Lectures related to Functional Properties of Nano-sized Materials

Nanoscale Phenomena: Introduction

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

DNA Nanotechnology: Origami and Nanophotonics

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

Colloidal Synthesis of Nanoparticles

Explores the synthesis, properties, and characterization of nanoparticles, including quantum confinement and catalytic applications.

Building Tomorrow’s Electronics: From Atoms to Devices

Delves into the evolution of transistors, the impact of quantum effects on nano-devices, and the functionality of memristors.

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.

Surface characterization: physical aspects

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

STEM: Scanning Transmission Electron Microscopy

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

Electron Diffraction: Crystallographic Structure Analysis

Covers the theory and applications of electron diffraction in materials science.

Nano: Fundamentals and Applications

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

Nanoworld Exploration: STM & AFM Basics

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

Single Nanoparticle Printing: Top-Down Meets Bottom-Up

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

Nanoparticles: SEM and EDX Analysis

Explores SEM and EDX analysis of nanoparticles, colloidal crystal assembly, and agglomeration processes.

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.

Tomography: Imaging and Applications

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

Transmission Electron Microscopy: basics

Covers the principles, applications, and components of Transmission Electron Microscopy (TEM), including imaging modes and advanced techniques.

Sample Preparation: Techniques and Methods

Discusses the importance of sample preparation in electron microscopy and various techniques involved.

Nanowaste: Nanomaterials and Nanoparticles in Solid Waste Engineering

Delves into nanomaterials and nanoparticles in solid waste, covering trends, microscopy, motion, diffraction, and video creation.

Microscopy: General Aspects and Techniques

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

Quantum Science: The Electron and Its Wave-Particle Duality

Provides an overview of the electron's role in quantum science, focusing on its wave-particle duality and the mathematical framework of quantum mechanics.

Nanoscale Properties: Surface Effects and Quantum Phenomena

Delves into nanoscale properties, emphasizing surface effects and quantum phenomena, conductance quantization, and scanning probe microscopy.