Welcome to the 2025 ICTEES
It is our pleasure to welcome you to the 2025 International Conference on Transport Electrification and Energy Storage (ICTEES) at the University of Leicester, UK, from 18-21 September 2025. This conference serves as a premier global platform for thought leaders, researchers, and industry pioneers to shape the future of transport electrification and energy storage technologies.
We are at a pivotal moment in history, where the convergence of sustainable mobility, intelligent energy storage, and next-generation power electronics is revolutionizing the way we move and power our world. The rapid advancements in solid-state and lithium-sulfur batteries, ultra-fast and wireless charging, hydrogen fuel cells, SiC & GaN power electronics, and AI-driven onboard energy management systems are reshaping transportation, making it more efficient, intelligent, and resilient.
But technology alone is not enough. Collaboration across disciplines, industries, and policymaking is essential to unlock the full potential of transport electrification and energy storage. ICTEES is committed to fostering an environment where groundbreaking ideas are exchanged, innovative solutions are showcased, and meaningful partnerships are forged.
* Cutting-Edge Research & Innovation: Engage with the latest breakthroughs in vehicle-to-grid (V2G) integration, energy storage systems, and smart charging infrastructure.
* Interdisciplinary Collaboration: Connect with academics, industry leaders, and policymakers who are driving the global shift towards sustainable mobility.
* Renowned Keynote Speakers: Gain insights from leading experts in power electronics, electric vehicles, and energy storage.
* Industry & Policy Impact: Explore the role of regulatory frameworks, public-private partnerships, and sustainability policies in shaping the future of transport electrification.
We invite academic researchers, postgraduate students, engineers and practitioners, policymakers and technical leaders to join us at the 2025 ICTEES, by making contribution to keynote speeches, technical sessions, oral or poster presentations, and by sharing their expertise and insights on site or over the online platforms. This is more than a conference - it is a collective movement toward a cleaner, more sustainable, and technologically advanced future.
Your participation will help accelerate innovation, drive policy changes, and build a global community committed to transforming transport and energy storage. The future is being built today - please get involved and be a key part to of it. Let's electrify the future together.
We look forward to meeting you at the 2025 ICTEES.
Prof. Bing Ji
On Behalf of the 2025 ICTEES Organizing Committee
University of Leicester, United Kingdom
Abstract Submission Deadline: 16 June, 2025
Manuscript Submission Deadline:17July, 2025
Final Paper Submission: 17 August, 2025
Early-Bird Registration Deadline: 1August, 2025
Registration Deadline: 17 September, 2025
——Speakers——
Jun Liang Ivana Kovacevic-Badstuebner Thomas Wu
IEEE Fellow, Cardiff University, UK ETHZ, Switzerland Guangxi University, China
——Call for papers——
We invite high-quality research papers, case studies, and technical innovations on the following topics, but not limited to:
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Transport Electrification & Propulsion |
Energy Storage Technologies & Systems |
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Hybrid electric vehicles (HEVs), plug-in hybrid electric vehicles (PHEVs), electric vehicles (EVs), and range-extended EVs |
Electrochemical, chemical, mechanical, electrical, and thermal energy storage technologies |
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Electrification of heavy-duty, off-road, and defense vehicles |
Battery management systems (BMS), state-of-health (SoH), and state-of-charge (SoC) optimization |
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Powertrain electrification for trains, rail, marine, aerospace, and space applications |
Next-generation batteries: lithium-ion, solid-state, sodium-ion, and hybrid chemistries |
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Advanced vehicular power electronics, traction inverters, and motor drives |
Fuel cells and hybrid storage applications in transportation |
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AI-driven control of propulsion and vehicle energy management |
Energy storage for grid-scale applications, off-grid systems, and portable electronics |
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High-efficiency traction motors and their manufacturing techniques dings and smart grids |
Multi-purpose storage integration with buildings and smart grids |
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Component reliability, thermal management, and packaging for power electronics |
Recycling, reuse, and second-life applications of batteries |
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Charging Infrastructure, Grid Integration & Connectivity |
Sustainability, Manufacturing, and Policy Frameworks |
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On-board and off-board charging, fast charging, and opportunity charging |
Environmental impact assessment and emissions reduction strategies |
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Inductive and dynamic wireless charging in roadways |
Standardization of transport electrification and grid interface protocols |
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Vehicle-to-grid (V2G), vehicle-to-home (V2H), and vehicle-to-infrastructure (V2I) technologies |
Source-to-wheel (STW) energy analysis and life cycle assessment |
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Smart charging, demand response, and grid flexibility solutions |
Government policies, incentives, and market trends in EV adoption |
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Cybersecurity and data-driven energy management in transport and flexible power plants |
Interoperability of energy storage with renewables and flexible power plants |
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Large-scale distributed storage management and energy dispatch |
Lessons learned from real-world EV and grid integration pilot projects |
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Advanced manufacturing technologies for batteries, power electronics, and electric drivetrains |
Supply chain challenges and opportunities for sustainable electrification |
——Organization——
