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Yongsug Tak

Yongsug Tak

Inha University

H-index: 37

Asia-South Korea

About Yongsug Tak

Yongsug Tak, With an exceptional h-index of 37 and a recent h-index of 21 (since 2020), a distinguished researcher at Inha University, specializes in the field of electrochemical energy conversion, corrosion.

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

Unraveling the corrosion kinetics of gallium-aluminum for efficient hydrogen production from water at zero CO2 emission

Multi‐Ionic Capacity of Zn‐Al/V6O13 Systems Enable Fast‐Charging and Ultra‐Stable Aqueous Aluminium‐Ion Batteries

Ultrahigh Energy Density and Long-Life Cyclic Stability of Surface-Treated Aluminum-Ion Supercapacitors

Electrochemically Surface‐modified Aluminum Electrode Enabling High Performance and Ultra‐long Cycling Life Al‐ion Batteries

In situ polymerized solid electrolytes for superior safety and stability of flexible solid-state Al-ion batteries

All-Solid-State Al–Graphene Hybrid Supercapacitor

Tunable Synthesis of N,C-Codoped Ti3+-Enriched Titanium Oxide Support for Highly Durable PEMFC Cathode

Superior durability and stability of Pt electrocatalyst on N-doped graphene-TiO2 hybrid material for oxygen reduction reaction and polymer electrolyte membrane fuel cells

Yongsug Tak Information

University

Position

Dept of Chemical Engineering

Citations(all)

4269

Citations(since 2020)

1456

Cited By

3436

hIndex(all)

37

hIndex(since 2020)

21

i10Index(all)

68

i10Index(since 2020)

38

Email

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University Profile Page

Inha University

Google Scholar

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Yongsug Tak Skills & Research Interests

electrochemical energy conversion

corrosion

Top articles of Yongsug Tak

Title

Journal

Author(s)

Publication Date

Unraveling the corrosion kinetics of gallium-aluminum for efficient hydrogen production from water at zero CO2 emission

International Journal of Hydrogen Energy

Sujin Jang

Shrine Maria Nithya Jeghan

Eunbin Seon

Yongsug Tak

Minkyu Kim

...

2023/4/29

Multi‐Ionic Capacity of Zn‐Al/V6O13 Systems Enable Fast‐Charging and Ultra‐Stable Aqueous Aluminium‐Ion Batteries

ChemElectroChem

Jongmin Kim

Moonsu Kim

Thangavel Selvamani

Yongsug Tak

Gibaek Lee

2022/11/25

Ultrahigh Energy Density and Long-Life Cyclic Stability of Surface-Treated Aluminum-Ion Supercapacitors

ACS Applied Materials & Interfaces

Eunbin Seon

Sujin Jang

Michael Ruby Raj

Yongsug Tak

Gibaek Lee

2022/9/27

Electrochemically Surface‐modified Aluminum Electrode Enabling High Performance and Ultra‐long Cycling Life Al‐ion Batteries

Electroanalysis

Hyungho Go

Michael Ruby Raj

Yongsug Tak

Gibaek Lee

2022/8

In situ polymerized solid electrolytes for superior safety and stability of flexible solid-state Al-ion batteries

Energy Storage Materials

Isak Kim

Sujin Jang

Keun Hyung Lee

Yongsug Tak

Gibaek Lee

2021/9/1

All-Solid-State Al–Graphene Hybrid Supercapacitor

Electrochemical Society Meeting Abstracts prime2020

Yongsug Tak

Eunbin Seon

Isak Kim

2020/11/23

Tunable Synthesis of N,C-Codoped Ti3+-Enriched Titanium Oxide Support for Highly Durable PEMFC Cathode

ACS Catalysis

Eungjun Lee

Changmin Park

Dong Wook Lee

Gibaek Lee

Hee-Young Park

...

2020/8/28

Superior durability and stability of Pt electrocatalyst on N-doped graphene-TiO2 hybrid material for oxygen reduction reaction and polymer electrolyte membrane fuel cells

Applied Catalysis B: Environmental

Chanmi Park

Eungjun Lee

Gibaek Lee

Yongsug Tak

2020/7/5

Fast charging with high capacity for aluminum rechargeable batteries using organic additive in an ionic liquid electrolyte

Physical Chemistry Chemical Physics

Yeseul Park

Danbi Lee

Jongmin Kim

Gibaek Lee

Yongsug Tak

2020

See List of Professors in Yongsug Tak University(Inha University)