Projects

Advancing graphene and 2D materials through focused research initiatives

Our projects explore the fundamental and applied properties of graphene and two-dimensional (2D) materials, with a focus on understanding, engineering, and optimizing their behavior across energy, electronics, and sensing systems.

Size-Dependent Properties in Liquid-Phase Exfoliated 2D Materials

We investigate how the lateral size, thickness, and defect density of liquid-phase exfoliated materials influence electrical, thermal, and optical properties. Our work includes graphene, WS₂, MoS₂, and Bi₂Te₃ nanosheets for scalable nanomaterial engineering.

GRAPHENE AND CARBON NANOTUBE THERMOELECTRIC COMPOSITES

13 August 2016 | Björn Lodbrok

Development of graphene–carbon nanotube hybrid architectures for thermoelectric energy harvesting. We study charge transport, phonon scattering, and interfacial effects to optimize the thermoelectric performance of flexible and lightweight materials.

QUANTUM AND COLLECTIVE PHENOMENA IN LOW-DIMENSIONAL MATERIALS

Exploration of emergent electronic and magnetic behavior in two-dimensional systems. We investigate quantum transport, confinement effects, and interaction-driven phenomena in layered nanomaterials and hybrid heterostructures.

Projects

Size-Dependent Properties in Liquid-Phase Exfoliated 2D Materials

GRAPHENE AND CARBON NANOTUBE THERMOELECTRIC COMPOSITES

QUANTUM AND COLLECTIVE PHENOMENA IN LOW-DIMENSIONAL MATERIALS

Undergraduate students

Master’s students

Ph.D. students

NORMATIVIDAD INSTITUCIONAL

ENLACES
RÁPIDOS

Projects

Size-Dependent Properties in Liquid-Phase Exfoliated 2D Materials

GRAPHENE AND CARBON NANOTUBE THERMOELECTRIC COMPOSITES

QUANTUM AND COLLECTIVE PHENOMENA IN LOW-DIMENSIONAL MATERIALS

Undergraduate students

Master’s students

Ph.D. students

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