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UNIVERSITI MALAYSIA PERLISSCHOOL OF MICROELECTRONIC ENGINEERING
YOUR TITLE IN CAPITAL LETTER, BOLD
by
Your Name
Thesis for the degree of [Your Program] Engineering
May 2012UNIVERSITI MALAYSIA PERLIS
PUSAT PENGAJIAN KEJURUTERAAN MIKROELEKTRONIK
ABSTRAKTAJUK (DLM BAHASA MELAYU)
oleh Nama Anda
Abstrak bermula disini
ii
UNIVERSITI MALAYSIA PERLISSCHOOL OF MICROELECTRONIC ENGINEERING
ABSTRACTYOUR TITLE
by Your Name
Abstart starts here
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ContentsNote: To update, right click > Update field > Update entire table
Abstract .............................................................................ii
List of tables..........................................................................vi
List of figures.......................................................................vii
Declaration of Authorship...................................................viii
Approval and Declaration Sheet............................................ix
Acknowledgement..................................................................x
Nomenclature........................................................................xi
Chapter 1 Introduction..........................................................1
1.1 Aims and motivation................................................................................11.2 Overview of .............................................................................................1
1.2.1 Overview of ...............................................................................11.3 Thesis structure.......................................................................................1
Chapter 2 Literature review...................................................4
2.1 Introduction.............................................................................................42.2 Sub-topics................................................................................................4
2.2.1 Technique 1:..............................................................................42.2.2 Technique 2:..............................................................................4
2.3 Conclusion...............................................................................................4
Chapter 3 Methodology..........................................................5
3.1 Introduction.............................................................................................53.2 Sub-topics................................................................................................5
3.2.1 Preparation of............................................................................53.2.2 Development of..........................................................................5
3.3 Conclusion...............................................................................................5
Chapter 4 Results and discussion..........................................6
4.1 Introduction.............................................................................................6
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4.2 Sub-topics................................................................................................64.2.1 Characterisation........................................................................64.2.2 Experimental results 1:..............................................................6
4.3 Conclusion...............................................................................................6
Chapter 5 Business plan........................................................7
5.1 Introduction.............................................................................................75.2 Market analysis.......................................................................................75.3 Business structure...................................................................................75.4 Costing....................................................................................................7
5.4.1 Capital cost................................................................................75.4.2 Operational cost.........................................................................75.4.3 Material cost..............................................................................8
5.5 Conclusion...............................................................................................8
Chapter 6 Conclusion and future work..................................9
6.1 Conclusion...............................................................................................96.2 Future work.............................................................................................9
Appendix A Medium formulation 10
A.1 DMEM formulation (mgL-1)..............................................................10
List of publications ....................................................................................11
References .................................................................................................12
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List of tablesNote: To update, right click > Update field > Update entire table
Table 1.1 Predicted root-mean-square (RMS) displacement of a range of polystyrene particles in two dimensions after 1 second..............................2
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List of figures
Note: To update, right click > Update field > Update entire table
Figure 1.1 A schematic showing a spherical particle near a surface.................3
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Declaration of Authorship
I, YOUR NAME, declare that the thesis entitled YOUR PROJECT TITLE and the work presented in the thesis are both my own, and have been generated by me as the result of my own original research. I confirm that:
this work was done wholly or mainly while in candidature for a bachelor degree at this University;
where any part of this thesis has previously been submitted for a degree or any other qualification at this University or any other institution, this has been clearly stated;
where I have consulted the published work of others, this is always clearly attributed;
where I have quoted from the work of others, the source is always given. With the exception of such quotations, this thesis is entirely my own work;
I have acknowledged all main sources of help;
where the thesis is based on work done by myself jointly with others, I have made clear exactly what was done by others and what I have contributed myself;
parts of this work have been published as shown in the List of Publications.
Signed:...............................................Date:...................................................
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Approval and Declaration Sheet
This project report titled YOUR PROJECT TITLE IN CAPITAL LETTERS was prepared and submitted by YOUR NAME (Matrix Number: YOUR MATRIX NUMBER) and has been found satisfactory in terms of scope, quality and presentation as partial fulfillment of the requirement for the Bachelor of Engineering (Your Degree Engineering) in Universiti Malaysia Perlis (UniMAP).
Checked and Approved by
_________________________(YOUR SUPERVISOR NAME)
Project Supervisor
SCHOOL OF MICROELECTRONIC ENGINEERINGUNIVERSITI MALAYSIA PERLIS
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Chapter 1 IntroductionNote: Copy and paste the title and subtitles to create a new chapter. Subtitles should be numbered up to 2 decimal places (eg 1.2.1). Any more than that is excessive, restructure your report if that occurs
1.1 Aims and motivation
A reliable and non-destructive purification of cell population is necessary to obtain reproducible data on the cell analysis. In order to establish the state-of-the-art, a review of the cell/particle trapping and sorting techniques has been presented, covering work done by other research groups. Electrical trapping , microfluidics , mechanical and <-Note: Reference should be added through EndNote. Select your reference in EndNote Library, and click insert citations
1.2 Overview of ...
The ....
1.2.1 Overview of ...
1.3 Thesis structure
This thesis is separated into several chapters covering different aspects of the research. An overview of different techniques and procedures currently used ...
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Note: Copy and paste below for adding more equations. Equation can be written using Microsoft’s built in editor or MathTypeSample for writing equation:
Equation 1.1
where k is the Boltzmann constant and T is the temperature. This is how to quote the equation Equation 1.1 Note: Equation can be referenced through Insert>Cross reference> Reference type:Equation>Insert reference to: Only label and number> Click on insert as hyperlink>Click Insert
Note: Copy and paste below for adding more tables
Table 1.1 Predicted root-mean-square (RMS) displacement of a range of polystyrene particles in two dimensions after 1
secondBoltzmann constant (JK-1) 1.38x10-23
Temperature (K) 293Viscosity (Pas) 0.001
Polystyrene particle diameter (µm) RMS displacement (µm) after 1 second
1 1.713 0.576 0.298 0.21
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Figure 1.1 A schematic showing a spherical particle near a surface
Note: Copy and paste above for adding more figure
Note: Figure and Table can be referenced through Insert>Cross reference> Reference type:Figure or Table>Insert reference to: Only label and number> Click on insert as hyperlink>Click Insert
Example: Figure 1.1 Table 1.1
D
z
z=0
R
dz
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Chapter 2 Literature review
2.1 Introduction
2.2 Sub-topics
There are multiple ways of fabricating... It can be categorised into 5 main techniques...
2.2.1 Technique 1:...
The first technique comprises of...
2.2.2 Technique 2:...
.
.
.
2.3 Conclusion
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Chapter 3 Methodology
3.1 Introduction
3.2 Sub-topics
In the process of fabricating... there are a few steps need to be taken into account...
3.2.1 Preparation of...
The ... is first prepared via...
3.2.2 Development of...
.
.
.
3.3 Conclusion
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Chapter 4 Results and discussion
4.1 Introduction
4.2 Sub-topics
In the experiments conducted, there are several results obtained...
4.2.1 Characterisation
The ... is obtained via...
4.2.2 Experimental results 1:
.
.
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4.3 Conclusion
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Chapter 5 Business plan
5.1 Introduction
5.2 Market analysis
Analysis of projected usage of your FYP. It should show your understanding of the social, cultural, global and environmental responsibilities of a professional engineer. The section should also show your understanding of professional and ethical responsibilities and commitment to the community.
5.3 Business structure
This section should show your in-depth understanding of entrepreneurship, the process of innovation and the need for sustainable development.
5.4 Costing
5.4.1 Capital cost
The ... is obtained via...
5.4.2 Operational cost
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Chapter 6 Conclusion and future work
6.1 Conclusion
6.2 Future work
The investigation carried out in this project has laid ..... this work will lead to many exciting avenues of research in the future.
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Appendix A Medium formulationA.1 DMEM formulation (mgL-1)
Inorganic salts Quantity (mgL-1)
Calcium Chloride anhydrous 200Ferric(III)-Nitrate in 9H2O 0.1Potassium Chloride 400Magnesium Sulphate anhydrous 97.7Sodium Chloride 6400Sodium Dihydrogen Phosphate in H2O 125Sodium Hydrogen Carbonate 3700
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References
[1] C.-F. Chou and F. Zenhausern, "Electrodeless dielectrophoresis for micro total analysis systems," IEEE Engineering in Medicine and Biology Magazine, vol. 22, pp. 62-7, 2003.
[2] S. Fiedler, S. G. Shirley, T. Schnelle, and G. Fuhr, "Dielectrophoretic sorting of particles and cells in a microsystem," Analytical Chemistry, vol. 70, pp. 1909-1915, 1998.
[3] P. R. C. Gascoyne and J. V. Vykoukal, "Dielectrophoresis-based sample handling in general-purpose programmable diagnostic instruments," in Proceedings of the IEEE, 2004, pp. 22-42.
[4] Y. Bo, L. Guo-an, F. Xue, W. Wei, C. Ling-xin, and W. Yi-ming, "A microfluidic device based on gravity and electric force driving for flow cytometry and fluorescence activated cell sorting," Lab on a Chip, vol. 4, pp. 603-7, 2004.
[5] H. Dongeun, G. Wei, Y. Kamotani, J. B. Grotberg, and S. Takayama, "Microfluidics for flow cytometric analysis of cells and particles," Physiological Measurement, vol. 26, pp. 73-98, 2005.
[6] L. Gwo-Bin, I. H. Chen, K. Bin-Jo, H. Guan-Ruey, H. Bao-Herng, and L. Hui-Fang, "Hydrodynamic focusing for a micromachined flow cytometer," Transactions of the ASME. Journal of Fluids Engineering, vol. 123, pp. 672-9, 2001.
[7] H. Andersson and A. V. D. Berg, "Microfluidic devices for cellomics: A review," Sensors and Actuators, B: Chemical, vol. 92, pp. 315-325, 2003.
[8] R. Bashir, D. Akin, R. Gomez, H. Li, W. J. Chang, and A. Gupta, "From bioMEMS to bionanotechnology: integrated biochips for the detection of cells and microorganisms," in Biomicroelectromechanical Systems (BioMEMS) Symposium, San Francisco, CA, USA, 2003, pp. 117-24.
[9] A. Y. Fu, H.-P. Chou, C. Spence, F. H. Arnold, and S. R. Quake, "An integrated microfabricated cell sorter," Analytical Chemistry, vol. 74, pp. 2451-2457, 2002.
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