Merck Merck ready-to-use equivalent standard solution

Merck Merck Ready-to-Use Equivalent Standard Solution Introduction Easy to operate, easy to use Emphasis on laboratory storage and safe use: Only Titrisol has a hazard warning mark. Hazard warning instructions and packaging and Risk & Safely indications on each ampoule are in accordance with DIN (DIN 32625) - accurate concentration means reliable results with digital thermometers to detect ambient temperature: ensuring accurate titration of long titers guarantees long-term Reliability saves space; can be stored directly on the workbench to flexibly change its original concentration: the solvent can be flexibly selected by changing the final volume or the number of Titrisol ampere tubes; Titrisol ampere tube plus a suitable solvent can be used Preparation of anhydrous equivalent solution buffer solution is more convenient to use: all Titrisol buffers are marked with the corresponding temperature (0-90 ° C) corresponding pH and buffer composition titration is the most common chemical composition analysis method in the laboratory, titration is different The components usually require a corresponding equivalent solution, and the process of preparing these equivalent solutions is time consuming and labor intensive. Today, MERCK has introduced a formulated high quality equivalent solution with a titer deviation of less than 1.000 ± 0.1% and stable parameters between batch and batch. There are 62 varieties, ranging from 100 ml to 25 ml.

Merck Merck Ready-to-Use Equivalent Standard Solution Ordering Information

Order number	package	product name
1.02277.1000	1L	Ammonium cerium(IV) nitrate solution c(NH4)2 Ce(N
1.09079.1000	1L	Ammonium thiocyanate solution c(NH4SCN) = 0,1 mol/
1.09086.1000	1L	Barium perchlorate solution in 2-propanol/water (8
1.09092.1000	1L	Cerium(IV) sulfate solution c(Ce(SO4)2·4 H2O) = 0
1.02784.1000	1L	Copper sulfate solution c(CuSO4)=0,1 mol/l
1.05217.0500	500ML	Copper di-ammonium Titriplex(r) solution Cu(NH4)
1.09164.1000	1L	Hanus solution for determination of iodine number
1.15480.1000	1L	Hyamine(r) 1622-solution for the determination of
1.09060.1000	1L	Hydrochloric acid c(HCl) = 0,1 mol/l (0,1 N)
1.09060.5000	5L	Hydrochloric acid c(HCl) = 0,1 mol/l (0,1 N)
1.13134.9010	10L	Hydrochloric acid c(HCl) = 3,571 mol/l (1/0,28 N)
1.09058.1000	1L	Hydrochloric acid c(HCl) = 0,5 mol/l (0,5 N)
1.09063.1000	1L	Hydrochloric acid c(HCl) = 2 mol/l (2 N)
1.13136.9010	10L	Hydrochloric acid c(HCl) = 0,357 mol/l (1/2,8 N)
1.09057.1000	1L	Hydrochloric acid c(HCl) = 1 mol/l (1 N)
1.09057.5000	5L	Hydrochloric acid c(HCl) = 1 mol/l (1 N)
1.00326.1000	1L	Hydrochloric acid in 2-propanol c(HCl) = 0,1 mol
1.09099.1000	1L	Iodine solution c(I2) = 0,05 mol/l (0,1 N)
1.09098.1000	1L	Iodine solution c(I2) = 0,5 mol/l (1 N)
1.09143.1000	1L	Mercury(II) nitrate solution c(Hg(NO3)2) = 0,05
1.04476.1000	1L	Mercury(II) sulfate 80 g/l in potassium dichromate
1.01508.1000	1L	Mercury(II) sulfate 20 g/l in sulfuric-acid potass
1.00630.1000	1L	Nitric acid 10 mol/l
1.09065.1000	1L	Perchloric acid in anhydrous acetic acid / for ti
1.04817.0250	250ML	Potassium chloride solution 3 mol/l
1.04818.0100	100ML	Potassium chloride solution saturated with silver
1.09118.1000	1L	Potassium dichromate solution c(K2Cr2O7) = 1/24
1.09119.1000	1L	Potassium dichromate solution for determination of
1.04875.1000	1L	Potassium dihydrogen phosphate solution (buffer
1.09112.1000	1L	Potassium hydroxide solution c(KOH) = 0,1 mol/l (0
1.11586.5000	5L	Potassium hydroxide solution c(KOH) = 0,5 mol/l (
1.09108.1000	1L	Potassium hydroxide solution c(KOH) = 1 mol/l (1
1.09115.1000	1L	Potassium hydroxide solution in ethanol c(KOH) =
1.09114.1000	1L	Potassium hydroxide solution in ethanol c(KOH) =
1.05544.1000	1L	Potassium hydroxide solution in isopropanol c(KOH)
1.09351.1000	2.5L	Potassium hydroxide solution in methanol c(KOH) =
1.11787.2500	2.5L	Potassium hydroxide solution in methanol c(KOH) =
1.11587.2500	1L	Potassium hydroxide solution in methanol c(KOH) =
1.09107.1000	1L	Potassium hydroxide solution (max. 0,00004 % Ca)
1.09122.1000	1L	Potassium permanganate solution standardised agai
1.09121.1000	1L	Potassium permanganate solution standardised agai
1.11718.1000	1L	Silver nitrate solution c(AgNO3) = 0,05 mol/l (0
1.09081.1000	1L	Silver nitrate solution c(AgNO3) = 0,1 mol/l (0,1
1.09080.1000	1L	Silver nitrate solution c(AgNO3) = 1 mol/l (1 N)
1.06277.1000	1L	Sodium arsenite solution c(NaAsO2) = 0,05 mol/l (
1.06587.1000	1L	di-Sodium hydrogen phosphate solution (buffer sto
1.05595.1000	1L	Sodium hydroxide solution c(NaOH) = 0,33 mol/l (
1.05599.9010	10L	Sodium hydroxide solution c(NaOH) = 0,357 mol/l (
1.09141.1000	1L	Sodium hydroxide solution c(NaOH) = 0,1 mol/l (0,
1.09141.5000	5L	Sodium hydroxide solution c(NaOH) = 0,1 mol/l (0,
1.09139.1000	1L	Sodium hydroxide solution c(NaOH) = 0,25 mol/l (0
1.09140.1000	1L	Sodium hydroxide solution c(NaOH) = 0,2 mol/l (0,
1.09142.0500	500ML	Sodium hydroxide solution c(NaOH) = 0,02 mol/l (0
1.09137.1000	1L	Sodium hydroxide solution c(NaOH) = 1 mol/l (1 N)
1.09136.1000	1L	Sodium hydroxide solution c(NaOH) = 2 mol/l (2 N)
1.09138.1000	1L	Sodium hydroxide solution c(NaOH) = 0,5 mol/l (0,
1.11584.5000	5L	Sodium hydroxide solution c(NaOH) = 4 mol/l (4 N)
1.09147.1000	1L	Sodium thiosulfate solution c(Na2S2O3 · 5 H2O) =
1.09074.1000	1L	Sulfuric acid c(H2SO4) = 0,05 mol/l (0,1 N)
1.09073.1000	1L	Sulfuric acid c(H2SO4) = 0,25 mol/l (0,5 N)
1.09072.1000	1L	Sulfuric acid c(H2SO4) = 0,5 mol/l (1 N)
1.09162.1000	1L	Tetra-n-butylammonium hydroxide solution in 2-pr
1.08124.0250	250ML	Tetramethylammonium hydroxide solution in 2-propan
1.08431.1000	1L	Titriplex(r) III solution c(Na2-EDTA · 2 H2O) = 0
1.08447.1000	1L	Titriplex(r) IV solution c (DCTA Na2) = 0,1 mol/l
1.08450.1000	1L	Trifluoromethanesulfonic acid in anhydrous acetic
1.09163.1000	1L	Wijs solution c(ICl) = 0,1 mol/l
1.08879.1000	1L	Zinc sulfate solution c (ZnSO4) = 0,1 mol/l