BEST Lab

The latest publications can be accessed on Google Scholar Citations.

Total Citations: 12,088 (Nov 2024)

 

Journals

A yarn-ball-shaped graphene microsphere-coated separator design for enhanced electrochemical performance in Li-S batteries

TAN Bui, YS Su

Journal of Power Sources 627, 235828

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2024

Advanced Li–S Battery Configuration Featuring Sulfur‐Coated Separator and Interwoven rGO/CNT Fabric Current Collector

KC Chiu, AL Bhat, CK Yang, SH Chung, N Tumilty, YS Su*

Small, 2405365

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Green Synthesis of Graphene Flake/Silicon Composite Anode for Lithium-Ion Batteries Using a Ball-Mill-Derived Mechanical Transfer Technique

YZ Liang, AL Bhat, YS Su*

ACS Applied Energy Materials

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High-Power Battery Electrodes Fabricated by Acupuncture-Inspired Microneedle Processing

CY Kang, LY Lin, T Nguyen, CC Chen, JK Chang, TE Lin, YS Su*

ACS Applied Materials & Interfaces

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Small‐Molecule Polycyclic Aromatic Hydrocarbons as Exceptional Long‐Cycle‐Life Li‐Ion Battery Anode Materials

A Arya, SL Hsu, CY Liu, MY Chang, JK Chang, EYT Li, YS Su*

Small Structures, 2400273

 

Dual-Salt aqueous electrolyte for enhancing Charge-Storage properties of VO2 polymorphic cathodes for Zn-Ion batteries

JH Huang, XF Luo, TY Kuo, YH Lai, PC Rath, CW Huang, MH Lin, AY Hou, J Li, YS Su, ...

Chemical Engineering Journal 497, 154609

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Binder-Dependent Electrochemical Properties of High Entropy Oxide Anodes for Lithium-Ion Batteries

J Patra, TX Nguyen, A Panda, SB Majumder, CC Yang, TY Wu, YS Su*, ...

Electrochimica Acta, 144653

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Coral-shaped AlSi anode materials for Li-ion batteries enabled by THF-based electrolyte

KC Chang, TAN Bui, R Niu, YS Chen, YS Su*

Journal of Energy Storage 96, 112597

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Engineering of Aromatic Naphthalene and Solvent Molecules to Optimize Chemical Prelithiation for Lithium‐Ion Batteries

J Patra, SX Lu, JC Kao, BR Yu, YT Chen, YS Su, TY Wu, D Bresser, ...

Advanced Science, 2309155

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A Zero-Power Harmonic Tag for Real-Time Wireless Food Quality Monitoring

Y Ren, N Wu, KC Chang, YS Su, PY Chen

IEEE Sensors Letters

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Tailoring the Size of Reduced Graphene Oxide Sheets to Fabricate Silicon Composite Anodes for Lithium-Ion Batteries

YZ Liang, TY Hsu, YS Su*

ACS Applied Materials & Interfaces

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A self-assembled carbon nanotube/silicon composite battery anode stabilized with chemically reduced graphene oxide sheets

T Nguyen, YS Su*

Materials & Design, 112861

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Engineering a lithium silicate-based artificial solid electrolyte interphase for enhanced rechargeable lithium metal batteries

YS Chen, JK Chang, YS Su*

Surface and Coatings Technology, 130617

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Advancing Li-ion capacitors through dual wet chemical prelithiation

KL Lai, LY Gao, JK Chang, YS Su*

Journal of Colloid and Interface Science

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Investigating Operating Protocols to Extend the Lifespan of Silicon Anodes in Li-ion Batteries

AL Bhat, JK Chang, YS Su*

Electrochimica Acta, 143948

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Enhancing the performance of metallic lithium anode in batteries through water-resistant and air-stable coating

YS Chen, WH Chang, TY Kuo, JK Chang, YS Su*

Journal of Energy Storage 82, 110532

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Before 2024​

Recent Configurational Advances for Solid-State Lithium Batteries Featuring Conversion-Type Cathodes

KC Chiu, JK Chang, YS Su*

Molecules 28 (12), 4579

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Economical Silicon Nanowire Growth via Cooling Controlled Solid–Liquid–Solid Mechanism

T Nguyen, CH Hsu, DH Lien, YS Su*

Advanced Materials Interfaces 10 (6), 2202247

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Binder-controlled pore size distribution of carbon electrodes to mitigate self-discharge of supercapacitors

CC Chen, J Patra, FM Wang, JY Lin, QF Dong, YS Su*, JK Chang*

Carbon

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Phase Control of Lithium Silicates for Process‐Friendly Prelithiated SiO Anode Materials

A Bhat, P Sireesha, YS Chen, YS Su*

ChemElectroChem 9 (19), e202200772

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Tape-cast Ce-substituted Li7La3Zr2O12 Electrolyte for Improving Electrochemical Performance of Solid-State Lithium Batteries

PC Rath, YS Jheng, CC Chen, CL Tsai, YS Su, CC Yang, RA Eichel, ...

Journal of Materials Chemistry A 10, 22512-22522

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Smart Manufacturing Processes of Low-Tortuous Structures for High-Rate Electrochemical Energy Storage Devices

CY Kang, YS Su*

Micromachines 13 (9), 1534

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Polycyclic Aromatic Hydrocarbon-Enabled Wet Chemical Prelithiation and Presodiation for Batteries

YS Su*, JK Chang

Batteries 8 (8), 99

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Lithium Battery Model and Its Application to Parallel Charging

YT Shieh, CC Wu, CY Liu, WH Chieng, YS Su, SL Jeng, EY Chang

Energies 15 (13), 4767

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Lithium Silicates in Anode Materials for Li-Ion and Li Metal Batteries

YS Su*, KC Hsiao, P Sireesha, JY Huang

Batteries 8 (1), 2

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Graphene-Enhanced Battery Components in Rechargeable Lithium-Ion and Lithium Metal Batteries

HH Chang, TH Ho, YS Su*

C 7 (3), 65

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Development and Future Prospects of 3D Batteries
YS Su*

Journal of Taiwan Vacuum Society 34 (2), 29-37

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Sulfur/lithium-insertion compound composite cathodes for Li–S batteries

YS Su, A Manthiram

Journal of Power Sources 270, 101-105

 

Rechargeable lithium–sulfur batteries

A Manthiram, Y Fu, SH Chung, C Zu, YS Su

Chemical reviews 114 (23), 11751-11787

 

Li2S‐Carbon Sandwiched Electrodes with Superior Performance for Lithium‐Sulfur Batteries

Y Fu, YS Su, A Manthiram

Advanced Energy Materials 4 (1), 1300655

 

A strategic approach to recharging lithium-sulphur batteries for long cycle life

YS Su, Y Fu, T Cochell, A Manthiram

Nature communications 4 (1), 1-8

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Highly reversible lithium/dissolved polysulfide batteries with carbon nanotube electrodes

Y Fu, YS Su, A Manthiram

Angewandte Chemie International Edition 52 (27), 6930-6935

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Fast, Reversible Lithium Storage with a Sulfur/Long‐Chain‐Polysulfide Redox Couple

YS Su, Y Fu, B Guo, S Dai, A Manthiram

Chemistry–A European Journal 19 (26), 8621-8626

 

Challenges and prospects of lithium–sulfur batteries

A Manthiram, Y Fu, YS Su

Accounts of chemical research 46 (5), 1125-1134

 

In charge of the world: electrochemical energy storage

A Manthiram, Y Fu, YS Su

The journal of physical chemistry letters 4 (8), 1295-1297

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Improved lithium–sulfur cells with a treated carbon paper interlayer

C Zu, YS Su, Y Fu, A Manthiram

Physical chemistry chemical physics 15 (7), 2291-2297

 

Sulfur–carbon nanocomposite cathodes improved by an amphiphilic block copolymer for high-rate lithium–sulfur batteries

Y Fu, YS Su, A Manthiram

ACS applied materials & interfaces 4 (11), 6046-6052

 

Lithium–sulphur batteries with a microporous carbon paper as a bifunctional interlayer

YS Su, A Manthiram

Nature communications 3 (1), 1-6

 

Sulfur-polypyrrole composite cathodes for lithium-sulfur batteries

Y Fu, YS Su, A Manthiram

Journal of the Electrochemical Society 159 (9), A1420

 

A Facile In Situ Sulfur Deposition Route to Obtain Carbon-Wrapped Sulfur Composite Cathodes for Lithium-Sulfur Batteries

YS Su, A Manthiram

Electrochimica Acta

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Self-weaving Sulfur-Carbon Composite Cathodes for High Rate Lithium-Sulfur Batteries

YS Su, Y Fu, A Manthiram

Physical Chemistry Chemical Physics

 

A New Approach to Improve Cycle Performance of Rechargeable Lithium-Sulfur Batteries by Inserting a Free-Standing MWCNT Interlayer

YS Su, A Manthiram

Chemical Communications

 

Low-fire Processing of Microwave BaTi4O9 Dielectric with BaO–Li2O–B2O3–SiO2–ZnO Glass

YS Su, JH Jean

Japanese Journal of Applied Physics 47 (9R), 7254

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Meeting Abstracts

Small Molecule Aromatic Hydrocarbons: Powering Ultralong Cycle Life in Li-Ion Battery Anodes and Dual Chemical Prelithiation for Li-Ion Capacitors

YS Su, A Arya, KL Lai

PRiME 2024 (October 6-11, 2024)

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Lithium Silicates as an Artificial SEI for Rechargeable Lithium Metal Batteries

YS Chen, YS Su

Electrochemical Society Meeting Abstracts 244, 680-680

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Rechargeable Lithium-Sulfur Batteries With Binder-Free Carbon Nanotube Electrodes

Y Fu, YS Su, A Manthiram

The Electrochemical Society Meeting Abstracts, 375-375

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Lithium-Sulfur Batteries with Porous Carbon Interlayer Configurations

A Manthiram, YS Su

The Electrochemical Society Meeting Abstracts, 525-525

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Large Self-Weaving Sulfur-MWCNT Composite Cathodes for High Rate Lithium-Sulfur Batteries

YS Su, A Manthiram

The Electrochemical Society Meeting Abstracts, 781-781

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Patents

Lithium battery anode containing silicon nanowires formed in situ in pores of graphene foam

YS Su, J Yin, A Zhamu, BZ Jang

US Patent 11,437,625

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Graphene-infiltrated porous anode active material particles for rechargeable lithium batteries

K Mishra, SH Chai, A Zhamu, YS Su, BZ Jang

US Patent App. 17/005,915

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Graphene-enabled battery fast-charging and cooling system and method of operating same

A Zhamu, YS Su, BZ Jang

US Patent App. 16/837,569

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Graphene Foam-Protected Phosphorus Material for Lithium-Ion or Sodium-Ion Batteries

A Zhamu, YS Su, BZ Jang

US Patent App. 16/677,126

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Graphene-Encapsulated Graphene-Supported Phosphorus-Based Anode Active Material for Lithium-Ion or Sodium-ion Batteries

A Zhamu, YS Su, BZ Jang

US Patent App. 16/673,594

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Electrochemically Stable Anode Active Material for Lithium-ion Batteries and Production Method

YP Lin, YC Yen, YS Su, BZ Jang

US Patent App. 16/538,253

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Battery fast-charging system and method of operating same

Y Su, Y Chen, H Chang, BZ Jang

US Patent App. 16/519,891

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Battery fast-charging and cooling system and method of operating same

Y Su, H Chang, Y Chen, BZ Jang

US Patent App. 16/521,045

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Temperature-regulated battery system and method of operating same

HH Chang, YM Chen, YS Su, BZ Jang

US Patent App. 16/515,652

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Fast-charging battery and method of operating same

YM Chen, HH Chang, YS Su, BZ Jang

US Patent App. 16/513,090

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Prelithiated anode active material particles for lithium-ion batteries and production method

YP Lin, YS Su, BZ Jang

US Patent App. 16/505,021

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Graphene-encapsulated graphite-supported anode active material for lithium-ion batteries

A Zhamu, YS Su, BZ Jang

US Patent App. 16/364,220

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Method of producing graphene-encapsulated graphite-supported anode active material for lithium-ion batteries

A Zhamu, YS Su, BZ Jang

US Patent App. 16/364,218

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Graphene/silicon nanowire hybrid material for a lithium-ion battery

A Zhamu, YS Su, J Yin, BZ Jang

US Patent App. 16/246,896

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Process for producing graphene/silicon nanowire hybrid material for a lithium-ion battery

A Zhamu, Y Su, J Yin, BZ Jang

US Patent App. 16/246,868

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Aluminum secondary battery having a high-capacity and high-rate capable cathode and manufacturing method

YS Su, A Zhamu, H He, PAN Baofei, BZ Jang

US Patent 10,629,948

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Method of producing multi-level graphene-protected cathode active material particles for battery applications

A Zhamu, J Yin, JH Yang, YS Su, BZ Jang

US Patent 10,559,815

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Graphitic carbon-based cathode for aluminum secondary battery and manufacturing method

YS Su, A Zhamu, H He, PAN Baofei, BZ Jang

US Patent 10,553,873

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Flexible and shape-conformal rope-shape alkali metal batteries

A Zhamu, H He, PAN Baofei, YS Su, BZ Jang

US Patent 10,535,880

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Multi-level graphene-protected battery cathode active material particles

A Zhamu, HH Chang, YS Su, BZ Jang

US Patent App. 15/996,167

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Method of improving fire-resistance of a lithium battery

H He, YS Su, A Zhamu, BZ Jang

US Patent App. 15/991,585

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Method of Producing Multi-Level Graphene-Protected Anode Active Material Particles for Battery Applications

A Zhamu, J Yin, JH Yang, YS Su, BZ Jang

US Patent App. 15/996,156

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Fire-resistant lithium battery containing an electrode-protecting layer

H He, YS Su, A Zhamu, BZ Jang

US Patent App. 15/991,577

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Multi-Level Graphene-Protected Anode Active Material Particles for Battery Applications

A Zhamu, J Yin, JH Yang, YS Su, BZ Jang

US Patent App. 15/996,144

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Flexible and shape-conformal cable-type alkali metal batteries

A Zhamu, H He, PAN Baofei, YS Su, BZ Jang

US Patent 10,418,662

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Flexible and shape-conformal cable-shape alkali metal-sulfur batteries

A Zhamu, H He, PAN Baofei, YS Su, BZ Jang

US Patent 10,158,121

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Aluminum secondary battery cathode having oriented graphene

YS Su, A Zhamu, H He, PAN Baofei, BZ Jang

US Patent 10,122,020

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Lithium Secondary Battery Containing Non-flammable Electrolyte and Manufacturing Method

PAN Baofei, H He, YS Su, A Zhamu, BZ Jang

US Patent 10,903,519

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Lithium Ion Battery Anode Containing Silicon Nanowires Grown in situ in Pores of Graphene Foam and Production Process

YS Su, J Yin, A Zhamu, BZ Jang

US Patent App. 15/975,181

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Process for Flexible and Shape-Conformal Cable-Shape Alkali Metal-Sulfur Batteries

A Zhamu, H He, PAN Baofei, YS Su, BZ Jang

US Patent App. 15/391,379

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Process for Flexible and Shape-Conformal Rope-Shape Alkali Metal-Sulfur Batteries

A Zhamu, H He, PAN Baofei, YS Su, BZ Jang

US Patent App. 15/392,224

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Process for producing flexible and shape-conformal rope-shape alkali metal batteries

A Zhamu, H He, PAN Baofei, YS Su, BZ Jang

US Patent 10,008,747

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Process for Producing Flexible and Shape-Conformal Cable-Type Alkali Metal Batteries

A Zhamu, H He, PAN Baofei, YS Su, BZ Jang

US Patent App. 15/384,781

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Lithium ion battery anode containing silicon nanowires grown in situ in pores of graphene foam and production process

YS Su, J Yin, Q Fang, A Zhamu, BZ Jang

US Patent 9,997,784

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Battery Having a Low Output Voltage

YS Su, M Li, H He, Q Fang, A Zhamu, BZ Jang

US Patent App. 17/122,499

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Flexible and shape-conformal rope-shape alkali metal-sulfur batteries

A Zhamu, H He, PAN Baofei, YS Su, BZ Jang

US Patent 9,905,856

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Porous carbon interlayer for lithium-sulfur battery

A Manthiram, YS Su

US Patent 9,246,149

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Binder-free sulfur—carbon nanotube composite cathodes for rechargeable lithium—sulfur batteries and methods of making the same

A Manthiram, YS Su

US Patent 8,974,960

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Sulfur-carbon composite cathodes for rechargeable lithium-sulfur batteries and methods of making the same

A Manthiram, YS Su

US Patent App. 13/335,486

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