Conference | Thailand Energy Storage

*A board meeting of the Asian Society for Solid State Ionics (ASSSI) will be held in conjunction with this event.

🖋️ Publication :

Option to publish your work in the Proceeding of Power-to-X for a Sustainable Future Workshop 2025 (peer-reviewed & published online with ISBN)

Power-to-X for a Sustainable Future Workshop 2025

📆 Date : 14-16 September 2025

📌 Location : Montien Hotel Surawong Bangkok, Thailand

🖋️ Registration :

31 Aug 2025

Abstracts submission ends

31 Aug.2025

Early Registration ends

Standard Registration ends

14 Sep. 2025

Registration and badge collection

The global shift toward carbon neutrality calls for transformative technologies that bridge renewable energy generation with sustainable production and storage. The "Power-to-X for a Sustainable Future" workshop will bring together global experts and emerging leaders to explore cutting-edge P2X technologies that drive innovation across the energy, materials, and chemical sectors.

10 Sep. 2025

15-16 Sep. 2025

Workshop event

31 July 2025

Super Early Registration end

General/Student Prices

6,000 THB

Student Prices

6,000 THB

General Prices

7,000 THB

Student Prices

6,000 THB

General Prices

8,000 THB

Submit Abstract

Abstract Template

Workshop Overview

The Power-to-X (P2X) for a Sustainable Future Workshop will bring together researchers, engineers, and innovators to explore the transformative role of P2X technologies in enabling decarbonized, circular energy systems. P2X processes leverage renewable electricity, sunlight, and heat to convert abundant feedstocks—such as water, carbon dioxide, nitrogen, and biomass—into fuels, chemicals, and energy storage media. This interdisciplinary event will feature cutting-edge advances in materials science, electrochemistry, system integration, and digital tools driving the next generation of sustainable production platforms.

Scientific Tracks

Track 1: Materials for Power-to-X

Discovery, characterization, and design of catalytic materials

Overview

This theme covers the development and mechanistic understanding of advanced materials that drive key Power-to-X reactions. Topics span inorganic, organic, and hybrid materials designed for photo-, electro-, and photoelectrochemical conversion processes.

Key areas

🔹Electrocatalysts and photocatalysts for water splitting, CO₂ and N₂ conversion

🔹doping, nanostructuring, and interface engineering

🔹Stability, selectivity, and turnover optimization

🔹High-throughput and AI-assisted materials discovery

🔹Operando spectroscopy and structure–property relationships

🔹Recycled materials for energy applications

Track 2: Batteries and Electrochemical Energy Storage

Storage technologies enabling sector coupling and grid flexibility

Overview

This track focuses on rechargeable batteries and other electrochemical storage technologies that enable the integration of intermittent renewables with downstream X processes. It includes both fundamental and applied aspects of next-generation battery development.

Key areas

🔹Electrocatalysts and photocatalysts for water splitting, CO₂ and N₂ conversion

🔹Heteroatom doping, nanostructuring, and interface engineering

🔹Stability, selectivity, and turnover optimization

🔹High-throughput and AI-assisted materials discovery

🔹Electrolyte engineering

Track 3: Power-to-Fuels

Synthetic fuel production through electrified and solar-driven pathways

Overview

This theme explores research focused on the generation of storable, energy-dense fuels using renewable electricity and abundant feedstocks. Emphasis is placed on improving energy efficiency, product selectivity, and long-term stability of integrated systems.

Key areas

🔹Hydrogen and ammonia synthesis from water and nitrogen

🔹CO₂ reduction to hydrocarbons, methanol, or syngas

🔹Photoelectrochemical and thermochemical fuel production

🔹Tandem or cascade reaction systems

🔹Techno-economic analysis and deployment case studies

Track 4: Power-to-Chemicals and Organic Synthesis

Electrified and catalytic routes to value-added chemicals

Overview

This track highlights the use of renewable electricity to drive the selective synthesis of high-value chemicals and intermediates. It bridges electrosynthesis, organic catalysis, and reactor design for sustainable chemical manufacturing.

Key areas

🔹Electrocatalytic C–C and C–N bond formation

🔹Selective CO₂ and biomass valorization

🔹Paired electrolysis and co-product engineering

🔹Flow chemistry and reactor design for scale-up

🔹Waste-to-value, biomass upgrading