Table 1 Electrochemical anodic glucose oxidation and OER in 1 M KOH.

From: Efficient electrochemical production of glucaric acid and H2 via glucose electrolysis

Entry

Catalyst

Cglucose (mM)

J (mA cm−2) (E = 1.30 V)

TOF (s−1) (E = 1.30 V)

Potential applied (V)

Reaction time (h)

Glucose conversion (%)

Y (GNA) (%)

Y(GRA) (%)

Y(GNA+GRA) (%)

FE (%)

1

NiFeOx-NF

0

2.61

1.6 × 10−3

2

NiFeNx-NF

0

0.90

4.7 × 10−3

3

NiFeOx-NF

10

17.7

0.03

1.30

2

98.3

8.6

83.3

91.9

87

4

NiFeOx-NF

50

61.5

0.11

1.30

10

93.1

11.2

75.3

86.5

79

5

NiFeOx-NF

100

87.6

0.16

1.30

18

90.6

12.6

71.2

83.8

73

6

NiFeNx-NF

100

22.1

0.04

1.30

18

92.7

19.6

63.8

83.4

68

7

NiFe(OH)x-NF

100

79.2

0.09

1.30

18

88.6

21.3

56.9

78.2

64

8

NF

100

20.3

1.7 × 10−3

1.30

18

59.2

37.3

17.2

54.5

67

9

Pt-C//NF

100

49.3

0.04

1.30

18

67.3

41.9

20.2

62.2

71

10

RuO2//NF

100

83.8

9.4 × 10−3

1.30

18

90.1

52.2

27.7

79.9

77

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