WeCreativez WhatsApp Support
Administrator (Online)
I am online and ready to help you via WhatsApp chat. Let me know if you need my assistance.

Project File Details


Original Author (Copyright Owner): 

3,000.00

The Project File Details

  • Name: DESIGN AND CONSTRUCTION OF A TWO ELECTRODE POTENTIOSTAT
  • Type: PDF and MS Word (DOC)
  • Size: [1.70 MB]
  • Length: [68] Pages

 

ABSTRACT

The need to produce high quality films at low and normal atmospheric pressure had led to the adaptation of electrochemical methods in thin film deposition. This project “Design and Construction of a two electrode potentiostat” is aimed at improving on the cost effectiveness of commercially available three electrode potentiostat, for thin film fabrication in Physics Department as the department does not have any working deposition system. The two electrode potentiostat was designed and constructed to realize an electronic module. The module was interfaced to a computer unit using a lab view software program, the results obtained indicated that the two electrode potentiostat electronic design produced the required voltage range for thin film deposition. The system though needs optimization will be of great use in the thin film preparation for research purposes.

 

TABLE OF CONTENTS

Cover page                                                                                                                  i

Title page                                                                                                                    ii

Certification                                                                                                                iii

Dedication                                                                                                                  iv

Acknowledgement                                                                                                      v

Abstract                                                                                                                      vi

Table of content                                                                                                          vii

List of  Figure                                                                                                             xii

List of table                                                                                                                 xiv

CHAPTER ONE

INTRODUCTION                                                                                                     1

1.1 Background History                                                                                             1

1.2 Aims and Objectives                                                                                             2

1.3 Significance of the study                                                                                      3

1.4 Scope of the study                                                                                                            4

 

 

CHAPTER TWO

LITERATURE REVIEW                                                                                          5

2.1 Electrochemistry                                                                                                   5

2.2 The Potentiostat                                                                                                    6

2.2.1 The Potentiostat and History                                                                             7

2.2.2 Problems Encountered in Potentiostat                                                               8

2.3 Applications of Potentiostats                                                                                9

2.3.1 Potentiostats for use in corrosion studies                                                          9

2.3.2 Potentiostats for use in biosensor applications                                                  10

2.3.3 Potentiostats in electrodeposition of thin films                                                 11

2.3.4 Potentiostats in electrochemical energy Sources                                               12

2.4 Characteristics of Potentiostats                                                                            13

2.4.1 Control Speed                                                                                                    13

2.4.2 Accuracy                                                                                                            14

2.4.3 Current Range and Dynamics                                                                            14

2.4.4 Noise                                                                                                                  14

2.4.5 Stability                                                                                                              15

2.5 Electrodes                                                                                                             15

2.5.1 Counter Electrodes                                                                                            16

2.5.2 Reference Electrode                                                                                          16

2.5.3 Working Electrode                                                                                             17

2.6 Two-Electrode versus Three-Electrode                                                                17

2.6.1 Two- Electrode Experiment                                                                               17

2.6.2 Three Electrode Experiments                                                                             19

CHAPTER 3

MATERIALS, METHODS AND TECHNIQUES                                                   21

3.1 Materials/circuit components                                                                                21

3.1.1 Diode                                                                                                                 21

3.1.2 Capacitor                                                                                                            23

3.1.3 Resistor                                                                                                              24

3.1.5 Tl074 Operational Amplifier                                                                              25

3.1.6 L7905 Negative Fixed Voltage Regulators                                                       27

3.1.7 L7805 Positive Fixed Voltage Regulators                                                         28

3.1.8 The Arduino Microcontroller                                                                             30

3.2 Electrodes                                                                                                             37

3.3.1 Working Electrode                                                                                             38

3.3.2 Reference Electrode                                                                                          38

3.4 Two Electrode Setup                                                                                            38

3.5 Description and Operating Principles Of The Two Electrode Potentiostat

Circuit Diagrams                                                                                                         39

3.5.1 Power Supply and Conditioning Circuit                                                           39

3.5.2 Signal Pre-Amplifier and Voltage Conditioning Circuit                                   40

3.5.3 Signal Post-Amplifier Output and Conditioning Circuit                                   41

3.5.4 Signal Output Processing Circuit                                                                       42

3.6 Features of  The Finished Three Electrode Potentiostat                                       45

CHAPTER 4

  • Software Features 46

4.2 Operating Procedures                                                                                           47

4.3 Software Development IDE Used for the Programming                                     51

4.4 Serial Port Using Visual Basic .Net For Windows Software Development         52

4.5 Checking the Virtual Serial Port Connection                                                       53

4.6 Testing Of the Potentiostat                                                                                   53

4.7 Discussion                                                                                                             54

CHAPTER 5

5.1 Conclusion                                                                                                            55

5.2 Recommendation                                                                                                  55

References                                                                                                                  56

 

 

CHAPTER ONE

BACKGROUND HISTORY

During the year 1950, metallurgist and physiochemist tried to bring some light into a fascinating electrochemical phenomenon (Bard and Faulkner, 2001) called electrochemistry.

Electrochemist discovered that if an iron electrode is dropped into diluted sulphuric acid (electrolyte), it will instantly start to corrode and if another electrode which will not corrode is inserted into the same electrolyte e.g. Platinum and iron electrode is connected to the negative pole of the current source and the platinum electrode to the positive pole of the current source, the iron dissolves will slow down or even stop depending on the voltage applied. This phenomenon was discovered already in the 17th century by Sir Humphery Davy. When the iron electrode is connected to the positive pole and the voltage increased from very low value to higher ones, the dissolution grows exponentially with increasing voltage. Above a certain current limit depending on the electrode area, the electrolytic composition and temperature, it is found that current suddenly drops to a very low value and the iron electrode stops to dissolve. This phenomenon was detected by Michael Faraday which he called ‘passivity’. Although, this phenomenon has been an object of controversy since then a better understanding of this phenomenon was possible after the invention of the potentiostat.

Although potentiostats are the foundation of modern electrochemical research, they have seen relatively little application in resource poor setting such as undergraduate laboratory courses and the developing world (Aaron et al, 2011). One reason for low penetration of potentiostat is their cost as even the least expensive potentiostat sells for more than a thousand dollars. Inexpensive electrochemical workstations could prove useful in educational laboratories, increasing access to electrochemical based analytical techniques. But with this project work, constructing a potentiostat will not even cost up to a hundred thousand naira as locally sourced material and electronic components available on the shelf will be used.

 

1.2       AIMS AND OBJECTIVES

This project work is done so as to produce a cheap electrochemical analytical device which can be interfaced with dedicated computer software for real time recording and plotting of experimental results.

 

1.3       SIGNIFICANCE OF THE STUDY

This device is a basic device used in electrochemical research which includes.

  1. Electroplating: Used in electroplating experiments.
  2. Biosensors: Used in microbial sensors for testing DNA and other proteins in the health sector.
  • It is also used in the health sector as a sensor that can be used to test for sugar level in diabetics.
  1. Energy source: Used to create electrochemical source of energy as in fuel cells super caps, batteries etc.
  2. Thin film deposition: Used for the deposition of thin films, characterizing of properties of the thin films used in solar cells.

 

 

1.4       SCOPE OF THE STUDY

The two-electrode potentiostat or bipotentiostat is basically an operational amplifier circuit in conjunction with an electrochemical case which comprises of the electrodes dipped into an electrolyte. It is a device which controls the potential between a pair of electrodes (working electrode and reference electrode) while measuring current flow. It is a control and measuring device. It comprises of an electric circuit which controls the potential across the cell by increasingly sensing changes in the resistance, varying according to the current supplied to the system; a higher resistance will result in a decreased current and vice-versa, in order to keep the voltage constant as described by Ohm’s law.

Most early potentiostats could function independently providing output through a physical data trace. Modern potentiostats are designed to interface with a personal computer and operate through a dedicated software package.  This automated software allows rapid shifting between experiments and experimental condition. This computer allows data to be stored and analyzed more effectively rapidly and accurately than historic methods.

The potentiostat to be designed involves electrodes in electrolyte which is activated by the following circuits or sections:

  1. Control amplifier: This amplifies the potential between the working and reference electrodes.
  2. Electrometer: This measure the potential difference between the working and reference electrodes.
  • Current -to- voltage converter: This measures the current flow.

This device is to be interfaced with operating system software on the computer so that results can be easily recorded in real time by measuring, recording and plotting of results into tables and graphs respectively. In this work it will be shown how this device can be designed, constructed and applied in electrochemical research.

 

GET THE FULL WORK

DISCLAIMER:
All project works, files and documents posted on this website, projects.ng are the property/copyright of their respective owners. They are for research reference/guidance purposes only and the works are crowd-sourced. Please don’t submit someone’s work as your own to avoid plagiarism and its consequences. Use it as a guidance purpose only and not copy the work word for word (verbatim). Projects.ng is a repository of research works just like academia.edu, researchgate.net, scribd.com, docsity.com, coursehero and many other platforms where users upload works. The paid subscription on projects.ng is a means by which the website is maintained to support Open Education. If you see your work posted here, and you want it to be removed/credited, please call us on +2348159154070 or send us a mail together with the web address link to the work, to [email protected] We will reply to and honor every request. Please notice it may take up to 24 - 48 hours to process your request.