Lectures related to Additively Manufactured Microdevice: Materials Chemistry & Process Control

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

Nano-Tera 2016: IcySoC

Explores the enhancement of SAR value in nanoparticles for diverse applications.

Explores the fundamentals and applications of nanostructures, including dimensionalities, surface-to-volume ratio, fabrication techniques, and nanotechnology's impact on various fields.

Circuits for Amperometric Detection

Explores amperometric detection principles, focusing on DNA indirect detection through redox reactions.

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.

Single Nanoparticle Printing: Top-Down Meets Bottom-Up

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

Tomography: Imaging and Applications

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

Surface characterization: physical aspects

Explores surface morphology, topography, and specific surface area using advanced techniques for material characterization.

Nanoscale Material Science Innovations

Presents cutting-edge projects in nanoscale material science and health monitoring applications.

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.

DNA Nanotechnology: Origami and Nanophotonics

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

Nanoscale Phenomena: Introduction

Introduces nanoscale phenomena, covering quantum mechanics, atomic structures, and examples of nanoparticles' properties and optical behaviors.

Functional Properties of Nano-sized Materials

Delves into the manipulation of light, quantum mechanics, nanofabrication, and applications like LED screens with nanoparticles.

Deformation of Solids

Details the measurement of Young's modulus in a carbon nanotube.

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.

Functional Nanomaterials for Energy, Sensing, and Biomedical Applications

Explores functional nanomaterials for energy, sensing, and biomedical applications, focusing on polymer-based piezoelectric and triboelectric materials.

Technological Platforms for Health and Communication

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

Electron Diffraction: Basics & Applications

Explores electron diffraction fundamentals, crystal symmetry, and advanced techniques for materials analysis.

STEM: Scanning Transmission Electron Microscopy

Explores Scanning Transmission Electron Microscopy (STEM) principles, detectors, contrast mechanisms, and applications in high-resolution imaging.

Sol-Gel Process: Glass Machining and Synthesis of Silica Nanoparticles

Explores the sol-gel process, glass machining, silica nanoparticles synthesis, and polymer microfabrication.