Professor

Nguyễn Phi Long

Affiliation: VinUniversity, Hanoi, Viet Nam

Center for Environmental Intelligence

Introduction

Nguyen Phi Long is an interdisciplinary researcher specializing in sustainable energy systems, advanced battery energy storage, and smart electric vehicle (EV) charging infrastructures. He received his Ph.D. in Plasma Science and Applied Physics from Kanazawa University, Japan, following an M.Sc. and B.Sc. in Electrical Engineering from Hanoi University of Science and Technology. He was a Postdoctoral Fellow at the Applied Laser Technology Institute, Japan Atomic Energy Agency, where he developed strong expertise in high-power laser technologies before transitioning to green energy and e-mobility research. He has extensive experience working with the Ministry of Science and Technology of Vietnam (MOST), Vietnam Electricity (EVN), and Viettel Group, where he has been involved in research, development, and deployment of high-tech products and advanced engineering solutions. His current work focuses on modeling and optimizing smart EV charging networks integrated with renewable energy sources and battery energy storage systems, applying game theory and AI-based optimization to improve cost efficiency and operational performance. He is currently a Research Fellow at VinUniversity and a Lecturer at Hanoi University of Industry. He is also a Member of the Institute of Electrical and Electronics Engineers (IEEE).

Affiliation: VinUniversity, Hanoi, Viet Nam

Research Output

Deciphering energy storage mechanisms and pore structure effects in sugarcane bagasse-derived biomass carbon for lithium – ion batteries and supercapacitors

Nguyen Quynh Nhu, Nguyen Nghia Trong, Vuong Thuy Trang T., La Viet-Duy, Phung Thi Viet Bac, Nguyen Nhat Van, Vu Phat Tan, Nguyen Hoang Van, Le Phung My Loan, Nguyen Phi Long
  • Biomass
  • Energy storage
  • Pore structure
  • Pseudo-capacitive
  • Sugarcane bagasse

Co-doping aluminum and boron enhances the stability and electrochemical properties of nickel-rich cathode materials for lithium-ion batteries

To Van Nguyen, Duy Nguyen Vo Anh, Hieu Nguyen Hoang, Ngo Quy Quyen, Son Luong Trung, Ngo Thi Lan, Zulueta Yohandys A., Nguyen Minh Tho, Nguyen An-Giang, Nguyen Phi Long, Park Chan-Jin, ...

High-temperature behavior at 100 ℃ of nanoporous copper-metal-organic framework for strong duration symmetrical solid-state supercapacitors

Le Phuoc-Anh, Van Le Hoang, Tran ThiNhan, Vuong ThuyTrangT., La Viet Duy, Vu Van-Hao, Nguyen-Dang Tung, Nguyen PhiLong, Phung ThiVietBac
  • CuBDC
  • CuBTC
  • Energy storage
  • Gel polymer electrolyte
  • Metal organic frameworks
  • Supercapacitors

Enhanced sodium-ion intercalation and migration in boron/carbon-doped WS2/graphene bilayers: insights from electronic structure calculations

Tran Thi Nhan, Son Nguyen Hoang, Hieu Nguyen Minh, Nguyen Thuy Trang, Kawazoe Yoshiyuki, Duc Luong Huu, Dang Minh Triet, Nguyen Phi Long, Phung Thi Viet Bac

Strategic EV Charging Optimization Using Stackelberg and Non-Cooperative Game Models for Cost Efficiency and Profit Maximization with Renewable Energy and Battery Storage

  • Battery energy storage system
  • Electric vehicle
  • Non-cooperative game theory
  • Photovoltaic
  • Small wind turbine
  • Stackelberg game

Investigation of Structural and Electrochemical Modulation in NaFe0.5Co0.5O2Cathode Material via Zn Substitution for Fe

Nguyen Hoang Van, Tran Thi Nhan, Nguyen Minh Le, Nguyen Quynh Nhu, Tran Van Man, Le Phung M-L., Nguyen An-Giang, Nguyen Phi Long, Phung Viet-Bac Thi
  • cathode materials
  • O3-type layered structure
  • performance
  • sodium-ion batteries
  • sol–gel process
  • zinc doping

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Keyphrases

  • Biomass
  • Energy storage
  • Pore structure
  • Pseudo-capacitive
  • Sugarcane bagasse
  • Charcoal
  • Methylene blue
  • Redox electrolyte
  • Supercapacitors
  • CuBDC
  • CuBTC
  • Gel polymer electrolyte
  • Metal organic frameworks
  • Chemistry
  • Energy engineering
  • Materials science
  • Battery energy storage system
  • Electric vehicle
  • Non-cooperative game theory
  • Photovoltaic
  • Small wind turbine
  • Stackelberg game
  • Chemical Engineering
  • Environmental engineering
  • Water geochemistry
  • Water resources engineering
  • cathode materials
  • O3-type layered structure
  • performance
  • sodium-ion batteries
  • sol–gel process
  • zinc doping
  • ammonia
  • co-adsorption
  • DFT calculations
  • graphene/hexagonal boron nitride heterostructures
  • water
  • density functional theory
  • DFT
  • machine learning
  • materials informatics
  • metal-organic frameworks
  • MOFs
  • neural network model

Computer Science

  • Forestry