Lecture

Introduction to Advanced MEMS

Related lectures (32)

Explores the evolution and applications of MEMS technology, emphasizing real-world case studies and future prospects in nanotechnology.

AFM Tips and Cantilevers Fabrication

Explores the fabrication of AFM tips and cantilevers, including tip sharpening, thermal oxidation, and the use of carbon nanotubes as probes.

Photonic Crystals: Fabrication Techniques

Delves into the fabrication techniques of photonic crystals, inspired by natural structures like butterfly wings and opal stones.

Lithography: Methods and Importance

Explores lithography methods for defining patterns in micro/nano fabrication and discusses the importance and steps involved in the process.

2 Photon Polymerization: Applications

Explores 3D printing using 2 photon absorption, covering two-photon absorption, applications, setup, resolution, printing speed, bio-printing, and micro glass prints.

Scanning Probe Microscopy: Self-Sensing Cantilevers

Explores self-sensing cantilevers in Scanning Probe Microscopy and the advantages of integrated sensor-actuator systems for high-speed data collection.

Nanoscale MEMS: Fabrication, Tips, and Microscopy

Covers the fabrication of nanoscale MEMS devices and the operation of the Atomic Force Microscope for measuring ultrasmall forces on particles.

Advanced MEMS and Microsystems: Interactive Session Instructions

Covers the schedule and content of the Advanced MEMS and Microsystems course.

Micro-Electro-Mechanical Systems

Covers the introduction to Micro-Electro-Mechanical Systems (MEMS), including operating principles, elements, scaling laws, silicon choice, sensors, and actuators.

Philippe Renaud: A Journey in Microengineering

Celebrates Philippe Renaud's exceptional journey in microengineering, innovation, and education, showcasing his impact on research, education, and interdisciplinary collaborations.

Nanotechnology: Fabrication and Imaging

Covers advanced lithography, nanoscale imaging, and fabrication techniques in nanotechnology.

Self-assembly of Microsystems

Explores self-assembly of Microsystems, its importance, features, motivations, and examples in various fields, highlighting landmark achievements and future prospects.

Microfabrication Techniques: Tips and Sensors

Explores microfabrication techniques for nanotips and sensors, contact modes in AFM, capillary forces, and integrated sensors and actuators.

Nanoscale Properties: Surface Effects and Quantum Phenomena

Delves into nanoscale properties, emphasizing surface effects and quantum phenomena, exploring electronic, mechanical, magnetic, photonic, and chemical properties unique to the nanoscale.

Micro/Nanomechanical Devices: Scaling Laws and MEMS Applications

Covers scaling laws in micro/nanomechanical devices and explores diverse MEMS applications.

Dry Etching Techniques

Explores dry etching techniques for different materials, including continuous, pulsed, cryogenic processes, and isotropic etching using SF6.

Atomic Force Microscopy: Nanoscale Metrology

Explores Atomic Force Microscopy, covering principles, applications, resolution, feedback mechanisms, and imaging techniques.

Transduction of the Motion

Explores transduction in N/MEMS, covering force-based and deformation-based methods.

Nanotechnology to Enhance Electron Transfer

Explores the application of carbon nanotubes in enhancing electron transfer for biosensors, emphasizing their role in improving sensitivity and detection limits.

Techno-scientific Promises: Challenges and Realities

Explores techno-scientific promises, societal impact, precision medicine, nanotechnology market trends, challenges of speculative bubbles, and ethical considerations.