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MoS₂@CNTs Heterostructures-Based (Photo)ElectroCatalysts Research PhD Position - Job Opportunity at Ecole Polytechnique - Laboratoire de Physique des Interfaces et Couches Minces (LPICM)

Palaiseau, France
Contract
Entry-level
Posted: March 14, 2025
On-site
EUR 30,000-35,000 per year (typical French PhD stipend range)

Benefits

PhD Research Position with Full Funding
Access to Advanced Research Facilities
Academic Publication Opportunities
International Research Environment
Professional Development Training

Key Responsibilities

Develop advanced electrocatalysts for ENRR using MoS₂/CNTs heterostructures
Conduct synthesis of large-scale mixed-dimensionality materials
Investigate Fe-doped MoS₂ materials for N₂ reduction
Evaluate and benchmark electro-catalytic NRR performance
Document and publish research findings

Requirements

Education

Master 2 Research degree in chemistry-physics or materials chemistry

Experience

Laboratory research experience required

Required Skills

Materials science expertise Electrochemistry knowledge Catalysis experience Morphological analysis techniques Chemical analysis methods Structural analysis capabilities English language proficiency Technical report writing Team collaboration
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Sauge AI Market Intelligence

Industry Trends

The green hydrogen and ammonia production sector is experiencing rapid growth, with increased focus on sustainable alternatives to traditional Haber-Bosch process Research funding in electrochemical nitrogen reduction is expanding as governments prioritize carbon-neutral technologies Integration of nanotechnology with renewable energy solutions is becoming a key focus area in materials science research

Role Significance

Typically part of a 5-10 person research group within larger laboratory structure
Early-career research position with significant independent research responsibilities

Key Projects

Development of novel electrocatalyst materials Optimization of nitrogen reduction reaction processes Sustainable ammonia production research Advanced materials characterization studies

Success Factors

Strong foundation in materials science and electrochemistry Ability to work independently while contributing to team objectives Publication track record development Innovative problem-solving in experimental design Clear communication of complex scientific concepts

Market Demand

High demand for researchers in sustainable energy and advanced materials, particularly in European research institutions

Important Skills

Critical Skills

Materials synthesis and characterization expertise Advanced analytical techniques proficiency Experimental design capabilities Scientific communication skills

Beneficial Skills

Programming for data analysis Advanced electron microscopy Project management Grant writing experience

Unique Aspects

Focus on novel bottom-up synthesis approach not widely studied in current literature
Integration of biological inspiration (nitrogenase) with advanced materials
Potential for significant impact on sustainable ammonia production

Career Growth

3-4 years for PhD completion, with potential postdoctoral positions thereafter

Potential Next Roles

Postdoctoral Researcher Industrial R&D Scientist Materials Science Research Lead Academic Faculty Position

Company Overview

Ecole Polytechnique - Laboratoire de Physique des Interfaces et Couches Minces (LPICM)

LPICM is a leading research laboratory within Ecole Polytechnique, focusing on advanced materials and interface physics research

Highly regarded in the international materials science research community
Central player in European advanced materials research network
Academic research environment with strong emphasis on innovation and international collaboration
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