Scanning Tunneling Microscopy and Atomic Force Microscopy EEW508 Scanning probe microscopy.
Atomic Force Microscopy - courses.physics.illinois.edu
Transcript of Atomic Force Microscopy - courses.physics.illinois.edu
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Atomic Force Microscopy
Kathy WalshSenior Research Scientist
Scanning Probe Microscopy
Materials Research LaboratoryCentral Research Facilities
Physics 4037/21/21
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Kathy Walsh, Atomic Force Microscopy, Physics 403, 7/21/21
Illinois Materials Research LabCentral Research Facilities
• User facility—anyone can be trained• UIUC and non-UIUC researchers welcome• Undergraduate researchers welcome• Staff collaboration or analysis available
• mrl.illinois.edu/facilities• [email protected]
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Kathy Walsh, Atomic Force Microscopy, Physics 403, 7/21/21
Looking at Surfaces
Optical Microscopy Scanning Electron Microscopy
Adapted (cropped) fromhttps://myscope.training/#/SEMlevel_2_13(CC BY-SA 4.0)
not all response is from the surface
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Kathy Walsh, Atomic Force Microscopy, Physics 403, 7/21/21
Surface XYZ Coordinates Needed
3D Optical Profilometry Atomic Force Microscopy
pencil “lead”blue glitter crayon tip
5 mm 5 µm
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Kathy Walsh, Atomic Force Microscopy, Physics 403, 7/21/21
• How AFM works• Featured applications
– Topography• Profiles, step height• Roughness
– Phase– Conductive AFM– Working in fluid
• Issues and artifacts• Image processing
Topics for Today
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Kathy Walsh, Atomic Force Microscopy, Physics 403, 7/21/21
What’s an Atomic Force Microscope?
“Atomic Force” Microscopy—forces betweenatoms in the tip and atoms in the sample
(side view)sample
laser sourcedetector
cantilevertip
false-color surface topographs
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Kathy Walsh, Atomic Force Microscopy, Physics 403, 7/21/21
• “Atomic Force”—interactions between tip and sample– Sub-angstrom vertical resolution– Not actual atomic resolution (usually)– Nanoscale lateral resolution (depends on tip)
• “Microscope”—surface topograph (false color)
• Tip at the end of a cantilever• Raster tip over surface to build up an image
• Also sensitive to sample stiffness, adhesion, other properties depending on tip choices
What’s an Atomic Force Microscope?
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Kathy Walsh, Atomic Force Microscopy, Physics 403, 7/21/21
• “Atomic Force”—interactions between tip and sample– Sub-angstrom vertical resolution– Not actual atomic resolution (usually)– Nanoscale lateral resolution (depends on tip)
• “Microscope”—surface topograph (false color)
• Tip at the end of a cantilever• Raster tip over surface to build up an image
• Also sensitive to sample stiffness, adhesion, other properties depending on tip choices
What’s an Atomic Force Microscope?
Turquoise, 1µm x 1µmcolor overlay: phase
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Kathy Walsh, Atomic Force Microscopy, Physics 403, 7/21/21
(only what’s pretty common, not all of what’s possible)
• Image sizes -- few to tens of µm2
• Feature peak-to-valley -- Å to µm• Sample sizes -- mm to cm• AFM measures surfaces
Typical AFM Scales
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Kathy Walsh, Atomic Force Microscopy, Physics 403, 7/21/21
AFM Schematic
tapping mode: tip-shaking piezo
(the rest of the instrument)
piezos
piezo
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Kathy Walsh, Atomic Force Microscopy, Physics 403, 7/21/21
Scanners
tip scanning sample scanning decoupled scanning
tapping is always done as close to the tip as possible(tapping mode will be discussed later)
scanning probe microscopy
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Kathy Walsh, Atomic Force Microscopy, Physics 403, 7/21/21
AFM Instrument
top view
support chip
laser spot
cantilever
tip (underneath)
sample is down below
Laser source & detector
XYZ motion
(the rest of the instrument) Tip Sample
samples are mounted flat on steel pucks, glass slides*, etc.
*depending on the instrument
side view
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Kathy Walsh, Atomic Force Microscopy, Physics 403, 7/21/21
AFM Schematic
tapping mode: tip-shaking piezo
(the rest of the instrument)
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Kathy Walsh, Atomic Force Microscopy, Physics 403, 7/21/21
segmented photodetector
normal direction(topography)
lateral direction(friction)
laser spot (reflected from back of cantilever)
(side view)
Laser detection
(exaggerated schematic)
non-interacting
Laser Detection
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Kathy Walsh, Atomic Force Microscopy, Physics 403, 7/21/21
sample pushing up
segmented photodetector
normal direction(topography)
lateral direction(friction)
laser spot (reflected from back of cantilever)
(side view)
Laser Detection
(exaggerated schematic)
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Kathy Walsh, Atomic Force Microscopy, Physics 403, 7/21/21
sample pulling down
segmented photodetector
normal direction(topography)
lateral direction(friction)
laser spot (reflected from back of cantilever)
(side view)
(exaggerated schematic)
Laser Detection
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Kathy Walsh, Atomic Force Microscopy, Physics 403, 7/21/21
cantileverholder
AFMtip
cantilever
AFM Tips
scanning probe microscopy
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Kathy Walsh, Atomic Force Microscopy, Physics 403, 7/21/21
Tip Terminology
chip
cantilevertip
side view
SEM images taken using MRL’s JEOL 6060LV
tips point upwards in the box
top view
chipcantilever tip
“probe”
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Kathy Walsh, Atomic Force Microscopy, Physics 403, 7/21/21
Typical Tip
SEM images taken using MRL’s JEOL 6060LV
cantilever
tipcantilever
tip
radius of curvature
common tip for imaging:• tip radius of curvature < 10 nm• silicon tip• cantilever width 30 µm• cantilever length 125 µm• cantilever thickness 4 µm
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Kathy Walsh, Atomic Force Microscopy, Physics 403, 7/21/21
• Typical tapping tip cost ~$21• Specialized tips cost more
– Coatings (electrical, magnetic) usually a couple more dollars per tip– High aspect ratio or 2 nm radius tips ~$70-80– Coaxial microwave waveguide tips ~$150– Colloidal probes, coated tips, made-to-order probes available
Tips for Good Results
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Kathy Walsh, Atomic Force Microscopy, Physics 403, 7/21/21
• Tips are consumables– Contamination from samples– Wear from samples– Dropping them
• When your tip goes bad, just throw it out!• Generally come in 10-packs
– 50-packs for frequent AFM’ers
“How long does a tip last?”
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Kathy Walsh, Atomic Force Microscopy, Physics 403, 7/21/21
The Process
• Mount tip• Mount sample• Scan• Process image• Extract numbers
(application-dependent)
Laser source & detector
XYZ motion
(the rest of the instrument) Tip Sample
samples are mounted flat on steel pucks, glass slides*, etc.
*depending on the instrument
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Kathy Walsh, Atomic Force Microscopy, Physics 403, 7/21/21
Raster Scanning on the AFM
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Kathy Walsh, Atomic Force Microscopy, Physics 403, 7/21/21
Feedback
current value
setpoint value
action
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Kathy Walsh, Atomic Force Microscopy, Physics 403, 7/21/21
Feedback
• z piezo extension adjusted to keep feedback signal equal to setpoint– too much force—move away– too little force—move closer– deflection for contact mode, usually amplitude for
tapping mode• distance extended or retracted describes the
height of the feature
height
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Kathy Walsh, Atomic Force Microscopy, Physics 403, 7/21/21
Contact Mode Imaging
• Drag tip along surface like a stylus profilometer (or like a record player)
• Adjust tip—sample separation to keep cantilever deflection constant– Traces sample topography– Some AFMs move tip;
some move sample
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Kathy Walsh, Atomic Force Microscopy, Physics 403, 7/21/21
Tapping Mode Imaging
• Standard mode for AFM topography
• Intermittent contact, tapping, AC, amplitude modulation mode
• Not constantly in contact with the surface
• Driven, oscillating cantilever• Tip—sample interactions
affect oscillation
tip oscillates at tens of kHz to MHz
constantamplitude of
oscillation(exaggerated)
tip-shaking piezo
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Kathy Walsh, Atomic Force Microscopy, Physics 403, 7/21/21
Tuning the Cantileverresonant frequency
phasecantilever oscillation amplitude
drive frequency
Cantilever is driven to maintain a constant amplitude
Interactions with the sample (later) damp the cantilever oscillation
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Kathy Walsh, Atomic Force Microscopy, Physics 403, 7/21/21
Application: Imaging
Polymer Grating
range of colors, not heights in the image
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Kathy Walsh, Atomic Force Microscopy, Physics 403, 7/21/21
Reading the Colorscale
BOPP/PE polymer blend (toothbrush packaging), 10µm x 10µm AFM topograph
same image, different color rangescolor range of the displayed image,not necessarily all heights on the surface
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Kathy Walsh, Atomic Force Microscopy, Physics 403, 7/21/21
Application: Step Heights
Fill in these data and slides
HOPG
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Kathy Walsh, Atomic Force Microscopy, Physics 403, 7/21/21
Step Heights and ThicknessesWhich book is thicker?
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Kathy Walsh, Atomic Force Microscopy, Physics 403, 7/21/21
Step Heights and Thicknesses
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Kathy Walsh, Atomic Force Microscopy, Physics 403, 7/21/21
Step Height: Relative Height
• Film thickness is measured by step height
• Measure a height difference– Leave some bare substrate
(patches are OK)– Scratch down to the substrate– Multilayer material—exposed
underlayer
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Kathy Walsh, Atomic Force Microscopy, Physics 403, 7/21/21
Step Height/Film Thickness: Complementary Techniques
If your step’s too broad for the AFM (edge width >~80um), try…
• Stylus profilometry• 3D optical profilometry
• X-ray Reflectivity (XRR)• X-ray Fluorescence (XRF)• Rutherford Backscattering
Spectrometry (RBS)
Need a height difference (step) like AFM
Continuous film (no steps)May need to know density
Sample courtesy ofJack Boparai, Physics
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Kathy Walsh, Atomic Force Microscopy, Physics 403, 7/21/21
AFM and Widths
Beware of tip shape convolution– As depth increases, pyramidal tips get broader– Steep drop-offs look less sharp– High aspect ratio tips are available
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Kathy Walsh, Atomic Force Microscopy, Physics 403, 7/21/21
AFM and Widths
Beware of tip shape convolution– As depth increases, pyramidal tips get broader– Steep drop-offs look less sharp– High aspect ratio tips are available
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Kathy Walsh, Atomic Force Microscopy, Physics 403, 7/21/21
Application: Roughness
• “The roughness” depends
• Choose measurement technique to match the feature scale of interest– AFM (nanoscale)– Stylus profilometry– 3D optical profilometry
What is the roughness of this landscape?
on the scale
Michael Jeffords and Susan Post, University of Illinois Prairie Research Institutehttps://photojournalingm-s.smugmug.com/Colorado-and-Kansas/i-3tJ3DZk/A
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Kathy Walsh, Atomic Force Microscopy, Physics 403, 7/21/21
Dark field
2D stylus profilometry
Complementary: Stylus Profilometry
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Kathy Walsh, Atomic Force Microscopy, Physics 403, 7/21/21
Complementary: Optical Profilometry
go.illinois.edu/MRL3DOpticalProfilometry
#2 pencilfocus variation
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Kathy Walsh, Atomic Force Microscopy, Physics 403, 7/21/21
Qualitative Comparison
AFM 2D Stylus Profilometry
3D Optical Profilometry
Vertical resolution outstanding OK OK
Field of view small large large
Data type image line image
Max sample size depends on instrument(~cm to large)
large large
Max feature height few µm mm mm
Force on sample light moderate none
Speed moderate really fast fast
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Kathy Walsh, Atomic Force Microscopy, Physics 403, 7/21/21
Mechanical Characterization
Visual impact of mechanical differences– Phase (tapping mode)– Force modulation, AM-FM, contact resonance, etc.– Maps of quantitative measurement results (force mapping)
topo
grap
hy
phas
e
BOPP/PE blend (toothbrush wrapper)
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Kathy Walsh, Atomic Force Microscopy, Physics 403, 7/21/21
Tapping Mode Imaging: Phase
• Oscillating cantilever• Tip—surface interactions
affect oscillation– Cantilever driven to keep a
constant amplitude– Dissipative interactions
cause a phase lag (delay)• Viscous areas• Sticky areas
tip oscillates really fast(tens of kHz to MHz)
(very exaggerated)
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Kathy Walsh, Atomic Force Microscopy, Physics 403, 7/21/21
Phase (Qualitative)
• Tapping mode imaging• Contrast in phase image
shows differences in mechanical properties– Qualitative, not
quantitative– Great for mixtures– Great for soft materials
deposited on hard surfaces
topo
grap
hyph
ase
BOPP/PE blend (toothbrush w
rapper)
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Kathy Walsh, Atomic Force Microscopy, Physics 403, 7/21/21
Topographyto
othb
rush
pac
kage
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Kathy Walsh, Atomic Force Microscopy, Physics 403, 7/21/21
Topography with Colors from Phase
phase colorscale overlaid on 3D topographyredder areas are more dissipative
toot
hbru
sh p
acka
ge
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Kathy Walsh, Atomic Force Microscopy, Physics 403, 7/21/21
Application: Conductive AFMV
carbon tape
V
Curr
ent
Bias
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Kathy Walsh, Atomic Force Microscopy, Physics 403, 7/21/21
Application: Fluid
• Can image and do some mechanical measurements in fluid
• Different setups– Droplet of fluid on sample– Submerged sample in open dish– Closed fluid cell
• Fluid is trickier– Setup (need to be more careful)– Hydrodynamics (partial solution:
photothermal cantilever excitation)
droplet
Petri dish lid
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Kathy Walsh, Atomic Force Microscopy, Physics 403, 7/21/21
Samples Shouldn’t Float or Flex
tip
sample
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Kathy Walsh, Atomic Force Microscopy, Physics 403, 7/21/21
Sample Drift
Scanning downwards… … then scanning upwards
scan
dire
ctio
n
scan
dire
ctio
n
chewing gum
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Kathy Walsh, Atomic Force Microscopy, Physics 403, 7/21/21
• Multiple tip– Tip contamination– Tip breaking
• Tip wear 1
1
new
1
worn
brokendirty
Tip Artifacts
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Kathy Walsh, Atomic Force Microscopy, Physics 403, 7/21/21
10µm partial scan
Contaminated Tip
1
dirty
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Kathy Walsh, Atomic Force Microscopy, Physics 403, 7/21/21
Image Processing
Do background subtraction first!
rockhopper penguin colony
photography by Michael Jeffords and Susan Post, Prairie Research Institute
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Kathy Walsh, Atomic Force Microscopy, Physics 403, 7/21/21
Image Processing
raw image
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Kathy Walsh, Atomic Force Microscopy, Physics 403, 7/21/21
Image Processing
line subtraction
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Kathy Walsh, Atomic Force Microscopy, Physics 403, 7/21/21
Image Processing
line subtraction
artifactuallylowered lines
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Kathy Walsh, Atomic Force Microscopy, Physics 403, 7/21/21
Image Processing
areas to ignorewhen processing
line subtraction:mask outlier areas
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Kathy Walsh, Atomic Force Microscopy, Physics 403, 7/21/21
Image Processing
line subtraction:masked flatten
no morestreaks
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Kathy Walsh, Atomic Force Microscopy, Physics 403, 7/21/21
Image Displayto
othb
rush
pac
kage
ext
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microbe’s-eye view
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Kathy Walsh, Atomic Force Microscopy, Physics 403, 7/21/21
Image Display
microbe’s-eye view
phot
omas
k
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Kathy Walsh, Atomic Force Microscopy, Physics 403, 7/21/21
Image Displayph
otom
ask
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Kathy Walsh, Atomic Force Microscopy, Physics 403, 7/21/21
Many Other Applications
• Nanolithography/nanomanipulation• LFM (friction, lateral force microscopy)• EFM (electrostatic force microscopy)• KPFM (SKPM, Kelvin probe)• MFM (magnetic force microscopy)• PFM (piezoresponse force microscopy)
• … and these generally don’t need extra gear (except different tips)
topography
MFM phase
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Kathy Walsh, Atomic Force Microscopy, Physics 403, 7/21/21
Attachments on the MRL AFMs
ORCA Conductive AFMScanning Microwave Impedance Microscopy (sMIM)Environmental ControllerBioHeaterPolyHeater (up to 300°C)MFP-3D Leg Extenders
blueDrive Photothermal ExcitationFast Force MappingDual-Gain ORCA Conductive AFMPiezoresponse Force Microscopy (HV-PFM) Contact Resonance Viscoelastic Mapping ModeAM-FM Viscoelastic Mapping ModeScanning Tunneling Microscopy (STM)Air Temperature Controller (ATC)Droplet Cantilever Holder Kit
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Kathy Walsh, Atomic Force Microscopy, Physics 403, 7/21/21
MRL AFMs—B12 MRL
Asylum MFP-3D-SA (2 of these)15µm z range, 90µm x 90µm scan size
Asylum Cypher5µm z range, 30µm x 30µm scan size
Lab tour today, 7/21, 4pm
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Kathy Walsh, Atomic Force Microscopy, Physics 403, 7/21/21
Related Instruments at MRL
• Neaspec Nano-IR– AFM + infrared– Highly localized chemical information
• Coming soon: Horiba TERS– Tip-enhanced Raman spectroscopy
• Dektak stylus profilometer • Keyence 3D optical profiler
Julio Soares, MRL
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Kathy Walsh, Atomic Force Microscopy, Physics 403, 7/21/21
• MRL Webinar Series– go.illinois.edu/MRLYouTubeChannel
• Basics of Atomic Force Microscopy (Kathy Walsh)• The Versatility of Nanomechanics with AFM (Jessica Spear)• 3D Optical Profilometry (Julio Soares and Kathy Walsh)
• Kathy Walsh, [email protected]
Keep Learning