Yongming Sun/孙永明

About Yongming Sun/孙永明

Yongming Sun/孙永明, With an exceptional h-index of 64 and a recent h-index of 56 (since 2020), a distinguished researcher at Huazhong University of Science and Technology, specializes in the field of Materials for Energy Storage and Conversion.

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

Integrated Dual‐Phase Ion Transport Design Within Electrode for Fast‐Charging Lithium‐Ion Batteries

Preserving the Li {110} Texture to Achieve Long Cycle Life in Li Metal Electrode at High Rates

Catalytic anode surface enabling in situ polymerization of gel polymer electrolyte for stable Li metal batteries

Suppressing dendritic metallic Li formation on graphite anode under battery fast charging

A Li3P nanoparticle dispersion strengthened ultrathin Li metal electrode for high energy density rechargeable batteries

Material–electrolyte interfacial interaction enabling the formation of an inorganic-rich solid electrolyte interphase for fast-charging Si-based lithium-ion batteries

Micrometer-scale single crystalline particles of niobium titanium oxide enabling an Ah-level pouch cell with superior fast-charging capability

A paradigm of calendaring‐driven electrode microstructure for balanced battery energy density and power density

Yongming Sun/孙永明 Information

University

Position

___

Citations(all)

21053

Citations(since 2020)

14823

Cited By

12541

hIndex(all)

64

hIndex(since 2020)

56

i10Index(all)

102

i10Index(since 2020)

99

Email

University Profile Page

Google Scholar

Yongming Sun/孙永明 Skills & Research Interests

Materials for Energy Storage and Conversion

Top articles of Yongming Sun/孙永明

Integrated Dual‐Phase Ion Transport Design Within Electrode for Fast‐Charging Lithium‐Ion Batteries

Advanced Functional Materials

2024/4/1

Preserving the Li {110} Texture to Achieve Long Cycle Life in Li Metal Electrode at High Rates

Advanced Functional Materials

2024/3

Catalytic anode surface enabling in situ polymerization of gel polymer electrolyte for stable Li metal batteries

Nano Research

2024/2/1

Suppressing dendritic metallic Li formation on graphite anode under battery fast charging

2024/1/18

A Li3P nanoparticle dispersion strengthened ultrathin Li metal electrode for high energy density rechargeable batteries

Nano Research

2024/1/2

Material–electrolyte interfacial interaction enabling the formation of an inorganic-rich solid electrolyte interphase for fast-charging Si-based lithium-ion batteries

Energy & Environmental Science

2024

Micrometer-scale single crystalline particles of niobium titanium oxide enabling an Ah-level pouch cell with superior fast-charging capability

Materials Horizons

2023

A paradigm of calendaring‐driven electrode microstructure for balanced battery energy density and power density

Advanced Energy Materials

2023/1

Heterogeneous Li-alloy interphase enabling Li compensation during cycling for high energy density batteries

Energy Storage Materials

2023/1/1

Locking active Li metal through localized redistribution of fluoride enabling stable Li‐metal batteries

Advanced Materials

2023/1

Stress‐Regulation Design of Lithium Alloy Electrode toward Stable Battery Cycling

Energy & Environmental Materials

2023/1

Fast-charging capability of graphite-based lithium-ion batteries enabled by Li3P-based crystalline solid–electrolyte interphase

Nature Energy

2023/12

Dynamic Concentration of Alloying Element on Anode Surface Enabling Cycle‐Stable Li Metal Batteries

Advanced Functional Materials

2023/12

Overlithiation-driven structural regulation of lithium nickel manganese oxide for high-performance battery cathode

Energy Storage Materials

2023/11/1

Tight binding and dual encapsulation enabled stable thick silicon/carbon anode with ultrahigh volumetric capacity for lithium storage

Small

2023/11

Hybrid polymer-alloy-fluoride interphase enabling fast ion transport kinetics for low-temperature lithium metal batteries

ACS nano

2023/9/28

Reaction-passivation mechanism driven materials separation for recycling of spent lithium-ion batteries

Nature Communications

2023/8/2

Probing Hybrid LiFePO4/FePO4 Phases in a Single Olive LiFePO4 Particle and Their Recovering from Degraded Electric Vehicle Batteries

Nano Letters

2023/7/21

Mitigating Concentration Polarization through Acid–Base Interaction Effects for Long-Cycling Lithium Metal Anodes

Nano Letters

2023/4/13

In situ formation of lif-rich carbon interphase on silicon particles for cycle-stable battery anodes

Transactions of Tianjin University

2023/4

See List of Professors in Yongming Sun/孙永明 University(Huazhong University of Science and Technology)

Co-Authors

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