Presentation is loading. Please wait.

Presentation is loading. Please wait.

Structure and electrochemical function of impedimetric biosensors for bacterial detection. Structure and electrochemical function of impedimetric biosensors.

Published byRosamond Barker Modified over 4 years ago

Similar presentations

Presentation on theme: "Structure and electrochemical function of impedimetric biosensors for bacterial detection. Structure and electrochemical function of impedimetric biosensors."— Presentation transcript:

1 Structure and electrochemical function of impedimetric biosensors for bacterial detection.
Structure and electrochemical function of impedimetric biosensors for bacterial detection. (A) Layer-by-layer sensor construction typically comprises an electrode surface functionalized (e.g., using a polymer or self-assembled monolayer) to allow for attachment of bioreceptors, including antibodies, half-antibodies, artificial binding proteins, nucleic acid aptamers, and bacteriophages. Most impedance-based systems utilize electron mediators, e.g., ferri/ferrocyanide [Fe(CN6)3−/4−] to monitor charge transfer resistance. The diagram is not to scale. The Randles circuit illustrates the components of the system: double-layer capacitance (Cdl), charge transfer resistance (Rct), solution resistance (Rs), and Warburg impedance (W) (W is observed only in some systems at low frequency). (B) Nyquist plot showing the features of the Randles circuit. (C) Impedance changes resulting from analyte-surface interactions are proportional to analyte concentration. Asif Ahmed et al. Clin. Microbiol. Rev. 2014; doi: /CMR

Download ppt "Structure and electrochemical function of impedimetric biosensors for bacterial detection. Structure and electrochemical function of impedimetric biosensors."

Similar presentations

Impedance Spectroscopy (Or, how a sinusoidally varying voltage is used to probe multiple electrical properties of materials) Yun-Ju (Alex) Lee June 13,

Impedance Spectroscopy (Or, how a sinusoidally varying voltage is used to probe multiple electrical properties of materials) Yun-Ju (Alex) Lee June 13,
Anthony Catalano.  Any device that analyzes a biological compound into a measurable signal  Composed of a bioreceptor, transducer, and an electronic.

Anthony Catalano.  Any device that analyzes a biological compound into a measurable signal  Composed of a bioreceptor, transducer, and an electronic.
Introduction to Electroanalytical Chemistry

Introduction to Electroanalytical Chemistry
Yat Li Department of Chemistry & Biochemistry University of California, Santa Cruz CHEM 146C_Experiment #8 Surface Electrochemistry: Adsorption of Polyoxometalate.

Yat Li Department of Chemistry & Biochemistry University of California, Santa Cruz CHEM 146C_Experiment #8 Surface Electrochemistry: Adsorption of Polyoxometalate.
Nanobiosensors Sara Huefner November 6, 2006. Outline Biosensor Background –What is a Biosensor? –Components of a Biosensor –Principles of Detection Biosensors.

Nanobiosensors Sara Huefner November 6, Outline Biosensor Background –What is a Biosensor? –Components of a Biosensor –Principles of Detection Biosensors.
NSF-ITR Meeting 10-05 Miniaturized Sensors Air molecules aerosols Water molecules cells, viruses.

NSF-ITR Meeting Miniaturized Sensors Air molecules aerosols Water molecules cells, viruses.
1.Overview Our group is focused on development of electronic sensors for sensitive, rapid, low cost and on-site applicable detection of diseases/illness.

1.Overview Our group is focused on development of electronic sensors for sensitive, rapid, low cost and on-site applicable detection of diseases/illness.
( electrochemical impedance spectroscopy, EIS)

( electrochemical impedance spectroscopy, EIS)
Applications of Aptamers as Sensors

Applications of Aptamers as Sensors
Advisor : Ru-Li Lin Advisee :Shih-Min Chen Southern Taiwan University of Science and Technology, Department of Mechanical Engineering, Tainan, TAIWAN Date.

Advisor : Ru-Li Lin Advisee :Shih-Min Chen Southern Taiwan University of Science and Technology, Department of Mechanical Engineering, Tainan, TAIWAN Date.
Biosensor Development Aptasensor for a small organic molecule, TCA Peter Pfeiffer Bioengineering and Bioelectrochemistry Group University Rovira i Virgili.

Biosensor Development Aptasensor for a small organic molecule, TCA Peter Pfeiffer Bioengineering and Bioelectrochemistry Group University Rovira i Virgili.
Introduction to Electrochemical Impedance Spectroscopy (EIS)

Introduction to Electrochemical Impedance Spectroscopy (EIS)
Basics of Electrochemical Impedance Spectroscopy

Basics of Electrochemical Impedance Spectroscopy
Reporter: AGNES Purwidyantri Student ID no: D0228005 Biomedical Engineering Dept.

Reporter: AGNES Purwidyantri Student ID no: D Biomedical Engineering Dept.
Yi Wan Institute of oceanology, CAS 27-10-2014. Sulfate-reducing bacteria E. coli Staphylococcus Aureus Ebola virusBacillus Cereus Although the majority.

Yi Wan Institute of oceanology, CAS Sulfate-reducing bacteria E. coli Staphylococcus Aureus Ebola virusBacillus Cereus Although the majority.
Neethu Xavier St. Alberts College Cochin, India Microcantilever Biosensors: Making Sensors Reliable.

Neethu Xavier St. Alberts College Cochin, India Microcantilever Biosensors: Making Sensors Reliable.
LEAD ACID BATTERY MODELING IEEE ESSB Summer 2016 Meeting

LEAD ACID BATTERY MODELING IEEE ESSB Summer 2016 Meeting
Date of download: 10/23/2017 Copyright © ASME. All rights reserved.

Date of download: 10/23/2017 Copyright © ASME. All rights reserved.
Preparation of Surface for Biomolecule Immobilization

Preparation of Surface for Biomolecule Immobilization
Characterization of the Ion Conductivity for Surface Modified Polymer Electrolyte Thin Films Anthony R. Layson, Department of Chemistry and Biochemistry,

Characterization of the Ion Conductivity for Surface Modified Polymer Electrolyte Thin Films Anthony R. Layson, Department of Chemistry and Biochemistry,

Similar presentations

Ads by Google