Take advantage of more than 200 different analytics solutions in Spectroquant® for your analysis:
– drinking water
– surface water
– process waters
– urban or industrial wastewater
-Drinks
– disinfection control
The Spectroquant® test kits and programmed analysis techniques in the
Prove
range offer you a number of advantages:
– fast and easy recognition of barcodes by the device helps to conveniently and efficiently analyze. choice between cuvette and reagent kits
– proven analysis methods that meet the requirements of DIN, EN, ISO, USEPA, APHA.
The set of parameters that can be measured with Spectroquant Kits is constantly expanding and matched to meet all the requirements and needs of your daily work.
Spectroquant® Cuvette Kits – Very User Friendly
All reagents necessary for analysis are contained in cuvettes
Allows you to conduct analyzes even without prior preparation, does not require highly qualified operator.
Minimizes the influence of the human factor on the result, which ensures their reliability and reproducibility.
Reduces time and labor costs for analysis.Reducing operator contact with harmful reagents.
Elimination of possible errors through the barcode system
Spectroquant® Reagent Kits – Benefits at Every Step
Highly stable, ready-to-use mixture of reagents in a convenient design
Using cuvettes of different sizes, you can change the measurement range and accuracy of the same set of reagents.
The kits have a long shelf life (up to three years) at room temperature.
Liquid or powdered reagents are easily added in the required amount for analysis using special dispensers already in the kit and allow them to be added to the sample more conveniently.
Automatic selection of the right method using barcode identification.
It can be used not only on a spectrophotometer from Merck, but also in work on photometers from other manufacturers.
Reagent kits for analysis:
Indicator.
Executioner. number
Dandapazon, mg/dm3
Number of measurements in a set
Total nitrogen
1.00613.0001
0,5-15
25
1.14763.0001
10-150
25
Aluminum
1.00594.0001
0,02-0,5
25
1.14825.0001
0,020-1,2
350
Amonandjy nitrogen
(Ammonium)
1.14739.0001
0,010-2
25
1.14752.0002
0,010-3
250
1.14752.0001
0,010-3
500
1.14558.0001
0,2-8
25
1.14544.0001
0,5-16
25
1.00683.0001
2,0-150
100
1.14559.0001
4,0-80
25
Protein (Biuret method)
1.10370.0500
0,5-10
250
Protein (Bradford method)
1.10306.0500
0.01-1.4 mg/ml
200
Biological oxygen consumption (B, C, K)
1.00687.0001
0,5-3000
50
Boron
1.00826.0001
0,05-2,00
25
1.14839.0001
0,050-0,800
50
Bromine
1.00605.0001
0,02-10
200
Ganddrasine
1.09711.0001
0,005-2
100
Halogen-containing organandhni
compounds
1.00675.0001
0,05-2,5
25
Dandchlorine oxidey
1.00608.0001
0,02-10
200
Total alkalinity
1.01758.0001
0,40-8,00 mmol/l
25
Iron
1.14761.0001
0,005-5
1000
1.14761.0002
0,005-5
250
1.14549.0001
0,05-4
25
1.00796.0001
0,01-5
150
1.14896.0001
1-50
25
Hardness
1.14683.0001
0,5-5 Ca
25
Gold
1.14821.0002
0,5-12
75
Cadmusandy
1.01745.0001
0,002-0,5
55
1.14834.0001
0,025-1
25
Potassium
1.14562.0001
5,0-50
25
1.00615.0001
30-300
25
Calcium
1.00049.0001
0,2-4
100
Cobalt
1.17244.0001
0,05-2,00
25
Soluble oxygen
1.14694.0001
0,5-12
25
Oxygen acceptors
1.19251.0001
0,02-0,5
200
Silicates
1.01813.0001
0,0005-0,5
100
1.14794.0001
0,011-10,7
300
1.00857.0001
1,1-1070
100
Volatile organic acids
1.01749.0001
50-3000
25
1.01809.0001
50-3000
100
Magnesium
1.00815.0001
5,0-75,0
25
Manganese
1.01846.0001
0,005-2
250
1.14770.0002
0,010-10
250
1.14770.0001
0,010-10
500
1.00816.0001
0,1-5
25
Copper
1.14767.0001
0,02-6
250
1.14553.0001
0,05-8
25
Molybdenum
1.00860.0001
0,02-1
25
Monochloramandn
1.01632.0001
0,05-10
150
Arsenic
1.01747.0001
0,001-0,1
30
Sodaand in nutrient media
1.00885.0001
10-300
25
Nickel
1.14554.0001
0,10-6,00
25
1.14785.0001
0,10-5,00
250
Handtraty
1.09713.0001
0,1-25
100
1.09713.0001
0,1-25
250
101842.0001
0,3-30
100
1.14563.0001
0,5-25
25
1.14764.0001
1-50
25
1.00614.0001
23-225
25
1.14556.0001
0,1-3
25
1.14942.0001
0,2-17
50
Handtrits
1.14776.0002
0,002-1
335
1.14776.0001
0,002-1
1000
1.14547.0001
0,010-0,7
25
1.00609.0001
1-90
25
Ozone
1.00607.0001
0,01-4
200
1.00607.0002
0,01-4
1200
Total organic carbon
1.14878.0001
5.0 – 80
25
1.14879.0001
50 – 800
25
Tin
1.14622.0001
0,1-2,5
25
Surfactants (surfactants)
andnon
1.14697.0001
0,05-2
25
Surfactants (surfactants) catando n n i
1.01764.0001
0,05-1,5
25
Surfactants (surfactants) are nonionic
1.01787.0001
0,1-7,5
25
Hydrogen peroxide
1.14731.0001
2-20
25
Lead
1.09717.0001
0,01-5
50
1.14833.0001
0,01-5
25
Sulfateand
1.01812.0001
0,5-50
100
1.14548.0001
5-250
25
1.02537.0001
5-300
100
1.00617.0001
50-500
25
1.14564.0001
100-1000
25
Sulfites
1.14394.0001
1,0-20,0
25
1.01746.0001
1,0-60,0
150
Sulfidy
1.14779.0001
0,02-1,5
220
Phenol
1.00856.0001
0.002-5
50
1.14551.0001
0.1-2.5
25
Formaldehyde
1.14500.0001
0.10 – 8
25
1.14678.0001
0.02 – 8
100
Phosphateand
1.14848.0002
0,01-5
220
1.14848.0001
0,01-5
420
1.14543.0001
0,05-5
25
1.00474.0001
0,05-5
25
1.00475.0001
0,5-25
25
1.14729.0001
0,5-25
25
1.14546.0001
0,5-25
25
1.14842.0001
0,5-30
400
1.00798.0001
1-100
100
1.00616.0001
3-100
25
1.00673.0001
3-100
25
Fluorideand
1.00822.0250
0,02-2
250
1.00809.0001
0,1-1,8
25
1.14598.0001
0,1-20
100
1.14598.0002
0,1-20
250
Chemical oxygen consumption
(XCK)
1.14560.0001
4-40
25
1.14540.0001
10-150
25
1.14895.0001
15-300
25
1.14541.0001
25-1500
25
1.14691.0001
300-3500
25
1.14555.0001
500-10000
25
1.01797.0001
5000-90000
25
1.09772.0001
10-150
25
1.09773.0001
100-1500
25
Chlorine
1.00598.0002
0,01-6
200
1.00598.0001
0,01-6
1200
1.00595.0001
0,03-6
200
1.00602.0001
0,01-6
200
1.00602.0002
0,01-6
1200
1.00599.0001
0,01-6
200
1.00597.0001
0,03-6
200
1.00086.0001
0,01-6
200
1.00087.0001
0,01-6
400
1.00088.0001
0,01-6
600
Chlorideand
1.01807.0001
0,1-5
100
1.01804.0001
0,5-15
25
1.14897.0001
2,5-250
100
1.14897.0002
2,5-250
175
1.14730.0001
5-125
25
Chromateand
(Chrome)
1.14758.0001
0,01-3
250
1.14552.0001
0,05-2
25
Cyanogenanddy
1.14561.0001
0,01-0,5
25
1.09701.0001
0,002-0,5
100
Cyanurov kislota
1.19253.0001
2-160
100
Zinc
1.00861.0001
0,025-1
25
1.14832.0001
0,05-2,5
100
1.14566.0001
0,2-5
25
