MSE640: Advances In Investigation Of Intermolecular .

MSE640: Advances in Investigation of Intermolecular & Surface ForcesAdvances in investigation of Intermolecular & surface forcesCourse TitleCourse CodeCredit HoursPre-requisites (if any)Co-requisites (if any)Name of FacultyE-mail of FacultyOffice hours of FacultyBrief Course DescriptionMSE6403MSE507, MSE508 or equivalent with permission of InstructorDr Matteo Chiesamchiesa@masdar.ac.aeTBAIntermolecular forces embrace all forms of matter, and yet onefinds very few university courses devoted to the fundamentalaspects of this subject. This course aims at presenting acomprehensive view of intermolecular and surface forces and thecommon way to investigate these forces by means of differentscanning probe microscopy techniques.The first part of the course will describe the role of such force indetermining the properties of simple and complex system. Thissubject touches on a very broad area of phenomena in physics,chemical engineering and biology and due to the wide range topiccovered and different disciplines to which the course is addressed,I have presumed only the basic knowledge of molecular science.The second part of the course present the fundamentals underlyingAtomic Force Microscopy (AFM) for the investigation ofintermolecular and surface forces. AFM is one of the foremosttools for imaging, measuring, and manipulating matter at thenanoscale by gathering information of the surface throughout amechanical probe.Course ObjectivesThe main objectives of the course are to: Understand the foundations of intermolecular & surfaceforces and recognize their importance at the nanoscale. Acquire a comprehensive and unified view ofintermolecular and surface forces describing their rolein determining the properties of simple and complexsystems. Acquire the ability to investigate of intermolecular andsurface forces by means of different techniques of

scanning probe microscopy and being able to interpretthe results obtained from a physical point of view in acritical manner.ProgramOutcomeDemonstrate appropriate depth and breadth of knowledge that is at thefrontier of their disciplinesProgramOutcomeUse skills of interdisciplinary scholarship and research to integrate rk effectively in a multidisciplinary collaborative environment usinghighly developed cognitive and creative expert skills and intellectualindependence.Understand and value diverse approaches to solving critical problems inresearch and to creating new knowledge judged by international standards.ProgramOutcomeCommunicate effectively, in written and oral forms, their research resultsand/or critique highly complex and diverse matters to diverse audiences.ProgramOutcomeUse self-development for personal and professional improvement in theirfield and contribute to its future advancement.LECTUREL1TOPICS COVEREDCourse Overview; Review ofQuantum Tunneling; Introductionto STBinnig et al. [Appl.Phys. Lett. 1982and Phys. Rev.Lett. 1982],Hansma & Tersoff(reader)L2STM experimental considerationsBinnig et al.[Phys. Rev. Lett,1983] (reader)L3Advanced Topics in STML4From STM to AFMBinnig, Quate,Gerber (reader)Binnig, Quate,L5Interaction forces-IGerber (reader)Intermolecular & SurfaceHW 1 assigned

LECTURETOPICS COVEREDForces Jacob Israelachvilich 3,4Binnig, Quate,Gerber (reader)L6Interaction forces- IIL5Interaction forces-IIIIntermolecular & SurfaceForces Jacob Israelachvilich 5,6Interaction forces-IVIntermolecular & SurfaceForces Jacob Israelachvilich 6,7Intermolecular & SurfaceForces Jacob Israelachvilich 4,5Butt, Capella,L7F-Z, F-d curves – IHW1 due; HW2 assignedKappl (reader)Butt, Capella,L8F-Z, F-d curves - IIL9F-Z, F-d curves – III Introductionto contact mode and friction forceimagingL10Three important calibrations: ZButt, Capella,piezo, optical lever sensitivity, andKappl (reader)cantilever stiffnessL11Experimental uncertainties inextracting elastic modulus oradhesion from F-Z curvesKappl (reader)Butt, Capella,Kappl (reader)Butt, Capella,Kappl (reader)Garcia and PerezL12Dynamic AFM methodsL13Point mass oscillating models,linear vs. nonlinear oscillationsL14Dynamic Approach CurvesL15Continuous beam models;cantilever eigenmodesSubmit draft of termproject proposal(reader)Submit final draft of termproject proposalHW2 due, HW 3 assignedGarcia and Perez(reader)Garcia and Perez(reader)

LECTURETOPICS COVEREDSantos et al.L16L 17L 18Measuring the true height of water (reader fromfilms on surfacesNanotechnology and JPCC LENS)Multiple period orbitals and subharmonic excitation induced bywater impacts at the nanoscaleSantos et al.(reader from JAP LENS)Analytical approaches – phasecontrast, energy dissipation,imagingHW3 due, HW4 assignedforcesGarcia et al.L 19Energy dissipation at the nanoscale S. Santos , et al.Nanotechnology(reader fromNanotechnology LENS)L 20How localized are energydissipation processes in nanoscaleinteractionsSantos et al.L 21Santos et al.Disentangling the physical originsof energy dissipation in the(reader from Journal ofnanoscalePhysics D and NanoscaleLENS)L 22Theory of frequency shifts(reader fromNanotechnology LENS)J. Font et al.HW4 due, HW5 assignedL 23Implementing FM-AFML 24FM-AFM ResultsL 25Asylum Research Notes HW 5 dueSpecial Topics I – ElectrostaticForce Microscopy, Magnetic Force K.R. Gadelrab et al.Microscopy(reader from JMR LENS)(reader from NanoscaleLENS)

LECTURETOPICS COVEREDAsylum Research NotesL 26Special Topics II – Operation inliquid, applications to biologyDaniel Kiracofe andArvind RamanNanotechnology 2011S. Santos et al.(reader from JPC CLENS)L 27Special Topics III – multifrequency methods, subsurfaceimaging, PFML28Student project presentationsOut-of-class assignmentsCourse GradingTeaching and learningmethodologiesMain course textsRecommended readingsAsylum Research NotesSee aboveThe overall grade will be determined as follows:Homework 35%;Individual project: 30%Final exam: 30%Attendance: 5%Weekly Lectures and TutorialsText: There is really no required textbook for the course.A lot of the material is covered in the course reader – a selection ofkey review and historical articles:1. C. Julian Chen, Introduction to Scanning Tunneling Microscopy,2nd Edition (OxfordUniversity Press, Oxford) 2008.J. Israelachvili, Intermolecular and surface forces, second edition,(Elsevier), 1991.2. E. Meyer, H. J. Hug, R. Bennewitz, Scanning Probe Microscopy –the lab on a tip(Springer-Verlag) 2003.

3. D. Sarid, Scanning Force Microscopy: with applications toelectric, magnetic and atomicforces, Oxford Series in Optical and Imaging Sciences, (OxfordUniversity Press, Oxford)1994.4. V. J. Morris, A. P. Gunnig, A. R. Kirby, Atomic ForceMicroscopy for Biologists (WorldScientific) 1999.A list of papers will also be providedInstructional materials andresourceswww.nanohub.org

Forces Jacob Israelachvili ch 3,4 L6 Interaction forces- II Binnig, Quate, Gerber (reader) Intermolecular & Surface Forces Jacob Israelachvili ch 4,5 L5 Interaction forces-III Intermolecular & Surface Forces Jacob Israelachvili ch 5,6 Interaction forces-IV Intermolecular & Surface Forces Jacob Israelachvili ch 6,7 L7 F-Z, F-d curves – I