MNE 2025

Menu

Scientific Tracks

Track 1: Micro-Nano Fabrication

1.1 Processes

  • Additive
  • 2D, 3D Pattern transfer lithography
  • EUV, DUV, UV
  • E-beam, ion beam, x-ray, lasers, LEDs
  • Scanning probes
  • Plasma and thermal processes
  • Growth, deposition, electroplating
  • Integration and packaging
  • FEOL and BEOL
  • Novel methods
  • Micro-nano printing

Note: These processes involve various techniques for creating micro and nano-scale structures and devices.

1.2 Characterisation

  • Metrology
  • Electrical
  • Optical
  • Scanning probes

Note: These methods are used to analyze and measure the properties of micro and nano-scale structures and devices.

1.3 Design

  • Process simulation
  • Bio-inspired and biomimetics
  • Process optimisation
  • Machine learning
  • Process control

Note: These aspects involve the design and optimization of fabrication processes for micro and nano-scale devices.

Track 2: Micro-Nano Devices

2.1 Electronics

  • Field effect
  • Memory (memristor, ferromagnetic)
  • Thermoelectric
  • Acoustic
  • RF and microwaves
  • Quantum

Note: This section covers various types of electronic devices at the micro and nano-scale.

2.2 Photonics and Phononics

  • Light emitters
  • Lasers
  • Plasmonics
  • Silicon photonics
  • Detectors

Note: This section focuses on devices that utilize light and sound waves at the micro and nano-scale.

2.3 Biodevices

  • Micro-nano fluidics
  • Biomedical and implantable
  • Bioelectronics and biophotonics
  • Biostructures
  • Biomatters and materials
  • Drug delivery and probes
  • Lab-on-a-chip

Note: These devices are designed for biological and medical applications.

2.4 Micro-Nanosystems

  • MEMS, NEMS, MOEMS
  • 3D printed devices

Note: This section covers miniaturized systems and devices with integrated functionalities.

2.5 Flexible Devices

  • Large Area Electronics
  • Organic and Inorganics

Note: This involves electronics that can be fabricated on flexible substrates.

Track 3: Systems and Applications

3.1 Sensors

  • Environmental (Chemical and Physical)
  • Biosystems, Biological, Biochemical, Biomedical
  • Force and pressure
  • Electromagnetics and charges
  • Capacitive, Resistive, Inductive
  • Wearable
  • Sensor systems and others

Note: This section encompasses various types of sensors for different applications.

3.2 Heterogeneous Integration

  • Electrical and optical interposers
  • Interconnects
  • Integrated devices, system, packaging

Note: This involves integrating different types of devices and technologies into a single system.

3.3 Information Communication Technologies

  • Datacom, Telecom, IoT
  • Quantum, Security and resilience
  • Computing and storage
  • Vision, AV, display, projection

Note: This section focuses on the application of nano and micro fabrication technologies in communication.

3.4 Machine Learning

  • Neuromorphic computing
  • Fabrication image and data processing
  • Process development and analysis

Note: This involves the use of machine learning in the design and fabrication of micro and nano-scale devices.

Track 4: Sustainability Technology

4.1 Alternative Fabrication Processes

  • Low energy and energy efficient
  • Green materials and devices
  • Low carbon

Note: This section explores sustainable fabrication methods with reduced environmental impact.

4.2 Circular Processes

  • Recycling and e-waste
  • Bio-based and biocompatible materials
  • Packaging technology
  • Materials supply chain

Note: These processes aim to minimize waste and promote resource efficiency in micro and nano-technology.

4.3 Energy

  • Energy harvester and generator
  • Photovoltaics and solar cells
  • Batteries
  • Low power devices

Note: This section covers technologies for energy generation, storage, and efficient utilization in micro and nano-devices.

4.4 Environment Monitoring

  • Atmospheric
  • Maritime
  • Land
  • Space
  • Food and agritech

 

Track 1: Micro-Nano Fabrication

1.1 Processes

  • Additive
  • 2D, 3D Pattern transfer lithography
  • EUV, DUV, UV
  • E-beam, ion beam, x-ray, lasers, LEDs
  • Scanning probes
  • Plasma and thermal processes
  • Growth, deposition, electroplating
  • Integration and packaging
  • FEOL and BEOL
  • Novel methods
  • Micro-nano printing

Note: These processes involve various techniques for creating micro and nano-scale structures and devices.

1.2 Characterisation

  • Metrology
  • Electrical
  • Optical
  • Scanning probes

Note: These methods are used to analyze and measure the properties of micro and nano-scale structures and devices.

1.3 Design

  • Process simulation
  • Bio-inspired and biomimetics
  • Process optimisation
  • Machine learning
  • Process control

Note: These aspects involve the design and optimization of fabrication processes for micro and nano-scale devices.

Track 2: Micro-Nano Devices

2.1 Electronics

  • Field effect
  • Memory (memristor, ferromagnetic)
  • Thermoelectric
  • Acoustic
  • RF and microwaves
  • Quantum

Note: This section covers various types of electronic devices at the micro and nano-scale.

2.2 Photonics and Phononics

  • Light emitters
  • Lasers
  • Plasmonics
  • Silicon photonics
  • Detectors

Note: This section focuses on devices that utilize light and sound waves at the micro and nano-scale.

2.3 Biodevices

  • Micro-nano fluidics
  • Biomedical and implantable
  • Bioelectronics and biophotonics
  • Biostructures
  • Biomatters and materials
  • Drug delivery and probes
  • Lab-on-a-chip

Note: These devices are designed for biological and medical applications.

2.4 Micro-Nanosystems

  • MEMS, NEMS, MOEMS
  • 3D printed devices

Note: This section covers miniaturized systems and devices with integrated functionalities.

2.5 Flexible Devices

  • Large Area Electronics
  • Organic and Inorganics

Note: This involves electronics that can be fabricated on flexible substrates.

Track 3: Systems and Applications

3.1 Sensors

  • Environmental (Chemical and Physical)
  • Biosystems, Biological, Biochemical, Biomedical
  • Force and pressure
  • Electromagnetics and charges
  • Capacitive, Resistive, Inductive
  • Wearable
  • Sensor systems and others

Note: This section encompasses various types of sensors for different applications.

3.2 Heterogeneous Integration

  • Electrical and optical interposers
  • Interconnects
  • Integrated devices, system, packaging

Note: This involves integrating different types of devices and technologies into a single system.

3.3 Information Communication Technologies

  • Datacom, Telecom, IoT
  • Quantum, Security and resilience
  • Computing and storage
  • Vision, AV, display, projection

Note: This section focuses on the application of nano and micro fabrication technologies in communication.

3.4 Machine Learning

  • Neuromorphic computing
  • Fabrication image and data processing
  • Process development and analysis

Note: This involves the use of machine learning in the design and fabrication of micro and nano-scale devices.

Track 4: Sustainability Technology

4.1 Alternative Fabrication Processes

  • Low energy and energy efficient
  • Green materials and devices
  • Low carbon

Note: This section explores sustainable fabrication methods with reduced environmental impact.

4.2 Circular Processes

  • Recycling and e-waste
  • Bio-based and biocompatible materials
  • Packaging technology
  • Materials supply chain

Note: These processes aim to minimize waste and promote resource efficiency in micro and nano-technology.

4.3 Energy

  • Energy harvester and generator
  • Photovoltaics and solar cells
  • Batteries
  • Low power devices

Note: This section covers technologies for energy generation, storage, and efficient utilization in micro and nano-devices.

4.4 Environment Monitoring

  • Atmospheric
  • Maritime
  • Land
  • Space
  • Food and agritech