Course

EE-517: Bio-nano-chip design

Lectures in this course (26)

Chemical Solutions: Dilution and Dissociation

Covers the preparation of solutions through dilution and the dissociation of weak electrolytes.

Introduction & Conductive Solutions

Introduces bio-nano-chip design and explores the properties of conductive solutions and electrolytes.

Buffer Solutions: pH Calculations

Explores buffer solution preparation, pH calculation, molarity, and dilution concepts.

Proteins and DNA/RNA: Molecular Building Blocks

Explores the composition and functions of essential molecular building blocks in biological systems.

Enzyme Kinetics: Analysis and Thermodynamics

Explores enzyme kinetics analysis and DNA thermodynamics calculations.

Probe/Target Interactions

Explores DNA/RNA pairing, antibody/antigen affinity, Gibbs free energy, and enzymatic reactions.

Electrochemical Sensitivity Analysis

Explores electrochemical sensitivity analysis through chrono-amperometry and cyclic voltammetry, including regression analysis and sensitivity calculation for hydrogen peroxide detection.

Probe Detection with Faradaic Processes

Explores probe detection through faradaic processes at electrochemical interfaces with enzymes, covering redox reactions, sensitivity metrics, and detection limits.

Probe Detection: Antibodies & DNA

Explores probe detection using antibodies and DNA in bio/CMOS interfaces, covering antibody-antigen interactions, DNA hybridization, and labeling techniques.

Absorption Mechanisms: Models and Solutions

Explores absorption mechanisms through various models and solutions for estimating surface coverage percentages.

Probes Immobilisation: Mechanisms and Models

Explores methods for probe immobilization on surfaces, including self-assembly and peptide bonds, discussing the role of hydrophobic interactions and kinetic models.

Atomic Force Microscopy: Resolution and SPR Applications

Covers AFM resolution calculation, metal slice thickness estimation in SPR, and practical SPR antigen detection experiments.

Checking Probes-layer quality

Covers quality assessment of probes-layers using Resonant Mirror, Surface Plasmon Resonance, and Scanning Electron Microscopy.

Bio-Nano-Chip Design: Interface Modeling and CPE Calculation

Explores interface modeling, DNA probe capacitance, and deep brain stimulation analysis.

Nanotechnology to Prevent Electron Transfer

Explores the electrical behavior of DNA, nano-apertures in probes film, and the use of blocking agents.

Enhancing Hydrogen Peroxide Detection with SWCNTs

Discusses the enhancement of sensitivity for hydrogen peroxide detection using SWCNTs in cyclic voltammetry.

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.

Operational Amplifiers: Introduction

Covers the introduction to operational amplifiers, basic configurations, and practical circuit design problems.

CMOS Building Blocks

Explores CMOS building blocks, impedance, operational amplifiers, and noise issues in electrochemical cells.

Electrochemical Biosensors: Front-End Circuits

Explores front-end circuits for electrochemical biosensors, including current encoding, capacitor sizing, metabolite monitoring, and temperature compensation.