
Teachingtype Lecture,tutorial
Relationtocurriculum
mandatorybasicmoduleforstudentswithaB.Sc.inEngineering
Semester 1
Creditpoints(CP) 6
Workload Lecture:30h,tutorial:30h,additionalindividualworkofthestudent/homeworktime:120h
Prerequisitesforparticipation
None
Learningoutcomes/Competences
Thestudentsknowthefundamentalconceptsandmethodsofsolidstateandnano-physics.Theunderlyingphysicalprinciplesandthemathematicalformalismareunderstoodandthestudentscanapplythesetorecentresearchtopicsofnanoscience.
Coursedescription Structuralpropertiesofsolidstates,bindingenergies,crystals,glasses,liquids,structuredeterminationviaX-rayscattering,phonons,electrongas,bandstructure,metal,insulator,semiconductor,thermalpropertiesofelectronsandphonons,spinsandmagnetism,exchange,ferro-,antiferro-,dia-andparamagnetism,magnetisminnanoscience
Interdisciplinaryqualifications
Abilitytothinkintermsofabstractconcepts,recognitionofcomplexproblems,applicationofadvancedknowledgeandskillsininter-andtrans-disciplinarydiscussionofcomplexissues,debatinganddiscussinginEnglish.
Assessmentmethod(Contribution)
Examcredits:Writtenexamination(100%)ororalexamination(100%)
Literature Kittel,Ashcroft/Mermin,Ibach/Lüthandadditionalliteraturetobeannouncedatthebeginningofthemodule.
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Degreeprogramme MasterNanoscienceandNanotechnology
Coursetitle,Topic Solidstatephysicsandadvancedmathematicalmethods
Subtitle(optional) 2
ModuleID SSP/AMM
Responsiblelecturer Prof.Dr.Gutt/Prof.Dr.Pietsch
Teachingtype Lecture,tutorial
Relationtocurriculum
mandatorybasicmoduleforstudentswithaB.Sc.inChemistry
Semester 1
Creditpoints(CP) 9
Workload Lecture:45h,tutorial:45h,additionalindividualworkofthestudent/homeworktime:180h
Prerequisitesforparticipation
None
Learningoutcomes/Competences
Thestudentsknowbasicmathematicaltoolsofsolidstatephysicsandphysicsingeneral.Thestudentsknowthefundamentalconceptsandmethodsofsolidstateandnano-physicsandcanapplythesetorecentresearchtopicsofnanoscience.
Coursedescription Fourier-Transformation,Taylor-expansion,MatricesandDeterminants,differentialequations,complexfunctionsasneededforthecourse.Structuralpropertiesofsolidstates,bindingenergies,crystals,glasses,liquids,structuredeterminationviaX-rayscattering,phonons,electrongas,bandstructure,metal,insulator,semiconductor,thermalpropertiesofelectronsandphonons,spinsandmagnetism,exchange,ferro-,antiferro-,dia-andparamagnetism,magnetisminnanoscience
Interdisciplinaryqualifications
Abilitytothinkintermsofabstractconcepts,recognitionofcomplexproblems,applicationofadvancedknowledgeandskillsininter-andtrans-disciplinarydiscussionofcomplexissues,debatinganddiscussinginEnglish.
Assessmentmethod(Contribution)
Examcredits:Writtenexamination(100%)ororalexamination(100%)
Literature Kittel,Ashcroft/Mermin,Ibach/Lüthandadditionalliteraturetobeannouncedatthebeginningofthemodule.
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Degreeprogramme MasterNanoscienceandNanotechnology
Coursetitle,Topic Advancedsolidstatephysics
Subtitle(optional) 3
ModuleID ASSP
Specialization Solidstatephysics
Responsiblelecturer Prof.Dr.Gutt/Prof.Dr.Pietsch
Teachingtype Lecture,tutorial
Relationtocurriculum
mandatorybasicmoduleforstudentswithaB.Sc.inPhysics
Semester 1
Creditpoints(CP) 6
Workload Lecture:30h,tutorial:30h,additionalindividualworkofthestudent/homeworktime:120h
Prerequisitesforparticipation
None
Learningoutcomes/Competences
Thestudentsknowtheextendedmorecomplexconceptsandmethodsofsolidstateandnano-physicsandcanapplythesetorecentresearchtopicsofnanoscience.Thestudentslearnhowtodescribeandassessphysicalphenomenaofmanybodycharacterinsolidstatephysics.
Coursedescription Thermalpropertiesofnanostructures,harmonicandanharmoniccrystal,electronicpropertiesofnanostructures,Sommerfeld-theoryofmetals,electrongas,quantummechanicsofelectronsinpotentials,Bloch-functions,Fermi-surfaces,energybands,Brillouinzones,conductivityinmetals,measurementoffermi-surfaces,homogeneousandinhomogeneoussemiconductors,conceptsofmagnetism,exchangeinteraction,ferro/antiferro/dia/paramagnetismandapplicationsinnanoscience,superconductivity
Interdisciplinaryqualifications
Abilitytothinkintermsofabstractconcepts,recognitionofcomplexproblems,applicationofadvancedknowledgeandskillsininter-andtrans-disciplinarydiscussionofcomplexissues,debatinganddiscussinginEnglish.
Assessmentmethod(Contribution)
Examcredits:Writtenexamination(100%)ororalexamination(100%)
Literature Kittel,Ashcroft/Mermin,Ibach/Lüthandadditionalliteraturetobeannouncedatthebeginningofthemodule.
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Degreeprogramme MasterNanoscienceandNanotechnology
Coursetitle,Topic Quantumtheory
Subtitle(optional) 4
ModuleID QT
Specialization
Responsiblelecturer Prof.Dr.Kilian
Teachingtype Lecture,tutorial
Relationtocurriculum
mandatorybasicmoduleforstudentswithaB.Sc.inChemistryoraB.Sc.inEngineering
Semester 1
Creditpoints(CP) 6
Workload Lecture:30h,tutorial:30h,additionalindividualworkofthestudent/homeworktime:120h
Prerequisitesforparticipation
None
Learningoutcomes/Competences
Thestudentsknowthefundamentalconceptsandmethodsofquantumphysics.Thestudentsareabletodescribeelementaryquantumphysicalphenomenaintermsofwavefunctionsandinterpretexperimentaloutcomesintermsofprobabilitytheory.
Coursedescription -Keyexperimentsforquantumphenomena;-Wavefunctions,energyandmomentuminpositionrepresentation,Schrödingerequation;-Eigenvalues,expectationvalueanduncertaintyofobservables;-Transmission/reflectionandtunnelling;-Stationarystates,harmonicoscillator;-Angularmomentumquantizationandspin;-Bosonsandfermions,electrongas;-Basiceffectsofinteractionsandoffinitetemperature
Interdisciplinaryqualifications
Abilitytothinkintermsofabstractconcepts,recognitionofcomplexproblems,applicationofadvancedknowledgeandskillsininter-andtrans-disciplinarydiscussionofcomplexissues,debatinganddiscussinginEnglish.
Assessmentmethod(Contribution)
Examcredits:Writtenexamination(100%)
Literature tobeannouncedinthefirstlecture
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Degreeprogramme MasterNanoscienceandNanotechnology
Coursetitle,Topic Generalchemistry(incl.laboratorycourse)
Subtitle(optional) 5
ModuleID GChem
Specialization
Responsiblelecturer Prof.Dr.Schönherr
Teachingtype Lecture,tutorial,Lab-course
Relationtocurriculum
mandatorybasicmoduleforstudentswithaB.Sc.inPhysicsoraB.Sc.inEngineering
Semester 1
Creditpoints(CP) 6
Workload Lecture:30h,tutorial:30h,60hLabcourse,homeworktime:60h
Prerequisitesforparticipation
None
Learningoutcomes/Competences
Thestudentsknowthefundamentalconceptsofchemistry(e.g.structure-propertyrelationships,donor-acceptorconcept)andpossessfundamentalknowledgeontheconstitutionofmatterandlawsofchemistry.Theypossessfundamentalunderstandingofindustrialchemicalprocessesandchemicalprocessesinnature.Theyarefurtheraccustomedtothemainmodelsinchemistry,theyareabletoobserve,analyze,interpretandadequatelyreportandsummarizeinwrittenformdedicatednaturalphenomena.Theypossessfundamentalcompetencesintheplanning,execution,analysisandevaluationofchemicalexperiments,theymasterfundamentaltechniquesofchemicalandanalyticallaboratorywork.Theirhandlingofchemicalsissafeandadequatelycautious.
Coursedescription Principlesofgeneralchemistry.Atomictheory,electronicstructureandpropertiesofatoms,periodictable,ionic,covalentandmetallicbonding,molecularorbitals,structuresofmolecules,chemicalformulas,reactionequations,stoichiometry,energybalanceofchemicalreactions,chemicalkinetics,chemicalequilibrium,acidsandbases,acid-baseequilibria,gasses,liquidsandsolids,phaseequilibria,solutions,electrochemistry,
Interdisciplinaryqualifications
Abilitytothinkintermsofabstractconcepts,recognitionofcomplexproblems,applicationofadvancedknowledgeandskillsininter-andtrans-disciplinarydiscussionofcomplexissues,debatinganddiscussinginEnglish,abilitytoworkinateam,organizationofalabworkplace.
Assessmentmethod(Contribution)
Examcredits:Writtenexamination(50%),labcourseandtutorial(50%).Bothpartsmustbepassedseparately.
Literature Chemistry:TheCentralSciencewithMasteringChemistry,GlobalEdition,Brown,LeMay,Bursten,Murphy,Woodward
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Degreeprogramme MasterNanoscienceandNanotechnology
Coursetitle,Topic Nanoelectronicdevices
Subtitle(optional) 6
ModuleID NanoDev
Specialization
Responsiblelecturer Prof.Dr.Lemme
Teachingtype Lecture,tutorial
Relationtocurriculum
mandatorybasicmoduleforstudentswithaB.Sc.inChemistry,PhysicsorEngineering
Semester 2
Creditpoints(CP) 6
Workload Lecture:30h,tutorial:30h,additionalindividualworkofthestudent/homeworktime:120h
Prerequisitesforparticipation
None
Learningoutcomes/Competences
Thestudentsshouldbeableto• describethefundamentalconceptsandoperationprinciples
ofnanoelectronicdevices• discusslimitationsinshort-channelsiliconMOSFETs,
includingquantummechanicalphenomena• connectdevicephysicswithdeviceoperationmodes• selectanddefinerelevantdeviceparametersforapplications
inmodernelectronicsCoursedescription Thiscoursecoversthephysicsofmicro-andnanoelectronic
semiconductordevicesforsiliconintegratedcircuitapplications.Thetopicsincludesemiconductorfundamentals,p-njunctions,themetal-oxidesemiconductorstructure,metal-semiconductorjunctions,MOSthefield-effecttransistor,andthebipolarjunctiontransistor.Thecourseaimstoconnectaphysicalunderstandingofdeviceoperationthroughenergybanddiagramswithapplication-orientedexamples.Nanoscale(short-channel)MOSFETsarediscussedindetailasmanyquantummechanicalphenomenahavetobeconsideredatthenanoscale.
Interdisciplinaryqualifications
Abilitytothinkintermsofabstractconcepts,recognitionofcomplexproblems,applicationofadvancedknowledgeandskillsininter-andtrans-disciplinarydiscussionofcomplexissues,debatinganddiscussinginEnglish.
Assessmentmethod(Contribution)
Examcredits:Writtenexamination(100%)ororalexamination(100%)
Literature RobertF.Pierret,SemiconductorDeviceFundamentals.Reading,MA:AddisonWesley,1996SimonM.Sze,PhysicsofSemiconductorDevices,3rded.,Wiley-Interscience
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Degreeprogramme MasterNanoscienceandNanotechnology
Coursetitle,Topic NanoresearchCourse
Subtitle(optional) 7
ModuleID NRC
Specialization Lab/Lecture+Seminar
Responsiblelecturer Prof.Dr.ChristianGutt,Prof.Dr.MarioAgio,Prof.Dr.U.Pietsch,Prof.Dr.HolgerSchönherr,Prof.Dr.ClaudiaWickleder,ProfDr.U.Jonas,Prof.Dr.JörnSchmedtaufderGünne,Prof.Dr.MaxLemme,Prof.Dr.PeterHaringBolivar
Teachingtype Seminar
Relationtocurriculum
mandatorybasicmoduleforstudentwithaB.Sc.inChemistry,PhysicsorEngineering
Semester 1
Creditpoints(CP) 9
Workload Preparationoftalk30h,Seminar30h,writtensummary30handoneofthetwofollowing(1)Lecture:30h,tutorial30h,homework120hor(2)LabCourse:60hworklaboratory,60hpreparation,60hhomework
Prerequisitesforparticipation
None
Learningoutcomes/Competences
Thestudentsknowhowtoprepareandgiveascientifictalk.Thestudentslearnaboutthenewestdevelopmentinnano-scienceandnanotechnology.Thestudentslearnthebasicsofscientificdiscussionsandlearntowriteasummaryofascienceliteratureresearch.
Coursedescription SeminarwithstudenttalksaboutnewtopicsinNanoscienceandNanotechnology.Discussion.15Pagewrittensummary.LaboratoryCoursewithintheresearchgroupsoralecturefromtheelectivemodulecatalogue.
Interdisciplinaryqualifications
Abilitytothinkintermsofabstractconcepts,recognitionofcomplexproblems,applicationofadvancedknowledgeandskillsininter-andtrans-disciplinarydiscussionofcomplexissues,debatinganddiscussinginEnglish.
Assessmentmethod(Contribution)
Examcredits:OneAssessmentwiththeelements:Summary(1/6)andpresentation(1/6)(Seminar)andoneofthefollowing(1)Writtenexamination(2/3)(Lecture)(2)Writtensummary(2/3)(Lab-Course:)
Literature tobenamedinthefirstseminar
15
Degreeprogramme MasterNanoscienceandNanotechnology
Coursetitle,Topic Nanochemistry
Subtitle(optional) 8
ModuleID NChem
Specialization
Responsiblelecturer Prof.Dr.Schönherr
Teachingtype Lecture,tutorial
Relationtocurriculum
mandatorybasicmoduleforallstudents
Semester 2
Creditpoints(CP) 6
Workload Lecture:30h,tutorial:30h,additionalindividualworkofthestudent/homeworktime:120h
Prerequisitesforparticipation
None
Learningoutcomes/Competences
ThestudentsknowthefundamentalconceptsandmethodsofNanochemistry.
Coursedescription PrinciplesofNanochemistry.Synthesisandcharacterizationofmaterialsandnanomaterials(nanoparticles,nanorods,nanotubes,nanowires),chemicalnanopatterningandnanostructuring,conventionalandunconventionallithography,self-assemblyprinciples,microspheres,micro-andmesoporousmaterials,self-assemblyofmolecules,layers,blockcopolymersandmicroscaleobjects,nanoscalemachinesanddevices,bionanochemistry.
Interdisciplinaryqualifications
Abilitytothinkintermsofabstractconcepts,recognitionofcomplexproblems,applicationofadvancedknowledgeandskillsininter-andtrans-disciplinarydiscussionofcomplexissues,debatinganddiscussinginEnglish.
Assessmentmethod(Contribution)
Examcredits:Writtenexamination(100%)
Literature Nanochemistry:AChemicalApproachtoNanomaterialsOzin,Arsenault,Cademartiri(RSCPublishing)
16
Degreeprogramme MasterNanoscienceandNanotechnology
Coursetitle,Topic Photonicdevices
Subtitle(optional) 9
ModuleID PhDev
Specialization
Responsiblelecturer Prof.Dr.HaringBolivar,Prof.Dr.MarioAgio
Teachingtype Lecture,tutorial
Relationtocurriculum
mandatorybasicmoduleforstudentswithaB.Sc.inChemistry,PhysicsorEngineering
Semester 2
Creditpoints(CP) 6
Workload Lecture:30h,tutorial:30h,additionalindividualworkofthestudent/homeworktime:120h
Prerequisitesforparticipation
None
Learningoutcomes/Competences
Thestudentsknowthefundamentalconceptsandmethodsofphotonicdevices.Theywillbeabletodescribethebasicelectron-photoninteractionphenomenaandconnectthemtoitsuseinphotondetectiondevicesonthenanoscale.
Coursedescription Electronsandphotons,densityofstates,photonandelectrontransport,light-matterinteraction,photonicmaterials,photoniccrystals,plasmonics,nanocomposites,metamaterials,carriermotionandconfinement,waveguidesandcouplers,quantumconfinement,opticalresonators,nanocavities,lightemission,lightdetection,photodetectors,modulators,non-linearinteractions,electroopticdevices,nonlinearopticaldevices
Interdisciplinaryqualifications
Abilitytothinkintermsofabstractconcepts,recognitionofcomplexproblems,applicationofadvancedknowledgeandskillsininter-andtrans-disciplinarydiscussionofcomplexissues,debatinganddiscussinginEnglish.
Assessmentmethod(Contribution)
Examcredits:Writtenexamination(50%),tutorial(50%)
Literature tobenamedinthefirstlecture
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Degreeprogramme MasterNanoscienceandNanotechnology
Coursetitle,Topic Nanotechnology
Subtitle(optional) 10
ModuleID NT
Specialization
Responsiblelecturer Prof.Dr.Lemme
Teachingtype Lecture,lab-course
Relationtocurriculum
mandatorybasicmoduleforstudentswithaB.Sc.inChemistryorPhysicsorB.Sc.inEngineering
Semester 1
Creditpoints(CP) 6
Workload Lecture:30h,tutorial:30h,additionalindividualworkofthestudent/homeworktime:120h
Prerequisitesforparticipation
None
Learningoutcomes/Competences
Thestudentswillbeableto• describethetechnologicalprocessesinvolvedinthe
fabricationofnano-andmicroelectronicdevicesandcircuits• comparealternativefabricationmethods• applytheknowledgetospecificdevicerequirementsthrough
carefulselectionamonganumberofchoices• assessprosandconsofdifferentfabricationmethods• combinefabricationmethodstodevelopcomplexprocess
flowsforfunctionaldevicesandcircuitsinarangeofapplications(e.g.transistors,solarcells,optoelectronics...)
Coursedescription Advancedcourseonthetechnological,physicalandchemical
methodsusedinmodernsemiconductornanoelectronicsfabrication.
Interdisciplinaryqualifications
Abilitytothinkintermsofabstractconcepts,recognitionofcomplexproblems,applicationofadvancedknowledgeandskillsininter-andtrans-disciplinarydiscussionofcomplexissues,debatinganddiscussinginEnglish.
Assessmentmethod(Contribution)
Examcredits:Writtenexamination(50%),labcourseandtutorial(50%).Bothpartsmustbepassedseparately.
Literature • Plummer,DealandGriffin,SiliconVLSITechnology:Fundamentals,PracticeandModeling
• SimonM.Sze,VLSITechnology,McGraw-Hill• Hilleringmann,Silizium-Halbleitertechnologie:Grundlagen
mikroelektronischerIntegrationstechnik,Vieweg+Teubner,• Widmann,Mader,TechnologiehochintegrierterSchaltung,
SpringerVerlag
18
Degreeprogramme MasterNanoscienceandNanotechnology
Coursetitle,Topic Quantumfieldtheoryforsolidstatephysics
Subtitle(optional)
ModuleID SST
Specialization
Responsiblelecturer Prof.Dr.Kilian
Teachingtype Lecture,tutorial
Relationtocurriculum
Physics,elective
Semester 1,3
Creditpoints(CP) 6
Workload Lecture:30h,tutorial:30h,additionalindividualworkofthestudent/homeworktime:120h
Prerequisitesforparticipation
None
Learningoutcomes/Competences
Thestudentsknowthefundamentaltheoreticalconceptsandmethodsofsolidstatephysics.Theyareabletounderstandthemanybodyquantumcharacterofthephysicsinvolvedandunderstandmodernconceptsoftheoreticalsolidstatescience.
Coursedescription -Linearoscillatorchain,continuumlimit,fieldoperators,Fockspace-One-particleandmulti-particleinteractions-Lagrangian,coherent-statepathintegral,bosonsandfermions-Fieldintegral,Matsubaraformalism-Perturbationtheory-Electron-electroninteractions,models,Hartree-Fockandrandom-phaseapproximations-Cooperinstability,BCStheory,excitationsandphenomenologyofsuperconductors-Ginzburg-Landautheory,Isingmodel,renormalizationgroupforphasetransitions
Interdisciplinaryqualifications
Abilitytothinkintermsofabstractconcepts,recognitionofcomplexproblems,applicationofadvancedknowledgeandskillsininter-andtrans-disciplinarydiscussionofcomplexissues,debatinganddiscussinginEnglish.
Assessmentmethod(Contribution)
Examcredits:Writtenexamination(100%)
Literature Altland/Simons"CondensedMatterFieldTheory";furtherliteraturetobeannouncedatthebeginningofthemodule
19
Degreeprogramme MasterNanoscienceandNanotechnology
Coursetitle,Topic Nano-Optics
Subtitle(optional)
ModuleID NanOpt
Specialization
Responsiblelecturer Prof.Dr.Agio
Teachingtype Lecture,tutorial
Relationtocurriculum
Physics,elective
Semester 1,3
Creditpoints(CP) 6
Workload Lecture:30h,tutorial:30h,additionalindividualworkofthestudent/homeworktime:120h
Prerequisitesforparticipation
None
Learningoutcomes/Competences
Thestudentsknowthefundamentaltheoreticalandexperimentalconceptsandmethodsofopticsandnano-optics.Theyareabletounderstandthebasicinteractionmechanisms,thefieldconcepts,thebasicsofresolutionandmodernconceptssuchasopticalantennasandresonantoronthenano-scale.
Coursedescription Theoreticalfoundationsofoptics,propagationandfocusingofopticalfields,resolutionandlocalisation,nano-scaleopticalmicroscopy,opticalinteractionsandquantumemitters,dipoleemissionnearplanarinterfaces,photoniccrystalsandresonators,surfaceplasmonpolaritons,opticalantennas,opticalforces
Interdisciplinaryqualifications
Abilitytothinkintermsofabstractconcepts,recognitionofcomplexproblems,applicationofadvancedknowledgeandskillsininter-andtrans-disciplinarydiscussionofcomplexissues,debatinganddiscussinginEnglish.
Assessmentmethod(Contribution)
Examcredits:Writtenexamination(50%),tutorial(50%)
Literature PrinciplesofNano-Optics(L.Novotny,B.Hecht),Molecularscatteringandfluorescenceinstronglyconfinedopticalfields(M.Agio)
20
Degreeprogramme MasterNanoscienceandNanotechnology
Coursetitle,Topic ScanningprobetechniquesforNanostructures.
Subtitle(optional)
ModuleID TN
Specialization
Responsiblelecturer N.N.
Teachingtype Lecture,tutorial
Relationtocurriculum
Physics,elective
Semester 1,3
Creditpoints(CP) 6
Workload Lecture:30h,tutorial:30h,additionalindividualworkofthestudent/homeworktime:120h
Prerequisitesforparticipation
None
Learningoutcomes/Competences
Thestudentsknowthefundamentalconceptsandmethodsofscanningprobetechniquesinnanoscience.
Coursedescription xxxx
Interdisciplinaryqualifications
Abilitytothinkintermsofabstractconcepts,recognitionofcomplexproblems,applicationofadvancedknowledgeandskillsininter-andtrans-disciplinarydiscussionofcomplexissues,debatinganddiscussinginEnglish.
Assessmentmethod(Contribution)
Examcredits:Writtenexamination(50%),tutorial(50%)
Literature xx.
21
Degreeprogramme MasterNanoscienceandNanotechnology
Coursetitle,Topic Solidstatephysicsinnanoscience
Subtitle(optional)
ModuleID SSP-NS
Specialization
Responsiblelecturer Prof.Dr.Pietsch
Teachingtype Lecture,tutorial
Relationtocurriculum
Physics,elective
Semester 1,3
Creditpoints(CP) 6
Workload Lecture:30h,tutorial:30h,additionalindividualworkofthestudent/homeworktime:120h
Prerequisitesforparticipation
None
Learningoutcomes/Competences
Thestudentsknowthefundamentalconceptsandmethodsofsolidstatephysicswithapplicationstonanoscience.Theyareabletodescribeelementarynano-structures,theirphysicalpropertiesandbasicinvestigationmethods.
Coursedescription Geometricandbandstructureofsemiconductornanostructures,electronicstructureanddensityofstatesof0D,1D,2Dand3Dsemiconductors,growthmethodsforsemiconductors,Schrödingerequationforquantumwells,impurities,excitonsandchargecarrierrecombination,strainandlatticemismatchinheterostructures,X-rayinvestigationofstrainandcomposition,synchrotronassistedanalysisofnanostructures,nanostructuresatsurfaces,transmissionandscanningelectronmicroscopyofnanostructures,ramanspectroscopyofnanostructures
Interdisciplinaryqualifications
Abilitytothinkintermsofabstractconcepts,recognitionofcomplexproblems,applicationofadvancedknowledgeandskillsininter-andtrans-disciplinarydiscussionofcomplexissues,debatinganddiscussinginEnglish.
Assessmentmethod(Contribution)
Examcredits:Writtenexamination(100%)
Literature tobeannouncedinthefirstlecture
22
Degreeprogramme MasterNanoscienceandNanotechnology
Coursetitle,Topic ModernmethodsofX-rayscattering
Subtitle(optional)
ModuleID MMX
Specialization
Responsiblelecturer Prof.Dr.Gutt
Teachingtype Lecture,tutorial
Relationtocurriculum
Physics,elective
Semester 1,3
Creditpoints(CP) 6
Workload Lecture:30h,tutorial:30h,additionalindividualworkofthestudent/homeworktime:120h
Prerequisitesforparticipation
None
Learningoutcomes/Competences
Thestudentsshouldbeableto• describethefundamentalconceptsofX-rayscienceand
scattering• connectX-raysciencepropertiestoinvestigationpossibilities
fornano-scienceselectanddefinerelevantX-rayscatteringtechniquesfordifferentproblemsinthenano-sciences
Coursedescription X-raysources,synchrotrons,X-rayfree-electronlasers,interactionofX-rays/neutrons/electronswithmatter,photoabsorption,crosssections,formfactors,crystallography,correlationfunctions,structurefactor,DebyeWallerfactor,smallangleX-rayscattering,wideangleX-rayscattering,X-rayreflectivity,diffusescattering,resonantmagneticscattering,coherence,speckles,imaging,phaseretrieval,Fouriertransformholography,ultrafastX-rayscatteringmethods
Interdisciplinaryqualifications
Abilitytothinkintermsofabstractconcepts,recognitionofcomplexproblems,applicationofadvancedknowledgeandskillsininter-andtrans-disciplinarydiscussionofcomplexissues,debatinganddiscussinginEnglish.
Assessmentmethod(Contribution)
Examcredits:Writtenexamination(50%),tutorial(50%)
Literature Jens-AlsNielsen,Warren,Guinier
23
Degreeprogramme MasterNanoscienceandNanotechnology
Coursetitle,Topic Crystallography
Subtitle(optional)
ModuleID Cryst
Specialization
Responsiblelecturer Prof.Dr.Pietsch
Teachingtype Lecture,tutorial
Relationtocurriculum
Physics,elective
Semester 1,3
Creditpoints(CP) 6
Workload Lecture:30h,tutorial:30h,additionalindividualworkofthestudent/homeworktime:120h
Prerequisitesforparticipation
None
Learningoutcomes/Competences
Thestudentsknowthefundamentalconceptsandmethodsofcrystallography.
Coursedescription Crystalforms,symmetries,spacegroups,symmetryoperations,Internationaltablesofcrystallography
Interdisciplinaryqualifications
Abilitytothinkintermsofabstractconcepts,recognitionofcomplexproblems,applicationofadvancedknowledgeandskillsininter-andtrans-disciplinarydiscussionofcomplexissues,debatinganddiscussinginEnglish.
Assessmentmethod(Contribution)
Examcredits:Writtenexamination(50%),tutorial(50%)
Literature Jens-AlsNielsen,Warrenetc.
24
Degreeprogramme MasterNanoscienceandNanotechnology
Coursetitle NanostructuredMaterials
Subtitle(optional) NanostructuredMaterials
ModuleID NanMat
Specialization LightandMatter,MaterialsandInterfaces
Responsiblelecturer Prof.Dr.Wickleder
Teachingtype Lecture,tutorial
Relationtocurriculum
Chemistry,elective
Semester 1,3
Creditpoints(CP) 6
Workload Lecture:30h,tutorial:30h,additionalindividualworkofthestudent/homeworktime:120h
Prerequisitesforparticipation
None
Learningoutcomes/Competences
Thestudentsareabletorecognizeandevaluateadvancedconceptsandresearchresultsrelatedtonanostructuredmaterials.Theynowaboutcurrentscientificdevelopments.
Coursedescription
Synthesisroutesappliedtonanostructuredmaterials;physicalpropertiesofnanostructuredmaterials;nanoparticlesandthinfilms;quantumdots;formandstructure;coatedmaterials;metallic,semiconductor,dielectricsandoxidematerials;applicationsofnanostructurematerials:labelsofbiologicalstructures,biochemicalsensors,energyconversionlikesolarcells,displaysandLEDs,datastorage,photocatalysts
Interdisciplinaryqualifications
Applicationofadvancedknowledgeandskillsininter-andtrans-disciplinarydiscussionofcomplexissues,debatinganddiscussinginaforeignlanguage
Assessmentmethod(Contribution)
Examcredits:Writtenexamination(100%)
Literature Lecture,tutorial:selectedscientificpublications.
25
Degreeprogramme MasterNanoscienceandNanotechnology
Coursetitle AppliedOpticalSpectroscopy
Subtitle(optional)
ModuleID ApplSpec
Specialization LightandMatter
Responsiblelecturer Prof.Dr.Wickleder
Teachingtype Lecture,tutorial
Relationtocurriculum
Chemistry,elective
Semester 1,3
Creditpoints(CP) 6
Workload Lecture:30h,tutorial:30h,additionalindividualworkofthestudent/homeworktime:120h
Prerequisitesforparticipation
None
Learningoutcomes/Competences
Thestudentsareabletorecognizeandevaluateadvancedconceptsandresearchresultsrelatedtoopticalspectroscopy.Theynowaboutcurrentscientificdevelopments.
Coursedescription
Basicprinciplesofopticalspectroscopy;methodsforthedeterminationofopticalproperties;inorganicopticalmaterials:metalorganicandsolidstatecompounds,transitionmetal,lanthanidesands2ions;synthesisroutes,applicationsofopticalmaterials:sensors,displays,solarcells,scintillatorsandsecurityphosphors
Interdisciplinaryqualifications
Applicationofadvancedknowledgeandskillsininter-andtrans-disciplinarydiscussionofcomplexissues,debatinganddiscussinginaforeignlanguage
Assessmentmethod(Contribution)
Examcredits:Oralpresentation(50%),writtenexamination(50%).
Literature Lecture,tutorial:selectedscientificpublications.
26
Degreeprogramme MasterNanoscienceandNanotechnology
Coursetitle,Topic PhysicsandChemistryofInterfaces
Subtitle(optional) PhysicsandChemistryofInterfaces
ModuleID PC-Interf
Specialization MaterialsandInterfaces
Responsiblelecturer Prof.Dr.Schönherr
Teachingtype Lecture,tutorial
Relationtocurriculum
Chemistry,elective
Semester 2
Creditpoints(CP) 6
Workload Lecture:30h,tutorial:30h,additionalindividualworkofthestudent/homeworktime:120h
Prerequisitesforparticipation
None
Learningoutcomes/Competences
Thestudentsknowthefundamentalconceptsandmethodsofphysicalchemistryofsurfacesandinterfacesandcanapplythesetorecentresearchtopicsofinterfacialscience.
Coursedescription Liquidsurfaces,thermodynamicsofinterfaces,chargedsurfaces,surfaceforces,contactanglephenomenaandwetting,solidsurfaces,adsorption,surfactants,micelles,emulsions,foams,andthinfilms.
Interdisciplinaryqualifications
Abilitytothinkintermsofabstractconcepts,recognitionofcomplexproblems,applicationofadvancedknowledgeandskillsininter-andtrans-disciplinarydiscussionofcomplexissues,debatinganddiscussinginEnglish.
Assessmentmethod(Contribution)
Examcredits:Writtenexamination(100%)
Literature Butt,Graf,Kappl,PhysicsandChemistryofInterfaces,Butt,Kappl,SurfaceandInterfacialForcesandadditionalliteraturetobeannouncedatthebeginningofthemodule.
27
Degreeprogramme MasterNanoscienceandNanotechnology
Coursetitle,Topic Physicalchemistryofnanostructuredsoftmaterials
Subtitle(optional) Physicalchemistryofnanostructuredsoftmaterials
ModuleID PC-Nano
Specialization MaterialsandInterfaces
Responsiblelecturer Prof.Dr.Schönherr
Teachingtype Lecture,tutorial
Relationtocurriculum
Chemistry,elective
Semester 3
Creditpoints(CP) 6
Workload Lecture:30h,tutorial:30h,additionalindividualworkofthestudent/homeworktime:120h
Prerequisitesforparticipation
None
Learningoutcomes/Competences
Thestudentsknowthefundamentalconceptsandmethodsofphysicalchemistryofnanostructuredmaterialsandcanapplythesetorecentresearchtopicsinthisarea.
Coursedescription Basicsofnanostructuredmaterials:Nanoscopicdimension,synthesisofsoftnanostructures,approachestocharacterizethestructureofnanoscopicmaterials,metrology,approachestoinvestigaterelevantpropertiesofsoftnanoscopicmaterials.Self-assemblyandself-organizedsoftmatternanostructures:particles,capsules,tubes,functionalnanomaterials.
Interdisciplinaryqualifications
Abilitytothinkintermsofabstractconcepts,recognitionofcomplexproblems,applicationofadvancedknowledgeandskillsininter-andtrans-disciplinarydiscussionofcomplexissues,debatinganddiscussinginEnglish
Assessmentmethod(Contribution)
Examcredits:Writtenexamination(100%),
Literature Ozin,Nanochemistry:AChemicalApproachtoNanomaterials,Cademartiri,Ozin,ConceptsofNanochemistry,andadditionalliteraturetobeannouncedatthebeginningofthemodule.
28
Degreeprogramme MasterNanoscienceandNanotechnology
Coursetitle,Topic AtomicForceMicroscopyformaterialsandinterfacescience
Subtitle(optional) AtomicForceMicroscopyformaterialsandinterfacescience
ModuleID AFM
Specialization MaterialsandInterfaces
Responsiblelecturer Prof.Dr.Schönherr
Teachingtype Lecture,tutorial
Relationtocurriculum
Chemistry,elective
Semester 2
Creditpoints(CP) 6
Workload Lecture:30h,tutorial:30h,additionalindividualworkofthestudent/homeworktime:120h
Prerequisitesforparticipation
None
Learningoutcomes/Competences
Thestudentsknowthefundamentalconceptsandmethodsofatomicforcemicroscopy,thebasicsofintermolecularandsurfacesforcesandcanapplythesetorecentresearchtopicsofinterfacialscience.
Coursedescription AtomicForceMicroscopyprinciples,instrumentation,imaging,forcemeasurements,dataacquisition,dataprocessing,artefacts;AFMmeasurementmodiandunderlyingphysics:contact,intermittentcontact,non-contact,resonatingforceandresonancemodes,electricandmagneticforcemode;selectedexamplesforAFMonsoftmatter,solidsurfaces,thinfilmsandmeasurementsofmolecularscaleinteractionforces.
Interdisciplinaryqualifications
Abilitytothinkintermsofabstractconcepts,recognitionofcomplexproblems,applicationofadvancedknowledgeandskillsininter-andtrans-disciplinarydiscussionofcomplexissues,debatinganddiscussinginEnglish.
Assessment method(Contribution)
Examcredits:Writtenexamination(100%),
Literature Butt,Kappl,SurfaceandInterfacialForces,Schönherr,VancsoScanningForceMicroscopyofPolymers(SpringerLaboratory)andadditionalliteraturetobeannouncedatthebeginningofthemodule.
29
Degreeprogramme MasterNanoscienceandNanotechnology
Coursetitle,Topic MethodsandTechniquesofSurfaceAnalysis
Subtitle(optional) MethodsandTechniquesofSurfaceAnalysis
ModuleID MTSA
Specialization MaterialsandInterfaces
Responsiblelecturer Prof.Dr.Schönherr,Prof.Dr.Engelhard
Teachingtype Lecture,tutorial
Relationtocurriculum
Chemistry,elective
Semester 3
Creditpoints(CP) 6
Workload Lecture:30h,tutorial:30h,additionalindividualworkofthestudent/homeworktime:120h
Prerequisitesforparticipation
None
Learningoutcomes/Competences
Thestudentsknowthefundamentalconcepts,methodsandtechniquesofsurfaceanalysisandcanapplythesetorecentresearchtopicsofinterfacialandanalyticalchemicalscience.
Coursedescription Surfacespectroscopy,includingX-rayphotoelectronspectroscopy,infraredspectroscopy,electronmicroscopy,atomicforcemicroscopy,surfaceplasmonresonance,ellipsometry,quartzcrystalmicrobalance,time-of-flightsecondaryionmassspectrometry,laserablationinductivelycoupledplasmamassspectrometry,glowdischargespectroscopy,laserinducedbreakdownspectroscopy,newlydevelopedmicroscopicandspectroscopictechniques
Interdisciplinaryqualifications
Abilitytothinkintermsofabstractconcepts,recognitionofcomplexproblems,applicationofadvancedknowledgeandskillsininter-andtrans-disciplinarydiscussionofcomplexissues,debatinganddiscussinginEnglish
Assessmentmethod(Contribution)
Examcredits:Writtenexamination(100%)
Literature Vickerman,Gilmore,SurfaceAnalysis:ThePrincipalTechniquesButt,Graf,Kappl,PhysicsandChemistryofInterfacesandadditionalliteraturetobeannouncedatthebeginningofthemodule.
30
Degreeprogramme MasterNanoscienceandNanotechnology
Coursetitle,Topic PolymerChemistryI–PropertiesofPolymers
Subtitle(optional) PolymerChemistryI–PropertiesofPolymers
ModuleID PolyChemI
Specialization
Responsiblelecturer Prof.Dr.Jonas
Teachingtype Lecture,tutorial
Relationtocurriculum
Chemistry,elective
Semester 1,3
Creditpoints(CP) 6
Workload Lecture:30h,tutorial:30h,additionalindividualworkofthestudent/homeworktime:120h
Prerequisitesforparticipation
None
Learningoutcomes/Competences
Thestudentsareabletotorecognizeandevaluatemolecular,structuralandmechanicalpropertiesofmacromoleculesandpolymersininthesolid,fluidandsolutionstate.
Coursedescription Structureofmacromolecules:constitution,configuration(tacticity),conformation(macroconformation,helixformation);molecularweights,-distributions;shapeofindividualmacromolecules:coils,rods,macromoleculesinsolution,phaseseparation,fractionation;amorphous(glassy)state;crystallinestate,chainfolding,morphology,thermaltransitions:melting,crystallisation,glasstransition;viscoelasticbehaviourofpolymers;basicsofprocessing.Methods:sizeexclusionchromatography,thermalanalysis,rheology,dynamic-mechanicalthermalanalysis,stress-strainbehaviour,opticalmethods,processing.
Interdisciplinaryqualifications
Abilitytothinkintermsofabstractconcepts,recognitionofcomplexproblems,applicationofadvancedknowledgeandskillsininter-andtrans-disciplinarydiscussionofcomplexissues,debatinganddiscussinginEnglish.
Assessmentmethod(Contribution)
Examcredits:Writtenexamination(100%)
Literature R.J.Young,P.A.Lovell;"IntroductiontoPolymers",3nded.,Chapman&Hall2011
31
Degreeprogramme MasterNanoscienceandNanotechnology
Coursetitle,Topic PolymerChemistryII–SynthesesofPolymers
Subtitle(optional) PolymerChemistryII–SynthesesofPolymers
ModuleID PolyChemII
Specialization
Responsiblelecturer Prof.Dr.Jonas
Teachingtype Lecture,tutorial
Relationtocurriculum
Chemistry,elective
Semester 2,4
Creditpoints(CP) 6
Workload Lecture:30h,tutorial:30h,additionalindividualworkofthestudent/homeworktime:120h
Prerequisitesforparticipation
SuccessfulparticipationinAppliedChemistryI/II,MacromolecularChemistry,participationinAdvancedOrganicChemistryI
Learningoutcomes/Competences
Thestudentsareabletotorecognizeandevaluatemolecular,structuralandmechanicalpropertiesofmacromoleculesandpolymersininthesolid,fluidandsolutionstate.
Coursedescription Basicdefinitionsofpolymerchemistry,conditionsofpolymerisationreactions,freeradicalpolymerisation,ionicpolymerisation,stereospecificpolymerisationwithtransitionmetalcatalysts,copolymerisation,steppolycondenstion,steppolyaddition,reactionsonpolymers.
Interdisciplinaryqualifications
Abilitytothinkintermsofabstractconcepts,recognitionofcomplexproblems,applicationofadvancedknowledgeandskillsininter-andtrans-disciplinarydiscussionofcomplexissues,debatinganddiscussinginEnglish.
Assessmentmethod(Contribution)
Examcredits:Writtenexamination(100%)
Literature R.J.Young,P.A.Lovell;"IntroductiontoPolymers",3nded.,Chapman&Hall2011
32
Degreeprogramme MasterNanoscienceandNanotechnology
Coursetitle,Topic AdvancedtopicsinPolymerChemistry
Subtitle(optional) AdvancedtopicsinPolymerChemistry
ModuleID AdvPolyChem
Specialization Materials
Responsiblelecturer Prof.Dr.Jonas
Teachingtype Lecture,tutorial
Relationtocurriculum
Chemistry,elective
Semester 1,3
Creditpoints(CP) 6
Workload Lecture:30h,tutorial:30h,additionalindividualworkofthestudent/homeworktime:120h
Prerequisitesforparticipation
None
Learningoutcomes/Competences
Thestudentswillgetanoverviewaboutcurrenttopicsinpolymersciencesandareabletorecognizeandevaluatethepotentialofmacromolecularchemistryandpolymericmaterialsfornanoscienceandnanotechnology.
Coursedescription SpecialtopicsinthefieldofPolymerChemistry.Surfacechemistryofmacromolecularmaterials,softlithographywithmacromolecularmaterials,polymerichydrogels,hierarchicalstructureswithpolymericcolloidalparticles.
Interdisciplinaryqualifications
Abilitytothinkintermsofabstractconcepts,recognitionofcomplexproblems,applicationofadvancedknowledgeandskillsininter-andtrans-disciplinarydiscussionofcomplexissues,debatinganddiscussinginEnglish.
Assessmentmethod(Contribution)
Examcredits:Writtenexaminationororalpresentation(100%)
Literature relevantliteraturewillbedistributedinthelecture
33
Degreeprogramme MasterNanoscienceandNanotechnology
Coursetitle,Topic MaterialsforEnergyStorageandConversion
Subtitle(optional)
ModuleID MaSC
Specialization Materials
Responsiblelecturer Prof.Dr.SchmedtaufderGünne
Teachingtype Lecture,tutorial
Relationtocurriculum
Chemistry,elective
Semester 2or3
Creditpoints(CP) 6
Workload Lecture:30h,tutorial:30h,additionalindividualworkofthestudent/homeworktime:120h
Prerequisitesforparticipation
None
Learningoutcomes/Competences
Thestudentsareabletorecognizeandevaluateadvancedconceptsandresearchresultsrelatedtomaterialsforenergystorage.Theynowaboutcurrentscientificdevelopments.
Coursedescription
Classicalsynthesisroutesappliedtomaterialsforenergystorageandconversion;synthesisofnano-materialsusingtop-downandbottom-upstrategies;materialsanddevicesforenergystorageandconversion;characterizationofrelevantpropertiesincludingimpedancespectroscopy,cyclicvoltammetry,band-structures,calculationofband-structures;textureanditsinfluenceonmaterialsproperties;modelsforionicconduction;phase-changematerials
Interdisciplinaryqualifications
Applicationofadvancedknowledgeandskillsininter-andtrans-disciplinarydiscussionofcomplexissues,debatinganddiscussinginEnglish
Assessmentmethod(Contribution)
Examcredits:Oralorwrittenexamination(100%)
Literature Lecture,tutorial,seminar:selectedscientificpublications.
34
Degreeprogramme MasterNanoscienceandNanotechnology
Coursetitle,Topic AdvancedMagneticResonanceSpectroscopy
Subtitle(optional)
ModuleID NMR
Specialization
Responsiblelecturer Prof.Dr.SchmedtaufderGünne
Teachingtype Lecture,tutorial
Relationtocurriculum
Chemistry,elective
Semester 2or3
Creditpoints(CP) 6
Workload Lecture:30h,tutorial:30h,additionalindividualworkofthestudent/homeworktime:120h
Prerequisitesforparticipation
None
Learningoutcomes/Competences
Thestudentsareabletorecognizeandevaluateadvancedconceptsofmagneticresonancesolid-statespectroscopy.Theyareabletoapplymethodsandconceptstoquestionsinnano-chemistry.Theyknowdifferentpulsedexperimentsandunderstandhowthesecanelucidatestructureanddynamicsofsolids.Theynowaboutcurrentscientificdevelopments.
Coursedescription
Characterization(porosity,structure,ionconductivity)ofmaterialsbyadvancedNMRmethods;computersimulationofpulsesequences;multidimensionalspectroscopy;productoperatorformalism;dataanalysisofpulsesequences(REDOR,MQMAS,...)
Interdisciplinaryqualifications
Applicationofadvancedknowledgeandskillsininter-andtrans-disciplinarydiscussionofcomplexissues,debatinganddiscussinginEnglish
Assessmentmethod(Contribution)
Examcredits:Oralorwrittenexamination(100%)
Literature Lecture,tutorial,seminar:selectedscientificpublications.
35
Degreeprogramme MasterNanoscienceandNanotechnology
Coursetitle,Topic Laboratorycourse“MicroandNanotechnology”
Subtitle(optional)
ModuleID LAB1
Specialization
Responsiblelecturer Prof.Dr.Lemme,ProfDr.HaringBolivar
Teachingtype Lab-Course
Relationtocurriculum
mandatorybasicmoduleforstudentswithaB.Sc.inChemistry,PhysicsorEngineering
Semester 2
Creditpoints(CP) 6
Workload 60hworklaboratory,60hpreparation,60hhomework
Prerequisitesforparticipation
None
Learningoutcomes/Competences
ThestudentsknowthefundamentalexperimentalconceptsandmethodsofNanoscienceandNanotechnologyusedatUSiegen.
Coursedescription Laboratorycoursefornanoscaleprocessing:Litho,PVD,CVD,Etching,FIBandothers.
Interdisciplinaryqualifications
Abilitytothinkintermsofabstractconcepts,recognitionofcomplexproblems,applicationofadvancedknowledgeandskillsininter-andtrans-disciplinarydiscussionofcomplexissues,debatinganddiscussinginEnglish.
Assessmentmethod(Contribution)
Examcredits:LabCourse(100%)
Literature relevantliteraturewillbedistributedinthecourse
36
Degreeprogramme MasterNanoscienceandNanotechnology
Coursetitle,Topic Laboratorycourse“Nanosynthesis,NanosafetyandNanoanalytics”
Subtitle(optional)
ModuleID LAB2
Specialization
Responsiblelecturer Prof.Dr.Lemme,Prof.Dr.Wickleder,Prof.Dr.Gutt
Teachingtype Lab-Course
Relationtocurriculum
mandatorybasicmoduleforstudentswithaB.Sc.inChemistry,PhysicsorEngineering
Semester 2
Creditpoints(CP) 6
Workload 60hworklaboratory,60hpreparation,60hhomework
Prerequisitesforparticipation
None
Learningoutcomes/Competences
ThestudentsknowthefundamentalexperimentalconceptsandmethodsofNanoscienceandNanotechnologyusedattheUSiegen.Thestudentslearnthebasicsaspectsofsafetyinvolvedwithnanoscienceandtechnology.
Coursedescription Laboratorycoursefornanostructuresynthesisandanalyticsincludingaspectsofnanosafety.SynthesisofnanostructuresandtheircharacterizationbymeansofRaman,X-Ray,dynamiclightscattering,REM,TEM,….
Interdisciplinaryqualifications
Abilitytothinkintermsofabstractconcepts,recognitionofcomplexproblems,applicationofadvancedknowledgeandskillsininter-andtrans-disciplinarydiscussionofcomplexissues,debatinganddiscussinginEnglish.
Assessmentmethod(Contribution)
Examcredits:LabCourse(100%)
Literature relevantliteraturewillbedistributedinthecourse
37
Degreeprogramme MasterNanoscienceandNanotechnology
Coursetitle,Topic Researchlabcourse
Subtitle(optional)
ModuleID RLC
Specialization Determinedbythesupervisorofthelabcourse
Responsiblelecturer Boardofexaminers
Teachingtype Lab-Course
Relationtocurriculum
mandatorybasicmoduleforstudentswithaB.Sc.inChemistry,PhysicsorEngineering
Semester 3
Creditpoints(CP) 12
Workload Seminar:90h,Labcourse:120h,additionalindividualworkofthestudent/homeworktime:60h.
Prerequisitesforparticipation
Passingofallmodulesoftheprecedingsemesters
Learningoutcomes/Competences
Studentsapplyscientificstrategiesofthechosenresearchtopic.Studentsareabletodesignandperformexperimentsbasedonliteraturesearchontheirown.
Coursedescription Literaturesearch,elaborationofmeasurement/synthesis/technologicalstrategies,involvementincurrentresearchtopics,labreportsandcriticalevaluationofresults.
Interdisciplinaryqualifications
Interdisciplinaryassessmentandevaluation,literaturesurvey,undtechniquesofpresentation,organizationandmanagementofascientificproject,abilitytoworkinaninternational(andintercultural)team,presentationoftheresultsofascientificinvestigationtoanexpertaudience,debatinganddiscussinginEnglish,databaseliteraturesearch,analysisofscientificpapers,presentationtechniques.
Assessmentmethod(Contribution)
Evaluationofthethesisbytwoexperts,i.e.Universityprofessors(100%).
Literature Tobeannouncedbytherespectiveprofessionalsupervisor.
38
Degreeprogramme MasterNanoscienceandNanotechnology
Coursetitle,Topic MasterThesis
Subtitle(optional)
ModuleID MT
Specialization Determinedbythesupervisorofthethesis
Responsiblelecturer Boardofexaminers
Teachingtype Lab-Course
Relationtocurriculum
mandatorybasicmoduleforstudentswithaB.Sc.inChemistry,PhysicsorEngineering
Semester 4
Creditpoints(CP) 30
Workload 6months
Prerequisitesforparticipation
Passingofallmodulesoftheprecedingsemesters
Learningoutcomes/Competences
Thestudentsareabletochooseacurrentresearchtopicfromaselectedareaofphysics,chemistryorengineering.Theyareabletomanageanddocumenttheirownresearchprojectandpresenttheirresultsinfrontofanexpertaudience.Thestudentsknowandareabletouseadequateworkingmethodsandinstrumentforscientificresearchandhavecomprehensivecompetencesinascientificperspective.
Coursedescription Organizationandelaborationofaresearchproject.
Interdisciplinaryqualifications
Interdisciplinaryassessmentandevaluation,literaturesurvey,organizationandmanagementofascientificproject,abilitytoworkininternational(andintercultural)researchgroups,presentationoftheresultsofascientificinvestigationtoanexpertaudience,debatinganddiscussinginEnglish.
Assessmentmethod(Contribution)
Evaluationofthethesisbytwoexperts,i.e.Universityprofessors(100%).
Literature Tobeannouncedbytherespectiveprofessionalsupervisor.
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