0
Water
1
0
Water
1
0
Water
1
0
Water
1
0
Water
1
0
Water
1
0
Water
1
0
Water
1
0
Water
1
0
Water
1
0
Water
1
0
Water
1
0.1
4
Buffer
2
0.1
4
Buffer
2
0.15
Additive
9
0.1
4
Buffer
2
0.15
Additive
9
0.02
Additive
11
0.1
4
Buffer
2
0.15
Additive
10
0.01
Additive
13
0.1
4
Buffer
2
0.15
Additive
9
0.01
Additive
14
0.1
4
Buffer
2
0.15
Additive
9
0.01
Additive
15
0.1
4
Buffer
16
0.1
4
Buffer
16
0.15
Additive
9
0.1
4
Buffer
16
0.15
Additive
9
0.02
Additive
11
0.1
4
Buffer
16
0.15
Additive
10
0.02
Additive
23
0.1
4
Buffer
16
0.15
Additive
9
0.01
Additive
14
0.1
4
Buffer
16
0.15
Additive
9
0.01
Additive
15
0.1
5
Buffer
3
0.1
5
Buffer
3
0.15
Additive
9
0.1
5
Buffer
3
0.15
Additive
9
0.02
Additive
11
0.1
5
Buffer
3
0.15
Additive
9
0.01
Additive
13
0.1
5
Buffer
3
0.15
Additive
9
0.01
Additive
14
0.1
5
Buffer
3
0.15
Additive
9
0.01
Additive
15
0.1
5
Buffer
17
0.1
5
Buffer
17
0.15
Additive
9
0.1
5
Buffer
17
0.15
Additive
10
0.02
Additive
11
0.1
5
Buffer
17
0.15
Additive
9
0.02
Additive
23
0.1
5
Buffer
17
0.15
Additive
9
0.01
Additive
14
0.1
5
Buffer
17
0.15
Additive
9
0.01
Additive
15
0.1
6
Buffer
4
0.1
6
Buffer
4
0.15
Additive
9
0.1
6
Buffer
4
0.15
Additive
9
0.02
Additive
11
0.1
6
Buffer
4
0.15
Additive
10
0.01
Additive
13
0.1
6
Buffer
4
0.15
Additive
9
0.01
Additive
14
0.1
6
Buffer
4
0.15
Additive
9
0.01
Additive
15
0.1
6
Buffer
18
0.1
6
Buffer
18
0.15
Additive
9
0.1
6
Buffer
18
0.15
Additive
9
0.02
Additive
11
0.1
6
Buffer
18
0.15
Additive
10
0.02
Additive
23
0.1
6
Buffer
18
0.15
Additive
9
0.01
Additive
14
0.1
6
Buffer
18
0.15
Additive
9
0.01
Additive
15
0.1
7
Buffer
5
0.1
7
Buffer
5
0.15
Additive
9
0.1
7
Buffer
5
0.15
Additive
9
0.02
Additive
11
0.1
7
Buffer
5
0.15
Additive
9
0.01
Additive
13
0.1
7
Buffer
5
0.15
Additive
10
0.02
Additive
24
0.1
7
Buffer
5
0.15
Additive
9
0.02
Additive
25
0.1
7
Buffer
19
0.1
7
Buffer
19
0.15
Additive
9
0.1
7
Buffer
19
0.15
Additive
10
0.02
Additive
11
0.1
7
Buffer
19
0.15
Additive
9
0.02
Additive
23
0.1
7
Buffer
19
0.15
Additive
9
0.02
Additive
24
0.1
7
Buffer
19
0.15
Additive
9
0.02
Additive
25
0.1
8
Buffer
6
0.1
8
Buffer
6
0.15
Additive
9
0.1
8
Buffer
6
0.15
Additive
9
0.02
Additive
11
0.1
8
Buffer
6
0.15
Additive
10
0.01
Additive
13
0.1
8
Buffer
6
0.15
Additive
9
0.02
Additive
24
0.1
8
Buffer
6
0.15
Additive
9
0.02
Additive
25
0.1
8
Buffer
20
0.1
8
Buffer
20
0.15
Additive
9
0.1
8
Buffer
20
0.15
Additive
9
0.02
Additive
11
0.1
8
Buffer
20
0.15
Additive
9
0.02
Additive
23
0.1
8
Buffer
20
0.15
Additive
9
0.02
Additive
24
0.1
8
Buffer
20
0.15
Additive
9
0.02
Additive
25
0.1
9
Buffer
7
0.1
9
Buffer
7
0.15
Additive
9
0.1
9
Buffer
7
0.15
Additive
9
0.02
Additive
12
0.1
9
Buffer
7
0.15
Additive
9
0.01
Additive
13
0.1
9
Buffer
7
0.15
Additive
9
0.02
Additive
24
0.1
9
Buffer
7
0.15
Additive
9
0.02
Additive
25
0.1
9
Buffer
21
0.1
9
Buffer
21
0.15
Additive
10
0.1
9
Buffer
21
0.15
Additive
9
0.02
Additive
11
0.1
9
Buffer
21
0.15
Additive
9
0.02
Additive
23
0.1
9
Buffer
21
0.15
Additive
10
0.02
Additive
24
0.1
9
Buffer
21
0.15
Additive
9
0.02
Additive
25
0.1
10
Buffer
8
0.1
10
Buffer
8
0.15
Additive
9
0.1
10
Buffer
8
0.15
Additive
9
0.02
Additive
11
0.1
10
Buffer
8
0.15
Additive
9
0.01
Additive
13
0.1
10
Buffer
8
0.15
Additive
9
0.02
Additive
24
0.1
10
Buffer
8
0.15
Additive
9
0.02
Additive
25
0.1
10
Buffer
22
0.1
10
Buffer
22
0.15
Additive
9
0.1
10
Buffer
22
0.15
Additive
9
0.02
Additive
11
0.1
10
Buffer
22
0.15
Additive
9
0.02
Additive
23
0.1
10
Buffer
22
0.15
Additive
9
0.02
Additive
24
0.1
10
Buffer
22
0.15
Additive
9
0.02
Additive
25
1
100
0
0
%
false
Water
Water
Water
2
1
0.1
0.1
M
4
true
Jena Bioscience
3
1
0.1
0.1
M
5
true
Jena Bioscience
4
1
0.1
0.1
M
6
true
Jena Bioscience
5
1
0.1
0.1
M
7
true
Jena Bioscience
6
1
0.1
0.1
M
8
true
Jena Bioscience
7
1
0.1
0.1
M
9
true
Jena Bioscience
8
1
0.1
0.1
M
10
true
Jena Bioscience
CHC buffer is produced by mixing citric acid, HEPES and CHES in the molar ratios 2:3:4 - citric acid:HEPES:CHES. The three chemicals have three different buffering curves and their ratios have been selected to keep pH variation almost linear. The desired pH is obtained by mixing high- and low-pH stock solutions
Buffer
4
10
10
0.02
CHC buffer
CHC
9
5
0
5
M
false
Jena Bioscience
10
5
0
5
M
false
HR2-637
Hampton Research
Additive
7647-14-5
Sodium chloride
NaCl
11
2
0
2
M
false
Jena Bioscience
12
1
0
1
M
false
CSS-215
Jena Bioscience
Epsom salts
Magnesium sulfate heptahydrate
Magnesium sulfate hydrate
Additive
10034-99-8
22189-08-8
Magnesium sulfate
MgSO4
13
1
0
1
M
false
Jena Bioscience
Ferric Chloride Hexahydrate
Iron (III) chloride hexahydrate
Additive
10025-77-1
Iron (III) chloride
FeCl3
14
1
0
1
M
false
CSS-325
Jena Bioscience
Additive
7646-85-7
Zinc chloride
ZnCl2
15
1
0
1
M
false
Jena Bioscience
Manganese (II) chloride tetrahydrate
Additive
13446-34-9
Manganese (II) chloride
MnCl2
16
1
0.1
0.1
M
4
true
Jena Bioscience
MIB buffer is produced by mixing sodium malonate, imidazole, and boric acid
in the molar ratios 2:3:3 – sodium malonate:imidazole:boric acid.* The three
chemicals have three different buffering curves and their ratios have been
selected to keep pH variation almost linear. The desired pH is obtained by
mixing high- and low-pH stock solutions
17
1
0.1
0.1
M
5
true
Jena Bioscience
MIB buffer is produced by mixing sodium malonate, imidazole, and boric acid
in the molar ratios 2:3:3 – sodium malonate:imidazole:boric acid.* The three
chemicals have three different buffering curves and their ratios have been
selected to keep pH variation almost linear. The desired pH is obtained by
mixing high- and low-pH stock solutions
18
1
0.1
0.1
M
6
true
Jena Bioscience
MIB buffer is produced by mixing sodium malonate, imidazole, and boric acid
in the molar ratios 2:3:3 – sodium malonate:imidazole:boric acid.* The three
chemicals have three different buffering curves and their ratios have been
selected to keep pH variation almost linear. The desired pH is obtained by
mixing high- and low-pH stock solutions
19
1
0.1
0.1
M
7
true
Jena Bioscience
MIB buffer is produced by mixing sodium malonate, imidazole, and boric acid
in the molar ratios 2:3:3 – sodium malonate:imidazole:boric acid.* The three
chemicals have three different buffering curves and their ratios have been
selected to keep pH variation almost linear. The desired pH is obtained by
mixing high- and low-pH stock solutions
20
1
0.1
0.1
M
8
true
Jena Bioscience
MIB buffer is produced by mixing sodium malonate, imidazole, and boric acid
in the molar ratios 2:3:3 – sodium malonate:imidazole:boric acid.* The three
chemicals have three different buffering curves and their ratios have been
selected to keep pH variation almost linear. The desired pH is obtained by
mixing high- and low-pH stock solutions
21
1
0.1
0.1
M
9
true
Jena Bioscience
MIB buffer is produced by mixing sodium malonate, imidazole, and boric acid
in the molar ratios 2:3:3 – sodium malonate:imidazole:boric acid.* The three
chemicals have three different buffering curves and their ratios have been
selected to keep pH variation almost linear. The desired pH is obtained by
mixing high- and low-pH stock solutions
22
1
0.1
0.1
M
10
true
Molecular Dimensions
MIB buffer is produced by mixing sodium malonate, imidazole, and boric acid
in the molar ratios 2:3:3 – sodium malonate:imidazole:boric acid.* The three
chemicals have three different buffering curves and their ratios have been
selected to keep pH variation almost linear. The desired pH is obtained by
mixing high- and low-pH stock solutions
Buffer
4
10
10
0.02
141-82-2
288-32-4
10043-35-3
MIB buffer
MIB
23
1
0
1
M
false
Jena Bioscience
Calcium chloride dihydrate
Additive
10035-04-8
Calcium chloride
CaCl2
24
1
0
1
M
false
Jena Bioscience
Lithium chloride anhydrous
Additive
7447-41-8
Lithium chloride
LiCl
25
1
0
1
M
false
CSS-265
Jena Bioscience
Additive
7447-40-7
Potassium chloride
KCl