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Yuge Bai

About Yuge Bai

Yuge Bai, With an exceptional h-index of 6 and a recent h-index of 6 (since 2020), a distinguished researcher at Eberhard Karls Universität Tübingen, specializes in the field of Goemicrobiology, Biogeochemistry.

His recent articles reflect a diverse array of research interests and contributions to the field:

Networks of Dissolved Organic Matter and Organo-Mineral Associations Stimulate Electron Transfer over Centimeter Distances

Exogenous electroactive microbes regulate soil geochemical properties and microbial communities by enhancing the reduction and transformation of Fe (III) minerals

Natural organic matter (NOM) electron shuttling stimulates microbial Fe (III)-mineral reduction at centimeter-scales

Synthesis and degradation of polyphosphate: isotope effects in enzyme-and bacteria-catalyzed reactions

Electron hopping enables rapid electron transfer between quinone-/hydroquinone-containing organic molecules in microbial iron (III) mineral reduction

AQDS and redox-active NOM enables microbial Fe (III)-mineral reduction at cm-scales

High-pH and anoxic conditions during soil organic matter extraction increases its electron-exchange capacity and ability to stimulate microbial Fe (III) reduction by electron …

Yuge Bai Information

University

Position

Geomicrobiology

Citations(all)

176

Citations(since 2020)

168

Cited By

58

hIndex(all)

6

hIndex(since 2020)

6

i10Index(all)

6

i10Index(since 2020)

6

Email

University Profile Page

Google Scholar

Yuge Bai Skills & Research Interests

Goemicrobiology

Biogeochemistry

Top articles of Yuge Bai

Networks of Dissolved Organic Matter and Organo-Mineral Associations Stimulate Electron Transfer over Centimeter Distances

Environmental Science & Technology Letters

2023/5/22

Yuge Bai
Yuge Bai

H-Index: 5

Muammar Mansor
Muammar Mansor

H-Index: 5

Prachi Joshi
Prachi Joshi

H-Index: 6

Stefan Fischer
Stefan Fischer

H-Index: 8

Andreas Kappler
Andreas Kappler

H-Index: 58

Exogenous electroactive microbes regulate soil geochemical properties and microbial communities by enhancing the reduction and transformation of Fe (III) minerals

Environmental Science & Technology

2023/5/12

Xiaolin Zhang
Xiaolin Zhang

H-Index: 4

Yuge Bai
Yuge Bai

H-Index: 5

Tian Li
Tian Li

H-Index: 12

Natural organic matter (NOM) electron shuttling stimulates microbial Fe (III)-mineral reduction at centimeter-scales

2020/12/2

Yuge Bai
Yuge Bai

H-Index: 5

Synthesis and degradation of polyphosphate: isotope effects in enzyme-and bacteria-catalyzed reactions

ACS Earth and Space Chemistry

2020/11/25

Yuge Bai
Yuge Bai

H-Index: 5

Deb Jaisi
Deb Jaisi

H-Index: 27

Electron hopping enables rapid electron transfer between quinone-/hydroquinone-containing organic molecules in microbial iron (III) mineral reduction

Environmental Science & Technology

2020/7/27

Yuge Bai
Yuge Bai

H-Index: 5

Largus T Angenent
Largus T Angenent

H-Index: 58

Andreas Kappler
Andreas Kappler

H-Index: 58

AQDS and redox-active NOM enables microbial Fe (III)-mineral reduction at cm-scales

Environmental Science & Technology

2020/2/28

Yuge Bai
Yuge Bai

H-Index: 5

Adrian Mellage
Adrian Mellage

H-Index: 5

Largus T Angenent
Largus T Angenent

H-Index: 58

Andreas Kappler
Andreas Kappler

H-Index: 58

High-pH and anoxic conditions during soil organic matter extraction increases its electron-exchange capacity and ability to stimulate microbial Fe (III) reduction by electron …

Biogeosciences

2020/2/10

Yuge Bai
Yuge Bai

H-Index: 5

Andreas Kappler
Andreas Kappler

H-Index: 58

See List of Professors in Yuge Bai University(Eberhard Karls Universität Tübingen)