Overview
The International Conference on Energy Materials Costa Rica (ICEMCR 2026) is a premier scientific meeting convening leading researchers, early-career scientists, and industry professionals to address the grand challenges in energy materials and sustainable technologies. Hosted in Costa Rica, a global leader in renewable energy, the conference provides a unique platform for interdisciplinary exchange and international collaboration.
Themes and Topics
Organic, inorganic, and hybrid photovoltaics
Computational and theoretical materials science
Machine learning and autonomous materials discovery
Nanomaterials and quantum materials
Circular economy, green chemistry, and sustainable device manufacturing
Data management, reproducibility, and open science
International research infrastructure and collaboration
Aims and Objectives
Advance the frontiers of energy materials research
Foster critical debate and intellectual risk-taking
Bridge computational and experimental approaches
Promote sustainable practices and reproducibility
Build international networks, with a focus on Latin America and the Global South
Who Should Attend
Academic researchers and group leaders in photovoltaics, energy materials, and computational chemistry
Early-career scientists, PhD students, and postdoctoral researchers
Industry professionals in solar energy and sustainable materials
Computational scientists and data specialists
Policy makers and research infrastructure leaders
Registration Details
ICEMCR 2026 is primarily an invited conference with limited capacity. Interested researchers may contact the organizers via the official website for registration inquiries. Details on fees, accommodation, and travel support are provided at https://www.icemcr.com.
Programme Structure
8 thematic sessions across 3 days
Perspective Talks (15 min): Short, provocative presentations framing key questions
Moderated Debates (30 min): Structured arguments on controversial topics with audience participation
Panel Discussions: Deep dives on complex, cross-cutting issues
The International Conference on Energy Materials Costa Rica (ICEMCR 2026) is a premier scientific meeting convening leading researchers, early-career scientists, and industry professionals to address the grand challenges in energy materials and sustainable technologies. Hosted in Costa Rica, a global leader in renewable energy, the conference provides a unique platform for interdisciplinary exchange and international collaboration.
Themes and Topics
Organic, inorganic, and hybrid photovoltaics
Computational and theoretical materials science
Machine learning and autonomous materials discovery
Nanomaterials and quantum materials
Circular economy, green chemistry, and sustainable device manufacturing
Data management, reproducibility, and open science
International research infrastructure and collaboration
Aims and Objectives
Advance the frontiers of energy materials research
Foster critical debate and intellectual risk-taking
Bridge computational and experimental approaches
Promote sustainable practices and reproducibility
Build international networks, with a focus on Latin America and the Global South
Who Should Attend
Academic researchers and group leaders in photovoltaics, energy materials, and computational chemistry
Early-career scientists, PhD students, and postdoctoral researchers
Industry professionals in solar energy and sustainable materials
Computational scientists and data specialists
Policy makers and research infrastructure leaders
Registration Details
ICEMCR 2026 is primarily an invited conference with limited capacity. Interested researchers may contact the organizers via the official website for registration inquiries. Details on fees, accommodation, and travel support are provided at https://www.icemcr.com.
Programme Structure
8 thematic sessions across 3 days
Perspective Talks (15 min): Short, provocative presentations framing key questions
Moderated Debates (30 min): Structured arguments on controversial topics with audience participation
Panel Discussions: Deep dives on complex, cross-cutting issues
