Glucose biofuel cells using the two-step reduction reaction of bienzyme structure as cathodic catalyst

[Display omitted] •We suggest CNT/PBA/[HRP/PEI/GOx] catalyst as cathodic catalyst of GBFC.•Bienzyme structure consisting of GOx and HRP are used as the catalyst.•ORR is improved because of bienzyme entrapped well in PEI.•CNT/PBA promotes electron transfer due to π–π stacking and short pathway distan...

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Published inJournal of industrial and engineering chemistry (Seoul, Korea) Vol. 71; pp. 435 - 444
Main Authors Christwardana, Marcelinus, Chung, Yongjin, Kim, Do-Heyoung, Kwon, Yongchai
Format Journal Article
LanguageEnglish
Published Elsevier B.V 25.03.2019
한국공업화학회
Subjects
Bienzyme
Biofuel cell
Glucose oxidase
Horseradish peroxidase
π–π stacking
화학공학
Horseradish peroxidase
Glucose oxidase
Bienzyme
π–π stacking
Biofuel cell
Online AccessGet full text
ISSN1226-086X
1876-794X
DOI10.1016/j.jiec.2018.11.056

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Abstract [Display omitted] •We suggest CNT/PBA/[HRP/PEI/GOx] catalyst as cathodic catalyst of GBFC.•Bienzyme structure consisting of GOx and HRP are used as the catalyst.•ORR is improved because of bienzyme entrapped well in PEI.•CNT/PBA promotes electron transfer due to π–π stacking and short pathway distance.•GBFC containing CNT/PBA/[HRP/PEI/GOx] catalyst induces high performance. Glucose oxidase (GOx) and horseradish peroxidase (HRP) based bienzymes are entrapped in a polyethylenimine (PEI) matrix and then immobilized onto a substrate consisting of carbon nanotube (CNT) and pyrene boronic acid (PBA) (CNT/PBA/[HRP/PEI/GOx]). This structure is considered as the cathodic catalyst for the glucose biofuel cell (GBFC). According to the performance evaluations of the catalyst, the catalytic activity for the oxygen reduction reaction (ORR) is improved because of the bienzyme entrapped well in PEI, and also, because the CNT/PBA substrate promotes electron transfer by the formation of π–π stacking and the reduction of the electron transfer pathway distance. The high ORR reaction rate (38.7μAcm−2 in the injection of 5mM glucose) is clear evidence of an excellent catalyst. In addition, when the catalyst is adopted for the operation of a membrane GBFC, a high-power density (77.9±2.3μWcm−2) is achieved, as well as good storage stability (81% of its initial activity even after 4 weeks) and a high glucose consumption rate (8.7±0.2% from its initial concentration during 7 operating hours). Alternatively, when the catalyst is used for the membraneless GBFC operation, a relatively high-power density of 18μWcm−2 is also obtained.
AbstractList [Display omitted] •We suggest CNT/PBA/[HRP/PEI/GOx] catalyst as cathodic catalyst of GBFC.•Bienzyme structure consisting of GOx and HRP are used as the catalyst.•ORR is improved because of bienzyme entrapped well in PEI.•CNT/PBA promotes electron transfer due to π–π stacking and short pathway distance.•GBFC containing CNT/PBA/[HRP/PEI/GOx] catalyst induces high performance. Glucose oxidase (GOx) and horseradish peroxidase (HRP) based bienzymes are entrapped in a polyethylenimine (PEI) matrix and then immobilized onto a substrate consisting of carbon nanotube (CNT) and pyrene boronic acid (PBA) (CNT/PBA/[HRP/PEI/GOx]). This structure is considered as the cathodic catalyst for the glucose biofuel cell (GBFC). According to the performance evaluations of the catalyst, the catalytic activity for the oxygen reduction reaction (ORR) is improved because of the bienzyme entrapped well in PEI, and also, because the CNT/PBA substrate promotes electron transfer by the formation of π–π stacking and the reduction of the electron transfer pathway distance. The high ORR reaction rate (38.7μAcm−2 in the injection of 5mM glucose) is clear evidence of an excellent catalyst. In addition, when the catalyst is adopted for the operation of a membrane GBFC, a high-power density (77.9±2.3μWcm−2) is achieved, as well as good storage stability (81% of its initial activity even after 4 weeks) and a high glucose consumption rate (8.7±0.2% from its initial concentration during 7 operating hours). Alternatively, when the catalyst is used for the membraneless GBFC operation, a relatively high-power density of 18μWcm−2 is also obtained.
Glucose oxidase (GOx) and horseradish peroxidase (HRP) based bienzymes are entrapped in apolyethylenimine (PEI) matrix and then immobilized onto a substrate consisting of carbon nanotube(CNT) and pyrene boronic acid (PBA) (CNT/PBA/[HRP/PEI/GOx]). This structure is considered as thecathodic catalyst for the glucose biofuel cell (GBFC). According to the performance evaluations of thecatalyst, the catalytic activity for the oxygen reduction reaction (ORR) is improved because of thebienzyme entrapped well in PEI, and also, because the CNT/PBA substrate promotes electron transfer bythe formation of p–p stacking and the reduction of the electron transfer pathway distance. The high ORRreaction rate (38.7 mA cm 2 in the injection of 5 mM glucose) is clear evidence of an excellent catalyst. Inaddition, when the catalyst is adopted for the operation of a membrane GBFC, a high-power density(77.9 2.3 mW cm 2) is achieved, as well as good storage stability (81% of its initial activity even after 4weeks) and a high glucose consumption rate (8.7 0.2% from its initial concentration during 7 operatinghours). Alternatively, when the catalyst is used for the membraneless GBFC operation, a relatively highpowerdensity of 18 mW cm 2 is also obtained. KCI Citation Count: 5
Author Christwardana, Marcelinus
Kwon, Yongchai
Kim, Do-Heyoung
Chung, Yongjin
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Keywords Horseradish peroxidase
Glucose oxidase
Bienzyme
π–π stacking
Biofuel cell
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Snippet [Display omitted] •We suggest CNT/PBA/[HRP/PEI/GOx] catalyst as cathodic catalyst of GBFC.•Bienzyme structure consisting of GOx and HRP are used as the...
Glucose oxidase (GOx) and horseradish peroxidase (HRP) based bienzymes are entrapped in apolyethylenimine (PEI) matrix and then immobilized onto a substrate...
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StartPage 435
SubjectTerms Bienzyme
Biofuel cell
Glucose oxidase
Horseradish peroxidase
π–π stacking
화학공학
Title Glucose biofuel cells using the two-step reduction reaction of bienzyme structure as cathodic catalyst
URI https://dx.doi.org/10.1016/j.jiec.2018.11.056
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