Nano and Smart Materials
TElectrical transport in low-dimensional and nanostructured materials: fundamentals to applications
Understanding charge and energy transport in low-dimensional and nanostructured materials is crucial for next-generation electronics. This symposium bridges theory and experiment to reveal transport mechanisms and guide the design of future electronic materials and devices.
Scope:
This symposium will address recent advances in understanding electrical transport phenomena in low-dimensional and nanostructured materials. It will cover both fundamental aspects of electrothermal, electrochemical and magnetotransport and their implications for emerging applications. Topics include transport in individual nanostructures such as 2D materials (graphene, MBenes, TMDs, perovskites), single nanotubes and nanowires, as well as collective behaviour in hybrid materials and macroscopic assemblies—fibres, films, arrays and composites. A central theme is linking atomistic and mesoscale modelling with experimental observations across a wide range of temperatures and magnetic fields. Contributions on magnetoresistance, piezoresistive effects and piezoelectric and other coupled phenomena are particularly encouraged.
The symposium will also highlight the design of hybrid and composite materials enabling flexible, transparent, and sustainable electronics, E-textiles, and energy-related devices such as thermoelectric, battery and superconducting systems. By bringing together theoreticians and experimentalists, the event aims to stimulate cross-disciplinary discussions and collaborations that connect fundamental transport physics with practical materials design.
Hot topics to be covered by the symposium:
- Charge/heat transport in low-dimensional nanomaterials (2D MXenes, perovskites, TMDs; 1D CNTs, nanowires)
- Ionic & electronic transport in battery electrodes & printed/flexible devices
- Spin-dependent transport & magnetoresistance in 2D/nanoscale magnetic materials for spintronics
- Thermoelectric (Seebeck/Peltier) effects in low-dimensional materials for energy harvesting
- Nanomaterials for flexible electronics/E-textiles: piezoresistive sensors & conductive fibers
- Sustainable and green electronics: recyclable, low-energy, and eco-friendly materials.
- 2D superconductivity & quantum transport for electronics
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Centre for Advanced Materials and Technologies, CEZAMAT, ul. Poleczki 19, 02-822 Warsaw, Poland
agnieszka.raus@pw.edu.plAFRL, 1864 4th St, Wright-Patterson, AFB, OH 45433 USA
john.bulmer.2.ctr@afrl.af.milTolosa Hiribidea, 76, E-20018 Donostia / San Sebastian, Spain
kz.milowska@nanogune.euBautzner Landstraße 400, 01328 Dresden, Germany
mahdi.ghorbani@hzdr.de