IM2665 Chemistry of Nanomaterials Assoc. Prof. Muhammet Toprak [email protected] Functional Materials...
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Transcript of IM2665 Chemistry of Nanomaterials Assoc. Prof. Muhammet Toprak [email protected] Functional Materials...
IM2665 Chemistry of Nanomaterials
Assoc. Prof. Muhammet [email protected]
Functional Materials Division, ICT SchoolRoyal Institute of Technology (KTH)
PROJECT WORK
IM2665 – Chemistry of Nanomaterials
Superparamagnetic iron oxide nanoparticles biomedical use
Rare earth oxide NPs fluorescence
Quantum dots solar cell or biomedical applications
CeO2 as electrolyte materials in fuel cells or
three way catalysts
Olividine compunds (LiFe2PO4) Li ion batteries
Thermoelectric material, HMS, Bi2Te3, CoSb3 for energy conversion
BSCF-LSCF materials cathode material for Solid Oxide Fuel Cells
Photocatalytic material; TiO2, ZnO
Metal Nanoparticles (Au, Ag, Pt etc.) Catalytic/Optical/Plasmonics
Piezoelectric Material Barium titanate (perovskites)
Your own topic of interest to be discussed
Project Topics for IM2665
2IM2665_Chemistry of Nanomaterials
Guidelines:• Significance and use of your Selected Material
• Find at least two chemical methods and one physical method of preparation of
your selected material system in the bulk form.
• Describe the techniques using the terminology you are familiarized during the
course.
• Compare and contrast the advantages and disadvantages of these Methods in
terms of
– Apparatus, Chemicals used and their function
– Yield; Scalability
– Particle size, size distribution and morphology
– Performance of the material for its targeted function (compare and contrast)
• Which method is preferable for bulk production?
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Outline of the Report
• Title
• Aim of the report/project
• Background/Introduction
• Methodologies – Examples
– Including relevant figures/tables, etc.
• Discussion on the presented Methods
• Conclusions
• References
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Layout• Font type: Times New Roman
• Font Size: 12
• Spacing: 1.5
• Margins: 2.5 cm left, top, bottom; 2 cm right
• Total length: 8 pages, excl. figures and tables
• Minimum of 10 references –excluding www ref.– Ref style should be coherent within the document
– (pdf of references are required to be submitted)
5Due date: October 2014
TOPICS Group Members Order
Quantum dots (solar) Mikael, Katayoun
Superparamagnetic iron oxide NPs Rabia, Ness, Nejla
Si QDs Federico, Arash
Metal Nanoprticles (Plasmonics) Linnea, Kimonas
Photocatalytic material(ZnO) Chonmanart, Zhichao
Photocatalytic material (TiO2) Francesco
Metal Nanoprticles (Optics) Saravana, Öner
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Förnamn Efternamn Project Selection1 Rabia Akan2 Öner Akdik
3 Saravana Balaji Basuvalingam4 Nejla Erdal5 Ness Forcyde6 Linnea Gustafsson
7 Ching Yin Rachel Ho --8 Arash Hojabri
9 Charilaos-Kimonas Karalas
10 Chonmanart Ngampeerapong11 Zhichao Ye12 Katayoun Zahmatkesh Encheh Keikanlou13 Ming Zhu --14 Mikael Karlsson
15 Anand Chinnapandian --
Ph D students (IM3004)1 Federico Pevere2 Francesco Montecchio
Final Presentation• 15-20 min ( size of the group)
+5 min Q&A
• Coverpage w title and group members
• Scientific Content
• Clear Layout, drawings, figures, tables, etc.
• Ref on relevant pages
• ALL have to speak – NO EXCEPTION
• Keep the time
– Due w.?? (date TBA)8
Plagiarism and Self-Plagiarism
• Plagiarism: using the ideas or words of another person
without giving appropriate credit (Nat. Acad. Press
document)
• Self-Plagiarism: The verbatim copying or reuse of one’s
own research (IEEE Policy statement)
Both types of plagiarism are considered to be
unacceptable practice by most scientific
publications and by this course !
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TOPICS Group Members Order
Superparamagnetic iron oxide NPs Rabia, Nejla 1
Quantum dots (solar) Mikael, Katayoun 2
Si QDs Federico, Arash 3
Photocatalytic material(ZnO) Chonmanart, Zhichao 4
Photocatalytic material (TiO2) Francesco, Ness 5
Metal Nanoparticles (Plasmonics) Linnea, Kimonas 6
Metal Nanoprticles (Optics) Saravana, Öner 7
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