Technical information
Table Of Contents
45
13. PROCEDURES FOR IMAGING OF STANDARDS AT
ATOMIC-SCALE RESOLUTION USING THE DIGITAL
INSTRUMENTS MULTIMODE AFM
Ortiz Nanomechanics Laboratory@MIT F01
I. Sample Producers and Preparation
•
Muscovite Mica
is a yellowish, light-colored, transparent to translucent silicate (subclass : phyllosilicates)
mineral with the following chemistry : K
2
Al
4
Si
6
Al
2
O
20
(OH,F)
4
, Potassium aluminum silicate hydroxide
fluoride. It is a hard, layered, crystalline (monoclinic 2/m) material that fractures along weak atomic planes
("cleavage" planes), thus easily producing atomically flat surfaces of atoms having a regular lattice structure
which are excellent for use in high-resolution AFM piezo calibration and as substrates for imaging of biological
samples. Muscovite has a layered structure of aluminum silicate sheets weakly bonded together by layers of
potassium ions. The potassium ions occupy large holes between 12 oxygen atoms, 6 from the layer above and 6
from the layer below; the resulting K-O ionic bonds are rather weak and easily broken. The cleavage sheets
fairly flexible and elastic, hydrophilic, and negatively charged in water. Muscovite Mica has low iron content is
a good electrical and thermal insulator. More detailed information on Muscovite Mica can be found here :
http://www.2spi.com/catalog/submat/mic_shet.html
(*http://www.ill.fr/dif/3D-crystals/layers.html)
Another typical AFM substrate is Highly Ordered Pyrolytic Graphite (HOPG) which is described in detail
here : http://www.2spi.com/new/hopgsub.html
• A few suppliers include the following companies :
1) Bioforce Lab (
http://www.bioforce.com
)
2) Structure-Probe Inc. (*http://www.2spi.com/catalog/afmstm.html),
3) Microscopy Mart / Pelco International (*http://www.pelcoint.com/AFM.htm)
• Cleavage directions are detailed here : http://www.2spi.com/catalog/submat/mica-disk.html
• Attach to metal puck and then to piezo scanner cap.
II. Real Time Parameter Settings
• contact mode, air or fluid cantilever holder (it is typically much easier to obtain images in water or buffer than
in air)
• use stiffest spring constant cantilever; on DI V-shaped cantilever chips this is the shortest one with fattest
legs