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Thomas Burger

About Thomas Burger

Thomas Burger, With an exceptional h-index of 6 and a recent h-index of 6 (since 2020), a distinguished researcher at Technische Universität München, specializes in the field of heterogeneous catalysis.

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

Effect of Solvent Ratio (Ethylene Glycol/Water) in the Synthesis of Pt/C Cathode Catalysts on PEM Fuel Cell Performance

Alkaline Water-Assisted Polyol Synthesis of Pt/Vulcan PEMFC Cathode Electrocatalysts

Accelerated Stress Test Study on PtRu Anode Catalysts for Reformate PEM Fuel Cells

Manganese-doped nickel-methanation catalysts

COx Methanation over Ni-Al-Based Catalysts: Development of CO2 Methanation Catalysts and Kinetic Modeling

Enhanced activity of co-precipitated NiFeAlOx in CO2 methanation by segregation and oxidation of Fe

Sequential immobilization of ansa-hafnocene complexes for propene polymerization

Targeted Fe‐Doping of Ni−Al Catalysts via the Surface Redox Reaction Technique for Unravelling its Promoter Effect in the CO2 Methanation Reaction

Thomas Burger Information

University

Position

___

Citations(all)

235

Citations(since 2020)

228

Cited By

107

hIndex(all)

6

hIndex(since 2020)

6

i10Index(all)

6

i10Index(since 2020)

6

Email

University Profile Page

Google Scholar

Thomas Burger Skills & Research Interests

heterogeneous catalysis

Top articles of Thomas Burger

Effect of Solvent Ratio (Ethylene Glycol/Water) in the Synthesis of Pt/C Cathode Catalysts on PEM Fuel Cell Performance

Journal of The Electrochemical Society

2024/4/22

Thomas Burger
Thomas Burger

H-Index: 4

Alkaline Water-Assisted Polyol Synthesis of Pt/Vulcan PEMFC Cathode Electrocatalysts

Electrochemical Society Meeting Abstracts 243

2023/8/28

Thomas Burger
Thomas Burger

H-Index: 4

Accelerated Stress Test Study on PtRu Anode Catalysts for Reformate PEM Fuel Cells

Electrochemical Society Meeting Abstracts 243

2023/8/28

Thomas Burger
Thomas Burger

H-Index: 4

Manganese-doped nickel-methanation catalysts

2021/1/12

COx Methanation over Ni-Al-Based Catalysts: Development of CO2 Methanation Catalysts and Kinetic Modeling

2021

Thomas Burger
Thomas Burger

H-Index: 4

Enhanced activity of co-precipitated NiFeAlOx in CO2 methanation by segregation and oxidation of Fe

Applied Catalysis A: General

2020/8/25

Thomas Burger
Thomas Burger

H-Index: 4

Olaf Hinrichsen
Olaf Hinrichsen

H-Index: 29

Sequential immobilization of ansa-hafnocene complexes for propene polymerization

Journal of Organometallic Chemistry

2020/3/1

Sebastian Günther
Sebastian Günther

H-Index: 9

Thomas Burger
Thomas Burger

H-Index: 4

Targeted Fe‐Doping of Ni−Al Catalysts via the Surface Redox Reaction Technique for Unravelling its Promoter Effect in the CO2 Methanation Reaction

ChemCatChem

2020/1/18

Thomas Burger
Thomas Burger

H-Index: 4

Olaf Hinrichsen
Olaf Hinrichsen

H-Index: 29

See List of Professors in Thomas Burger University(Technische Universität München)