Ocean Optics - Inventor of the World's First Miniature Spectrometer
Ocean Optics - Inventor of the World's First Miniature Spectrometer
 

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Ocean Optics - Inventor of the World's First Miniature Spectrometer

 

Care of Oxygen Sensor Probes

Sterilization Method

Your Oxygen Sensor probe is very easy to maintain. It can be left in air indefinitely, but don't leave it exposed to your excitation light source when it is not in use. Dropping the probe could cause the optical fiber to break. Be sure not to over tighten the SMA connections.

Clean your probes with 10% hypochlorite detergent and sterilize them with Gamma radiation or sodium hypochlorite (bleach). See below for further details on cleaning and sterilization methods available for your Sensor Probes. *Please contact an Applications Scientist before specifying FOSPOR or other coatings.

Cleaning Method

FOXY Probes

FOSPOR Probes

HIOXY Probes

Sodium hypochlorite (bleach)

Safe -- seems to have no effect on probes

Safe -- seems to have no effect on probes

Safe -- seems to have no effect on probes

Gamma radiation

Safe -- seems to have no effect on probes

Safe -- seems to have no effect on probes

Safe -- seems to have no effect on probes

Hydrogen peroxide plasma gas, low temperature, Plazlyte

Degrades probe signal by about 15% with each cycle

Degrades probe signal by about 15% with each cycle

Degrades probe signal by about 15% with each cycle

Autoclaving (steam sterilization) >30 minutes at 121 °C

Each cycle decreases signal by 50%; probe lifetime is 6 to 8 cycles

Each cycle decreases signal by 50%; probe lifetime is 6 to 8 cycles

Each cycle decreases signal by 50%; probe lifetime is 6 to 8 cycles

Methanol and ethanol wash

Destroys probe signal with extended exposure, even with overcoat

Destroys probe signal with extended exposure, even with overcoat

Safe with brief exposure to ethanol

Hydrogen peroxide

Destroys probe signal with extended exposure, even with overcoat

Destroys probe signal with extended exposure, even with overcoat

Unknown

Ozone

Preliminary results indicate that it is harmful to probes

Preliminary results indicate that it is harmful to probes

Preliminary results indicate that it is harmful to probes

EtO (100% ethylene oxide gas) at room temperature

Unknown

Unknown

Unknown

EtO at temperatures above 100 °C

Unknown

Unknown

Unknown

UV radiation

Unknown

Unknown

Unknown

Compatibility with Fiber Optic Oxygen Probes: Observational Results

The following tables lists known observational effects of chemicals and gases on Sensor Slides. If a chemical or gas passes the "observational" test (inserting the slide into the chemical/gas for a 24-hour period and observing no change in sensor performance), it warrants further comprehensive determinate testing. Please note that the table below lists compatibility on an observational level only.

Visual Observation of Sol Gel Coating on Slides

Chemical / Gas FOXY and FOSPOR HIOXY
Acetone (Reagent Plus, > 99%) No No
Acetonitrile No Yes
Acetonitrile Headspace No Yes
Acrylonitrile (99+ %) No No
Benzene (99%, AVS Reagent) No Yes
Cyclohexane No Yes
DichloroMethane No Yes
Diesel Fuel No Yes
Ethanol (Reagent, Denatured) No Yes
Gasoline No Yes
Glacial Acrylic Acid No No
Glacial Acetic Acid No No
Heptane Yes Yes
Hexane (95+%, HPLC grade) Yes Yes
Isopropyl Alcohol No Yes
Hydrogen Peroxide (3% H202 USP) Yes Yes
Methanol (98% Histological grade) No Yes
Methyl Methacrylate (99%) Yes No
Mineral Oil No Yes
Sodium Hypochlorite Solution (Reagent grade, available chlorine 10-13%) No No
Sodium Hydroxide No Yes
Sulfur Dioxide Solution Purris (PA 4.5-5.5% in H20) Yes Yes
Styrene (Reagent plus, > 99%) No Yes
Tetrahydrofuran (99+%) No No
Toluene (99%) No No
Xylene (Isomers plus ethyl benzene, Reagent plus) No Yes
Ethlyn Glycol Yes Yes
JP8 (Jet fuel) No Yes

Probes Without Overcoat Immersed in Chemicals

Chemical / Gas FOXY and FOSPOR HIOXY

Comments
Acetone (Reagent Plus, > 99%) No No Lifetime not reproducible
Acetonitrile No No The lifetime of the probe fluctuates and is not stable in the solution
Acetonitrile Headspace No Yes Needs additional conditioning in Acetonitrile headspace before use
Acrylonitrile (99+ %) No No Lifetime not reproducible
Benzene (99%, AVS Reagent) No Yes The probe has a one-time permanent decrease in lifetime when immersed in chemicals. Therefore, it needs to be calibrated in the chemical.
Cyclohexane No Yes The Hioxy probe has a one-time permanent decrease in lifetime when immersed in chemicals. Therefore, it needs to be calibrated in the chemical. The Foxy probe has decreases in both signal level and lifetime.
DichloroMethane No Yes The Hioxy probe has a one-time permanent decrease in lifetime when immersed in chemicals. Therefore, it needs to be calibrated in the chemical. The Foxy probe has decreases in both signal level and lifetime.
Diesel Fuel No Yes  
Ethanol (Reagent, Denatured) No Yes The probe has a one-time permanent decrease in lifetime when immersed in chemicals. Therefore, it needs to be calibrated in the chemical. The probe needs to be cured in Ethanol for lifetime to stabilize.
Gasoline No Yes  
Glacial Acrylic Acid No No  
Glacial Acetic Acid No No  
Heptane Yes Yes Foxy probes have a one-time permanent decrease in lifetime when immersed in chemicals. Therefore, it needs to be calibrated in the chemical.
Hexane (95+%, HPLC grade) No No Lifetime not reproducible
Isopropyl Alcohol No Yes The probe has a one-time permanent decrease in lifetime when immersed in chemicals. Therefore, it needs to be calibrated in the chemical. The signal level decreases every time the probe is immersed in ethanol and has a limited lifespan.
Hydrogen Peroxide (3% H202 USP) No Yes Hioxy Probe- Signal level has a very small decay over a long period of time. Bubbles formed on the tip of the probe
Methanol (98% Histological grade) No Yes The probe has a one-time permanent decrease in lifetime when immersed in chemicals. Therefore, it needs to be calibrated in the chemical.
Methyl Methacrylate (99%) No No Lifetime not reproducible
Mineral Oil No Yes The probe has a one-time permanent decrease in lifetime when immersed in chemicals. Therefore, it needs to be calibrated in the chemical.
Sodium Hypochlorite Solution (Reagent grade, available chlorine 10-13%) No No Lifetime not reproducible
Sodium Hydroxide No No Signal level and lifetime not reproducible
Sulfur Dioxide Solution Purris (PA 4.5-5.5% in H20) No No Foxy Probe: Signal level in the chemical is low and has a large variation from 55 to 20 counts. The signal level and lifetime decrease each time the probe is dipped in the chemical.
Styrene (Reagent plus, > 99%) No Yes Hioxy Probe: The probe has a one-time permanent decrease in lifetime when immersed in chemicals. Therefore, it needs to be calibrated in the chemical.
Tetrahydrofuran (99+%) No No Lifetime not reproducible
Toluene (99%) No Yes Hioxy Probe: The probe has a one-time permanent decrease in lifetime when immersed in chemicals. Therefore, it needs to be calibrated in the chemical.
Xylene (Isomers plus ethyl benzene, Reagent plus) No No Lifetime not reproducible
Ethlyn Glycol No Yes Hioxy Probe: The probe has a one-time permanent decrease in lifetime when immersed in chemicals. Therefore, it needs to be calibrated in the chemical.
JP8 (Jet fuel) No Yes  

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