Nanotechnology for Electronics and Sensors BIOE198dp (08-31-2015)

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Presentation transcript:

Nanotechnology for Electronics and Sensors BIOE198dp ( )

Why Nano for Electronics New designed materials offer new and unique properties

Enables the development and cost efficient production of state-of-the-art components operate faster has higher sensitivity consume less power can be packed at much higher densities It can become stronger, conduct heat better, and show extraordinary electrical properties What Properties?

Example: at the nanoscale, the resistance dependence of a material on an external magnetic field is significantly amplified, which has led to the fabrication of hard disks with a data storage density in the gigabyte and terabyte ranges. Nanotechnology has also enabled the development of sensors suitable for measurements at the molecular level with an unprecedented sensitivity and response time, mainly due to their high surface to volume ratio.

A layer of graphene acts as the conducting channel in a field effect transistor Robust Superior electronic properties Superior mechanical properties High surface -to-volume ratio Graphene Transistor

Integrated circuit based on individual carbon nanotube Carbon Nanotube Electronics

Carbon Based Nanosensors

Molecular Electronics: Single Molecule Memory Device

Organic Transistor Odor Sensor

Quantum Dots

Quantum Dots with gradually stepping emission from violet to deep red

Semiconductor Energy Levels

Excitons

Single Electron Transistor Quantum Dots?

Nano-Electro-Mechanical-System

Spintronics

Rechargeable Batteries

Quantum Computing

BIOMEMS

Conclusion Nanotechnology helps to develop cost efficient production of state-of-the-art components, which can operate faster with higher sensitivity, consume less power and can be packed at much higher densities It can become stronger, conduct heat better, and show extraordinary electrical properties Can be made completely biodegradable Tremendous potential