Crystal cleaning, General cleaning, Organic (hydrocarbon contaminants) – INFICON RQCM - Quartz Crystal Microbalance Research System User Manual

RQCM – RESEARCH QUARTZ CRYSTAL MICROBALANCE

CRYSTALS, HOLDERS AND FLOW CELL

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4.2.1 CRYSTAL

CLEANING

The surface properties of the sensor crystal determine the interaction of sample material with the

surface. Therefore, the developments of proper procedures for cleaning are required to obtain

meaningful and reproducible measurements. This section provides the basic information you need

to develop a cleaning procedure suited to your sample/surface preparation.

CAUTION

– When developing a cleaning procedure, always perform

a test run on a crystal before committing to a larger batch cleaning.

Follow the crystal handling guidelines throughout the cleaning process

to protect the crystal quality. Avoid using high pH cleaners since they

will etch the crystal surface.

4.2.1.1 General

Cleaning

For general purpose applications such as electrochemistry and liquid or viscoelastic film

experiments, it is usually sufficient to clean the crystals in a solution of non-basic detergent

in deionized water. Immediately rinse liberally with deionized water and dry in a gentle flow

of filtered nitrogen gas.

4.2.1.2

Organic (hydrocarbon contaminants)

UV/ozone treatment

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is a powerful tool for removing hydrocarbon impurities which have been

adsorbed from the ambient air. This method utilizes irradiation with ultra violet light that breaks

up the organics on the surface of the sample being cleaned. A flow of air or a weak vacuum

carries off the organics. This method does not affect the quartz surface; it is low cost and is very

efficient.
Oxygen plasma cleaning is another effective method that will remove organic matters. In this

method, the plasma reaction breaks up organic matters at the surface of the sample being cleaned

into smaller molecules and a vacuum pump removes them from the surface of the sample.

4.2.1.3

Biomaterials (lipids, proteins and similar biomolecules)

Start by treating the crystal in an UV/ozone chamber for 10 minutes, then immerse it into a

1:1:5 solution of hydrogen peroxide (30%), ammonia (25%) and deionized water heated

to a temperature of about 75°C for 5 minutes

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. Immediately rinse liberally with

deionized water and dry in a gentle flow of nitrogen gas. Immediately before

measurement, treat the crystal with UV/ozone for 10 minutes.

4.2.1.4

Lipid vesicles on SiO

2

surfaces

Treat the crystal in an UV/ozone chamber for 10 minutes, then immerse it into water with

2% of sodium dodecyl sulfate (SDS) at room temperature for 30 minutes

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. Rinse

generously with deionized water and blow dry with filtered nitrogen gas. Immediately before

measurement, treat the crystal with UV/ozone for 10 minutes.

4.2.1.5 Polystyrene

removal

To clean polystyrene (PS) off a crystal, immerse the crystal into a 1:1 solution of hexane

and deionized water. Rinse thoroughly with deionized water and blow dry with filtered

nitrogen gas.

4.2.1.6 Polymer

Removal

To clean polymers from the crystals a combination of plasma cleaning with O2 plasma and

piranha solution is recommended. However, it is best to remove the bulk of the material with