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Nitric Oxide Sensors      
Specifications and Features
Common to All Models
   
All NO sensors are combination sensors, no reference or counter electrodes are needed.
All sensors are covered with a proprietary triplecoat gas permeable membranes to guarantee selectivity and very fast response time.
All sensors are completely shielded from environmental/electrical noise.
All sensors work with our inNO-T meter as well as a number of other currently available meters.
One calibration procedure, simple and easy, no expensive chemicals.
Customized sensors available upon request to meet specialized applications.
Very stable background. Minimum drift and noise.

amiNO-7
7 mm tip diameter.
Ideal for extremely localized measurements. Spatial resolution.
Metal alloy fiber. Resists breakage.

amiNO-30
30 mm tip diameter.
For space restricted measurements.
Metal alloy fiber. Resists breakage.

amiNO-100
100 mm tip diameter.
Extremely stable background.
Quick response.
To be used in restricted areas and ‘In Vivo’ measurements.
Very consistent & reproducible.

amiNO-600 (Formerly amiNO-700)
600 mm tip diameter.
One of the most sensitive electrode-chemical NO sensor ever build (in excess of 200 pA/nM).
Sub- nanomolar detection limit.
Flexible body.
Very durable. Very tough gas preamble membranes.

amiNO-2000
Flat 2 mm tip diameter.
Stainless steel/aluminum body.
Longest life NO electrode (user replaceable membranes).
Tough enough for training new staff and students.
Used to measure High Levels of NO as in drug solutions and macrophages.

amiNO-FLAT
Designed specially for measuring NO released from a monolayer cultures cells and large flat tissues.
Large surface area, 25 x 25 mm.
Exceptional sensitivity; more than 500 pA/nM. Sub-nanomolar detection limit.
Low background.

amiNO-IV
600 µm tip diameter.
Very sharp metallic tip for insertion/penetration for tissues, no extra needles for catheters are needed, sensor is the needle.
Exceptional sensitivity, up to 100 times more sensitive than other commercially available sensors.
Sub nano-molar detection limit.
Special membrane survives numerous insertions.
Very stable and low background current.