Lecture

Nanotechnology: Fabrication and Imaging

Related lectures (32)

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

Scanning Probe Microscopy

Covers the principles and applications of Scanning Probe Microscopy, including working principles, different systems, and imaging applications.

Technological Platforms for Health and Communication

Explores NanoWireSensor, NutriChip, and LiveSense for health applications and secure communication.

Self-organized growth at surfaces

Explores self-organized growth at surfaces and covers instrumentation, destructive exposure, manipulation with SIM, nanostructures, and thin film growth.

DNA Nanotechnology: Origami and Nanophotonics

Explores DNA origami nanotools for nanophotonics, focusing on light control at the nanoscale and the challenges in technological breakthroughs.

Nanoworld Exploration: STM & AFM Basics

Explores self-assembly, lithography, and STM & AFM imaging of the nanoworld.

Advanced Nanomanufacturing: Lithography & Self-Assembly

Delves into advanced nanomanufacturing techniques, including lithography and block copolymer self-assembly for precise device fabrication.

Scanning Probe Microscopy

Explores the principles and applications of Scanning Probe Microscopy techniques.

Tomography: Imaging and Applications

Explores principles and applications of tomography, including 3D microscopy techniques and atomic-level material reconstruction.

Microscopy at Nanoscale: Techniques and Applications

Covers resolution enhancement in optical microscopy, confocal imaging, and fluorescent labelling, exploring the history and techniques of scanning probe microscopy.

Nanofabrication Techniques

Explores nanofabrication techniques, self-assembly, and engineering challenges at micro and nanoscale.

Microscopy: General Aspects and Techniques

Covers general aspects and techniques of microscopy, emphasizing resolution importance and exploring scanning tunneling and atomic force microscopy.

Molecular machines: Nature's nanotechnology

Explores nature's molecular machines, such as ATP synthase and DNA origami.

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.

Single Nanoparticle Printing: Top-Down Meets Bottom-Up

Explores single nanoparticle printing, electro-topographical trapping, and nanoparticle-based applications in micro/nanosystem assembly.

Nano-Fabrication Methods Overview

Explores stencil lithography, a high-resolution direct patterning technique, and its applications on flexible substrates, dynamic stenciling, and biopatterning.

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.

Characterisation and Performance: Hydrogels and Biomaterial Properties

Explores the characterisation and performance of biomaterials, focusing on hydrogels and various properties like stiffness, degradation, swelling, and biocompatibility.

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.

Atomic Force Microscopy: Nanoscale Metrology

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