- 2D water and nanofluidics
- 2DM based composites, coatings, foams and membranes
- Advances in hBN growth, characterization and device integration
- Chemistry of 2D materials
- Devices for Electronic Applications (flexible displays, high frequency devices, sensors, etc..)
- Ferroelectrics & Piezoelectric 2DM
- Growth, synthesis techniques and integration methods
- Health and Medical Applications
- Photonics and Plasmonics
- Properties & Applications of MXenes
- Quantum transport , magnetism and spintronics
- Spectroscopies (Optics, Raman, EELS) and microscopies (HRTEM, STM, AFM)
- Theory and Simulation
- Topological and Exotic Physics in van Der Waals Heterostructures
- Other applications of graphene and 2D materials
- Innovation and commercialization
- Graphene-based nanocomposites
- Devices constructed from of graphene and 2D materials
- Water treatment and waste management
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- Fundamental science of graphene and 2D materials beyond graphene
- New 2D materials (topological insulators, perovskites, Mexnes etc.)
- Van der Waals heterostructures
- Electrical, optical, thermal and mechanical properties of Graphene and 2D materials
- Spectroscopy and microscopy of Graphene and 2D materials
- Theory and simulation of Graphene and 2D materials
- Quantum transport, magnetism, and spintronics
- Electronics, photonics, optoelectronics, and plasmonics
- Growth and synthesis of graphene and 2D materials
- Graphene and 2D materials for energy applications
- Graphene and 2D materials for biomedical and healthcare applications
- Graphene and 2D materials for aerospace and defense industries
- Graphene 3D Printing
- Deposition and doping of diamond, carbon nanotubes, graphene, etc
- Chemistry and electrochemistry of graphene and other 2D materials
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