highly recommend ed -...
TRANSCRIPT
Date Received at UPGP : …………………………
Date Received by Cluster : …………………………
Date Sent for Revision : …………………………
Date Received after Correction : …………………………
Date Send to MOHE : ………………………… (Diisi oleh RMC)
JABATAN PENGAJIAN TINGGI KEMENTERIAN PENGAJIAN TINGGI
FUNDAMENTAL RESEARCH GRANT SCHEME (FRGS) SKIM GERAN PENYELIDIKAN FUNDAMENTAL
APPLICATION FORM
(Pindaan 1/2011)
One (1) copy of this form must be submitted to the Institution of Higher Education Excellence Planning Division, Department of Higher Education, Level 7, No. 2, Tower 2,
Street P5/6, Precinct 5, 62200 Putrajaya. [Incomplete Form will be rejected]
A
TITLE OF PROPOSED RESEARCH: Tajuk penyelidikan yang dicadangkan :
Ion conduction mechanism in polymer electrolyte: DC conductivity and dielectric constant analysis
B DETAILS OF RESEARCHER / MAKLUMAT PENYELIDIK
B(i)
Name of Project Leader: IC / Passport Number: Nama Ketua Projek: No. Kad Pengenalan/ Pasport:
Abdul Kariem bin Mohd Arof 590709-10-6113
B(ii)
Position (Please tick ( √ )): Jawatan (Sila tanda ( √ )): Professor Assoc. Prof. / Sen. Lect. Lecturer Profesor Prof. Madya / P. Kanan Pensyarah
B(iii)
Faculty/School/Centre/Unit (Please provide full address): Fakulti/Jabatan /Pusat/Unit (Sila nyatakan alamat penuh): Department of Physics, Faculty of Science, University of Malaya, 50603 Lembah Pantai, Kuala Lumpur
Checked by :
Kod Rujukan:
BORANG FRGS – A1 (R)
√
Highly recommended…
B(iv)
Office Telephone No.: Handphone No.: No. Telefon Pejabat: No. Telefon Bimbit:
03-79674085 012-2901653
B(v)
E-mail Address: Alamat e-mel:
B(vi)
Date of first appointment with this University: Tarikh mula berkhidmat dengan Universiti ini: 30/12/1985
B(vii)
Type of Service (Please tick ( √ )): Jenis Perkhidmatan (Sila tanda ( √ )): Permanent Contract (State contract expiry date): Tetap Kontrak (Nyatakan tarikh tamat kontrak): ____________________
C RESEARCH INFORMATION / MAKLUMAT PENYELIDIKAN
C(i)
Research Area (Please tick ( √ )): Bidang Penyelidikan (Sila tanda ( √ )):
A. Pure Science (Sains Tulen)
Chemistry Physic Biology (Kimia) (Fizik) (Biologi) Biochemistry Materials Science Mathematics and Statistics (Biokimia) (Sains Bahan) (Matematik dan Statistik)
B. Applied Science (Sains Gunaan) Chemistry Physic Biology
(Kimia) (Fizik) (Biologi)
Mathematics and Statistics Computer Science Biotechnology (Matematik dan Statistik) (Sains Komputer) (Bioteknologi)
Materials Science (Sains Bahan) C. Technology and Engineering (Teknologi dan Kejuruteraan) Mechanical & Manufacturing Electrical and Electronic Civil (Mekanikal dan Pembuatan) (Elektrikal dan Elektronik) (Awam) Material and Polymer Chemical Engineering Information and Communication (Bahan dan Polimer) (Kejuruteraan Kimia) Technology
√
√
(Teknologi Komunikasi dan Informasi)
Energy Transportation (Tenaga) (Pengangkutan)
D. Clinical and Health Sciences (Sains Kesihatan dan Klinikal) Basic Medical Sciences Pharmacy Pharmacology (Sains Perubatan Asas) (Farmasi) (Farmakologi) Medical Microbiology Parasitology Pathology (Mikrobiologi Perubatan) (Parasitologi) (Pathologi) Community Medical Prevention Clinical Surgical Clinical Medical (Perubatan Pencegahan (Klinikal Surgikal) (Klinikal Medikal) Masyarakat) Associate Health Science Dental Nursing Science (Sains Kesihatan Bersekutu) (Pergigian) (Sains Kejururawatan) E. Social Sciences (Sains Sosial) Anthropology Psychology Sociology (Antropologi) (Psikologi) (Sosiologi)
Political Science Business and Management Geography (Sains Politik) (Pengurusan dan Perniagaan) (Geografi) Economic Human Ecology Communication (Ekonomi) (Ekologi Manusia) (Komunikasi) F. Arts and Applied Arts (Sastera dan Sastera Ikhtisas) Language and Linguistic Literature Religion (Bahasa dan Linguistik) (Kesusasteraan) (Agama) Philosophy Civilization History (Falsafah) (Tamadun) (Sejarah) Art Culture Education (Seni) (Budaya) (Pendidikan) Principle and Law Built Environment Environment (Dasar dan Undang-undang) (Alam Bina- (Alam Sekitar- Aspek Kemanusiaan) Aspek Kemanusiaan) G. Natural Sciences and National Heritage (Sains Tabii dan Warisan Negara) Environment Forestry Agriculture (Alam Sekitar) (Perhutanan) (Pertanian) Marine Archaeology Geology (Marin) (Arkeologi) (Geologi) Ethnography Built Environment Culture (Etnografi) (Heritage Aspect) (Budaya) Alam Bina (Aspek Warisan)
Biodiversity (Kepelbagaian Biologi)
C(ii)
Location of Research: Tempat penyelidikan dijalankan: Centre for Ionics University Malaya, Department of Physics, Faculty of Science, University of Malaya, 50603 Lembah Pantai, Kuala Lumpur
C(iii)
Duration of this research (Maximum 36 months): Tempoh masa penyelidikan ini (Maksimum 36 bulan): Duration: 3 years Tempoh : From : 2012 Dari : To : 2015 Hingga :
C(iv)
Other Researchers: Ahli-ahli penyelidik yang lain: (Please include maximum 5 pages of curriculum vitae for each researcher)
Bil
Name Nama
IC / Passport
Number: No. Kad Pengenalan/
Pasport:
Faculty/ School/ Centre/ Unit
Fakulti/ P.Pengajian/ Pusat/Unit
Academic Qualification/ Designation
Tahap Kelayakan Akademik/Jawatan
Signature
Tandatangan
1
Zul Hazrin Zainal Abidin
770301-14-5723
Science
PhD
2
Ramesh Kasi
G6691974
Science
PhD
3
Teo Li Ping
820903-01-5734
Science
MSc
4
Mohd Hamdi Ali@Buraidah
830515-71-5025
Science
BSc
5
Woo Haw Jiunn
740814-10-5885
Science
MSc
6 Shujahadeen Bakr Aziz G2145414 Science MSc
C(v)
Research projects that have been completed or ongoing by project leader for the last three years. Please provide title of research, grant’s name, position, duration, year commence and year ending. Sila sediakan maklumat termasuk termasuk tajuk, nama geran, peranan, tempoh, tahun mula dan tahun tamat bagi penyelidikan yang sedang/telah dijalankan oleh ketua penyelidik dalam tempoh tiga tahun terakhir.
Title of Research Tajuk penyelidikan
Grant’s Name Nama Geran
Position / Role
Jawatan / Peranan
Duration Tempoh
Start Date
Tarikh mula
End Date Tarikh tamat
Ionic conductivity in filler-doped modified electrolyte
Sciencefund Principal
investigator 24 month 01/08/2007 31/07/2009
High ionic conductivity based glassy ceramic electrolytes: lithium silver vanadium oxide (LSVO)
PJP Principal
investigator 18 month 01/03/2008 31/08/2009
Electrode-electrolyte interfacial studies in lithium ion cells
FRGS Principal
investigator 37 month 01/12/2006 31/12/2009
Advanced Cathode Materials for Lithium Ion Batteries
UMRG Principal
investigator 12 month 10/12/2009 09/12/2010
Ionic Conductivity Studies on Methyl Cellulose Membranes doped with Inorganic Salts
FRGS Principal
investigator 24 month 01/12/2008 30/11/2010
Synthesis and Characterization of Nano Particles Coating For Glass And Polycarbonate Substrate
FRGS Principal
investigator 24 month 30/12/2009 29/12/2011
Studies On Liquid Electrolyte Using Lithium Bis Borate For Lithium Ion Batteries
HIRGA Principal
investigator 24 month
Februari 2010
Januari 2012
C(vi) Please provide information on academic publications that has been published by the project leader for
the last five (5) years. (Example: Journals, Books, Chapters in books, etc) Sila kemukakan maklumat berkaitan penerbitan akademik yang telah diterbitkan oleh ketua penyelidik dalam tempoh lima (5) tahun terakhir. (Contoh: Jurnal, buku, bab dalam buku, dll)
Title of publication
Tajuk penerbitan
Name of journals/books
Nama jurnal/buku
Year published
Tahun diterbitkan
Characterization of chtosan/PVA blended electrolyte doped with NH4I
Journal of Non-Crystalline Solids 2011
Structure characterization of electrodeposited zinc selenide thin films
Advanced Materials Research 2011
Controlled potential electrodeposition and characterization of znte thin films on indium tin oxides
Advanced Materials Research
2011
Ion conducting corn starch biopolymer electrolytes doped with ionic liquid 1-butyl-3-methylimidazolium hexafluorophosphate
Journal of Non-Crystalline Solids 2011
Preparation and caracterization of magnesium ion gel polymer electrolytes for application in electrical double layer capacitors
Electrochimica Acta 2011
Chitin fiber reinforced silver sulfate doped chitosan as antimicrobial coating
5th Kuala Lumpur International
Conference on Biomedical
Engineering 2011
2011
Transportation in a lithium-ion half-cell Ionics 2011
FTIR studies of plasticized poly(vinyl alcohol)-chitosan blend doped with NH4NO3 polymer electrolyte membrane
Spectrochimica Acta-Part A: Molecular and Biomolecular
Spectroscopy 2011
Application of chitosan/iota-carrageenan polymer electrolytes in electrical double layer capacitor (EDLC)
Journal of Solid State Electrochemistry
2010
Characteristics of methyl cellulose-NH4NO3-PEG electrolyte and application in fuel cells
Journal of Solid State Electrochemistry
2010
Transport studies of NH4NO3 doped methyl cellulose electrolyte
Synthetic Metals 2010
Thermoelectric Power (TEP) of semiconducting nickel-phosphate glasses
AIP Conference Proceedings 2010
Electrical properties of gamma irradiated PVdF based polymer electrolytes
AIP Conference Proceedings 2010
Energy gap calculations for ZnSxSe1-x AIP Conference Proceedings 2010
Electron energy spectrum in II-VI materials: Simplified theory
2nd International Conference on Computer Research and
Development, ICCRD 2010 2010
Characterization of inverse spinel LiNiVO4 cathode materials prepared by the sol-gel method
AIP Conference Proceedings 2010
Effect of silver nanoparticles on the DC conductivity in chitosan silver triflate polymer electrolyte
Physica B: Condensed Matter 2010
Influence of silver ion reduction on electrical modulus parameters of solid polymer electrolyte based on chitosan silver triflate electrolyte membrane
Express Polymer Letters 2010
Characteristics of TiO2/solid electrolyte junction solar cells with I
-/I3
- redox couple
Optical Materials 2010
Mechanical studies on poly (vinyl chloride)-poly (methyl methacrylate) - based polymer electrolytes
Journal of Materials Science 2010
Preparation and characterization of phenyl silicone-acrylic polyol coatings
Pigment and Resin Technology 2010
Characterizations of chitosan-based polymer electrolyte photovoltaic cells
International Journal of Photoenergy
2010
Plasticized chitosan-PVA blend polymer electrolyte based proton battery
Electrochimica Acta 2010
Conductivity studies of starch-based polymer electrolytes
Ionics 2010
Growth and sintering effects of hydrated polycrystalline Li2WO4
Ionics 2010
Effect of the reduction of silver ions to silver nanoparticles on the dielectric properties of chitosan-silver triflate electrolyte
2009 International Conference on Information and Multimedia Technology, ICIMT 2009
2009
Density functional theory calculation of adsorption of NaCl on chlorophyll
Malaysian Journal of Science 2009
The evaluation of miscibility of poly(vinyl chloride) and poly(ethylene oxide) blends by DSC, refractive index and XRD analyses
International Polymer Processing 2009
A study incorporating nano-sized silica into PVC-blend-based polymer electrolytes for lithium batteries
Journal of Materials Science 2009
Synthesis and characterization of Li4Ti5O12 Journal of Alloys and Compounds 2009
Conductivity study in PEO-LiOAc based polymer electrolyte
Materials Research Innovations 2009
Redox behaviour of crystalline LiFePO4 prepared by chemical precipitation and low temperature sterilisation
Materials Research Innovations 2009
Characterisation of Al2O3 doped hexanoyl chitosan-LiCF3SO3-EC polymer electrolytes
Materials Research Innovations 2009
On complexation between methyl cellulose and ammonium nitrate
Materials Research Innovations 2009
Spectroscopic studies of chlorophyll a from Opuntia ficus-indica
Materials Research Innovations 2009
Conductivity studies on plasticised PEO/chitosan proton conducting polymer electrolyte
Materials Research Innovations 2009
Studies on the structure and transport properties of hexanoyl chitosan-based polymer electrolytes
Physica B: Condensed Matter 2009
Ionic conductivity by correlated barrier hopping in NH4I doped chitosan solid electrolyte
Physica B: Condensed Matter 2009
Investigation of cell parameters, microstructures and electrochemical behaviour of LiMn2O4 normal and nano powders
Journal of Power Sources 2009
Ni-MH battery based on plasticized alkaline solid polymer electrolytes
Ionics 2008
Characteristics of LiMO2 (M=Co, Ni, Ni0.2Co0.8, Ni0.8Co0.2) powders prepared from solution of their acetates
Journal of Alloys and Compounds 2008
Electrical double layer capacitor with proton
conducting Ź-carrageenan-chitosan-electrolytes Functional Materials Letters 2008
Modelling of discharge behavior of a lithium ion cell
Journal of Alloys and Compounds 2008
Structural and corrosion protection analyses of coatings containing silicone-polyester resins
Pigment and Resin Technology 2008
FTIR Studies of Chitosan - Orthophosphoric Acid - Ammonium Nitrate - Aluminosilicate Polymer Electrolyte
Molecular Crystal Liquid Crystal 2008
Electrical Studies on Chitosan Based Proton Conductors and Application in Capacitors
Molecular Crystal Liquid Crystal 2008
Chemical and heat resistance of silicone-acrylic-based binder and paint system on mild steel panels
Pigment and Resin Technology 2007
Photovoltaic activity in a ZnTe/PEO-chitosan blend electrolyte junction
Solar Energy Materials and Solar Cells
2007
Dielectric and conduction mechanism studies of PVA-orthophosphoric acid polymer electrolyte
Ionics 2007
The environmental significance of cadmium in contaminated soils
Malaysian Journal of Science 2007
Photovoltaic activity in a ZnSe/PEO-chitosan blend electrolyte junction
Ionics 2007
Dielectric spectra of LiTFSI-doped chitosan/PEO blends
Ionics 2007
Modelling of electrochemical intercalation of lithium into a LiMn2O4 electrode using Green function
Journal of Power Sources 2007
Plasticized alkaline solid polymer electrolyte system
Materials Letters 2007
Investigation of mechanical properties of polyvinyl chloride-polyethylene oxide (PVC-PEO) based polymer electrolytes for lithium polymer cells
European Polymer Journal 2007
Studies on the properties of silicone resin blend materials for corrosion protection
Anti-Corrosion Methods and Materials
2007
Electrical behavior of proton-conducting chitosan-phosphoric acid-based electrolytes
Physica B: Condensed Matter 2007
Mobility and density of ions in chitosan-orthophosphoric acid-ammonium nitrate electrolytes
Physica Status Solidi (A) Applications and Materials
2007
FTIR studies of PVC/PMMA blend based polymer electrolytes
Spectrochimica Acta-Part A: Molecular and Biomolecular
Spectroscopy 2007
C(vii)
Executive Summary of Research Proposal (maximum 300 words) (Please include the background of research, literature reviews, objectives, research methodology and expected outcomes from the research project) Ringkasan Cadangan Eksekutif Penyelidikan (maksimum 300 patah perkataan) (Meliputi latar belakang penyelidikan, kajian literatur, kaedah penyelidikan, objektif dan jangkaan hasil penyelidikan)
The solid and nano-composite polymer electrolytes are the heart of electrochemical devices. The ion
conduction in polymer electrolytes is a complicated subject and is not completely understood and this remains an
obstacle in achieving the required ambient conductivity. Recent challenge is to find a low-cost membrane with
good ionic conductivity and mechanical stabilities.
More than three decades the researchers studied the conductivity as a function of temperature. The DC
conductivity versus reciprocal of temperature can be interpreted in terms of Arrhenius or Vogel–Tammann–
Fulcher (VTF) models. In Arrhenius model it was assumed that the cation transport and its contribution to
conductivity is a result of cation jump into neighbouring vacant sites and, hence, increases the ionic conductivity.
In the VTF model, the ion transport is correlated with polymer segmental motion which is related to the free
volume model. As the temperature increases, the polymer can expand easily and produce free volume to ion
conduction. The extensive and intensive survey of literature indicated that very little work has been done on
dielectric properties of ion conducting solid and nano-composite polymer electrolytes. From the correlation
between ionic conductivity and dielectric constant some insight on the ion transport can be derived. Recently the
correlation between DC conductivity and dielectric constant was shown for organic liquid electrolytes.
The main goal of this project is to understand the ion transport mechanism through the correlation
between DC conductivity and dielectric constant (ε') in solid and nano-composite polymer electrolytes.
C(viii) Detailed proposal of research project: Cadangan maklumat penyelidikan secara terperinci: (a) Research background including Hypothesis /Research Questions and Literature Reviews.
Keterangan latar belakang penyelidikan termasuk kenyataan hipotesis / persoalan penyelidikan dan kajian literatur.
The solid and nano-composite polymer electrolytes are the heart of electrochemical devices. This
component effectively separates the anode and cathode and mediates the electrochemical reaction occurring at
the electrodes through conduction of a specific ion. Electrical conduction through such a membranes occurs by
ion transport when induced by an electric field [1]. The ion conduction in polymer electrolytes is a complicated
subject and is not completely understood and this remains an obstacle in achieving the required ambient
conductivity. Recent challenge is to find a low-cost membrane with good ionic conductivity and mechanical
stabilities. The research hypothesis can be summarized in the following points:
� The dielectric constant enhancement is responsible to the increase in DC conductivity.
� Role of nano fillers dielectric constant on ion dissociation and conductivity.
� Dielectric constant values approaches a constant value at high frequencies.
It may be possible that at low salt concentration dielectric constant approach a constant value at high
frequencies. What about at high or intermediate salt concentration? At high or intermediate salt content there are
many interactions especially ion-ion interactions. Space charge regions or polarization may even occur even at
high frequencies. So how will dielectric constant achieve a constant value?. What is the role of dielectric constant
on DC conductivity?. How the DC conductivity depends on dielectric constant and temperature?.
More than three decades the researchers studied the conductivity as a function of temperature. The DC
conductivity versus reciprocal of temperature can be interpreted in terms of Arrhenius or Vogel–Tammann–
Fulcher (VTF) models. In Arrhenius model it was assumed that the cation transport and it is contribution to
conductivity is a result of cation jump into neighbouring vacant sites and, hence, increases the ionic conductivity
to a higher value [2,3]. In the VTF model, the ion transport is correlated with polymer segmental motion which is
related to the free volume model [4-7]. As the temperature increases, the polymer can expand easily and
produce free volume. Thus, ions, solvated molecules or polymer segments can move into the free volume [5].
Recently researchers hypothesized that the DC conductivity is not only a function of temperature, but is also
dependent on the dielectric constant in organic liquid electrolytes [8, 9]. The extensive and intensive survey of
literature indicated that very little work has been done on dielectric properties of ion conducting solid and nano-
composite polymer electrolytes. From the correlation between DC conductivity and dielectric constant some
insight on the ion transport can be derived. Recently the correlation between DC conductivity and dielectric
constant was shown for organic liquid electrolytes successfully.
References
[1] E. P.Chávez, R.Oviedo-Roa, G.Contreras-Pèrez, J. M.Martínez-Magadán, F. L.Castillo-Alvarado,
International Journal of Hydrogen Energy 35 (2010) 12141–12146
[2] L. M. Carvalho, P. Gueágan, H. Cheradame, A. S.Gomes, European Polymer Journal 36 (2000) 401-409
[3] L. Othman, K. W. Chew, Z.Osman, Ionics 13 (2007) 337–342
[4] I. J. A. Mertens, M. Wübbenhorst, W. D. Oosterbaan, L. W.Jenneskens, J. V. Turnhout, Macromolecules 32
(1999) 3314-3324
[5] T. Uma, T. Mahalingam, U. Stimming, Materials Chemistry and Physics 90 (2005) 245–249
[6] T. Uma, T. Mahalingam, U. Stimming, Materials Chemistry and Physics 90 (2005) 245–249
[7] J. Y. Kim, S. H. Kim, Solid State Ionics 124 (1999 ) 91 –99
[8] M. Petrowsky, R. Frech, Journal of Physical Chemistry B (2009) 5996-6000
[9] M. Petrowsky, R. Frech, Electrochimica Acta 55 (2010) 1285-1288
(b) Objective (s) of the Research
The main goal of this project is:
• To analysis the dielectric constant values at high and low frequencies at different temperatures.
• To show the correlation between DC conductivity and dielectric constant (ε') which are
evaluated from the high frequency region in impedance plots.
• To show the effect of crystallite size on DC conductivity and dielectric constant (structure-
property relationship)
(c) Methodology Kaedah penyelidikan
Please state in the form / Sila nyatakan di borang ini
1. Description of Methodology The solid and nano-composite polymer electrolytes can be prepared by the solution cast technique.
In this technique an appropriate amount of the polymer and different salts can be dissolved
separately in a suitable solvent to prepare polymer electrolytes. For this purpose the solution must
be stirred continuously with a magnetic stirrer for several hours at room temperature until
homogeneous solutions can be obtained. The solutions then must be cast into different clean and
dry petri dish and allowed to evaporate at room temperature to obtain solvent-free solid films. For
further drying the films must be keep in desiccators with blue silica gel desiccant. To prepare nano-
composite polymer electrolytes (NCPEs) the highest dielectric constant and conducting systems
must be select. Initially the polymer and the salt must be dissolving in a solvent to obtain
homogeneous solutions as described to prepare solid polymer electrolytes. To prepare NCPEs the
nano filler must be dispersed in solution and stirred to obtain a homogeneous dispersion. To obtain
solvent-free NCPE films the solutions can be cast into different clean and dry petri dish and allowed
to evaporate at room temperature. The films should be put in desiccators with blue silica gel
desiccant for further drying.
2. Flow Chart of Research Activities ( Please enclose in the Appendix)
Refer to Appendix 1
3. Gantt Chart of Research Activities (Please enclose in the Appendix)
Refer to Appendix 2
4. Milestones and Dates
(d) Expected Results/Benefit Jangkaan Hasil Penyelidikan
1. Novel theories/New findings/Knowledge Understanding of ion transport mechanism in solid and nano-composite polymer electrolyte 2. Research Publications
Publications at least 3 ISI papers
3. Specific or Potential Applications
As electrolyte materials for application in fuell cells, dye-sensitized solar cells, lithium-ion batteries and electric double-layer capacitor (EDLC)
4. Number of PhD and Masters (by research) Students
2 PhD students
3 MSc students
Planned Planned Milestone Date
Chemicals and apparatus obtained 06 / 2012 EIS results obtained and analyzed 04 / 2013 XRD, FTIR, SEM, EDX, results obtained and analyzed 09 / 2013 Report writing and project completion 12 / 2014
D ACCESS TO EQUIPMENT AND MATERIAL / KEMUDAHAN SEDIA ADA UNTUK KEGUNAAN BAGI PENYELIDIKAN INI
Equipment Peralatan
Location Tempat
XRD FTIR SEM EDX EIS
UM, AMREC-SIRIM, UTP UM, AMREC-SIRIM, UTP
UiTM, UM, AMREC-SIRIM, UTP UiTM, UM UM, UiTM
E BUDGET /BELANJAWAN
Please indicate your estimated budget for this research and details of expenditure according to the guidelines attached. Sila nyatakan anggaran bajet bagi cadangan penyelidikan ini dan berikan butir – butir perbelanjaan lengkap dengan berpandukan kepada garis panduan yang dilampirkan.
Budget details Butiran belanjawan
Amount requested by applicant
Jumlah yang dipohon oleh pemohon
Amount approved by VC/Dep.VC
(R&D)/Director of RMC Jumlah yang diluluskan oleh Naib
Canselor/ TNC (P&I)/Pengarah RMC
Year 1 Tahun 1
(RM)
Year 2
Tahun 2 (RM)
Year 3
Tahun 3 (RM)
Total
Jumlah (RM)
E(i)
Vote 11000 - Salary and wages Upah dan Elaun Untuk Pembantu Penyelidik Siswazah (GRA) Please specify Sila nyatakan secara lengkap dengan pecahannya sekali. 1 PhD student (RM 2000/ month)
2000 x 12 x 1 = 24000
2000 x 12 x 1 = 24000
2000 x 12 x 1 = 24000
2000 x 12 x 1 = 72000
Please Indicate the overall Budget
Sila nyatakan bajet secara keseluruhan
E(ii)
Vote 21000 - Travelling and Transportation/ Perjalanan dan Pengangkutan . Please specify Sila nyatakan secara lengkap dengan pecahannya sekali. International Conference National Conference Workshop or training courses
10000 3000 1000
10000 3000 1000
10000 3000 1000
30000 9000 3000
Budget details
Butiran belanjawan
Amount requested by applicant
Jumlah yang dipohon oleh pemohon
Amount approved by VC/Dep.VC
(R&D)/Director of RMC Jumlah yang diluluskan oleh Naib
Canselor/ TNC (P&I)/Pengarah RMC
Year 1
Tahun 1 (RM)
Year 2
Tahun 2 (RM)
Year 3
Tahun 3 (RM)
Total
Jumlah (RM)
E(iii)
Vote 24000 - Rental Sewaan Please specify Sila nyatakan secara lengkap dengan pecahannya sekali. XRD (RM 30/sample) FTIR (RM 30/sample) SEM (RM 30/sample) EDX (RM 30/sample)
3000 3000 3000 3000
3000 3000 3000 3000
3000 3000 3000 3000
9000 9000 9000 9000
Please Indicate the overall Budget
Sila nyatakan bajet secara keseluruhan
E(iv)
Vote 27000 - Research Materials & Supplies Bekalan dan Bahan Penyelidikan Please specify Sila nyatakan secara lengkap dengan pecahannya sekali. Poly(ethylene oxide) - 500g (RM 800/ bottle) Ethanol 2.5L (RM 500/bottle) Starch 1 kg (RM 425/bottle) Chitosan low molecular weight – 250g (RM 900) Beakers 150mL (30 x RM 55) Magnetics Bars (10 x RM 15) Dessicators (5 x RM 1110) Poly(vinyl alcohol) – 500g (RM 500) Poly(methyl methacrylate) 100g (RM 800)
Lithium
800
2500
425
1800
1650
450
5550
500
1600
800
2500
425
1800 - - -
500
1600
800 -
425
1800 - - - -
1600
2400
5000
1275
5400
1650
450
5550
1000
4800
trifluoromethanesulfonate
100g (RM 1050/ bottle)
Ammonium nitrate – 100g
(RM 1100/bottle) Ammonium iodide – 100g
(RM 900/bottle)
Potasium iodide – 100g
(RM 500/bottle)
1050
1100
900
500
1050
1100
900
500
1050
1100
900
500
3150
3300
2700
1500
E(v)
Vote 28000 - Maintenance and Minor Repair Services Baik pulih kecil dan ubahsuai Please specify Sila nyatakan secara lengkap dengan pecahannya sekali. Repair HIOKI impedance (2 × RM 5000)
10000
-
-
10000
Budget details
Butiran belanjawan
Amount requested by applicant
Jumlah yang dipohon oleh pemohon
Amount approved by VC/Dep.VC
(R&D)/Director of RMC Jumlah yang diluluskan oleh Naib
Canselor/ TNC (P&I)/Pengarah RMC
Year 1 Tahun 1
(RM)
Year 2
Tahun 2 (RM)
Year 3
Tahun 3 (RM)
Total
Jumlah (RM)
E(vi)
Vote 29000 - Professional Services Perkhidmatan Ikhtisas
-
-
-
-
Please Indicate the overall Budget
Sila nyatakan bajet secara keseluruhan
E(vii)
Vote 35000 - Accessories and Equipment Aksesori dan Peralatan Magnetic stirrer and hot plate (4 × RM 1500) Permittivity meter
6000
30000
- -
- -
6000 -
TOTAL AMOUNT
JUMLAH BESAR
114825
61175
58175
234175
F
Declaration by applicant / Akuan Pemohon (Please tick ( √ )): / (Sila tanda ( √ )):
I hereby declare that: Saya dengan ini mengaku bahawa:
1. All information stated here are accurate, KPT and IPT has right to reject or to cancel the offer without prior notice if there is any inaccurate information given. Semua maklumat yang diisi adalah benar, KPT dan IPT berhak menolak permohonan atau membatalkan tawaran pada bila-bila masa sekiranya keterangan yang dikemukakan adalah tidak benar.
2. Application of this fundamental research is presented for the Fundemental Research Grant Scheme (FRGS). Permohonan projek penyelidikan ini dikemukakan untuk memohon peruntukan di bawah Geran Penyelidikan Fundamental IPT.
3. Application of this fundamental research is also presented for the other reasearch grant/s (grant’s name and total amount) Permohonan projek penyelidikan ini juga dikemukakan untuk memohon peruntukan geran penyelidikan dari (nama geran dan jumlah dana)____________________________________
Date : Applicant’s Signature : Tarikh : Tandatangan Pemohon : ___________________________
G
Recommended by Vice Chancellor/Deputy Vice Chancellor (Research and Innovation)/Director of Research Management Center
Perakuan Naib Canselor/Timbalan Naib Canselor(P & I)/Pengarah Pusat Pengurusan Penyelidikan
Please tick ( √ ) Sila tandakan ( √ ) Recommended: Diperakukan: A. Highly Recommended Sangat Disokong B. Recommended Disokong C. Not Recommended (Please specify reason) Tidak Disokong (Sila Nyatakan Sebab) Comments: Ulasan: -------------------------------------------------------------------------------------------------------------------------------------------- -------------------------------------------------------------------------------------------------------------------------------------------- -------------------------------------------------------------------------------------------------------------------------------------------- -------------------------------------------------------------------------------------------------------------------------------------------- -------------------------------------------------------------------------------------------------------------------------------------------- -------------------------------------------------------------------------------------------------------------------------------------------- -------------------------------------------------------------------------------------------------------------------------------------------- -------------------------------------------------------------------------------------------------------------------------------------------- Name: Signature: Nama: Tandatangan: Date: Tarikh:
Note: APPLICATIONS SUBMITTED WILL BE TREATED IN FULL CONFIDENCE. THE DECISION OF THE FUNDAMENTAL RESEARCH GRANT SCHEME MAIN COMMITTEE MOHE IS FINAL. Semua permohonan dianggap sulit. Keputusan Jawatankuasa Induk Skim Geran Penyelidikan Fundamental KPT adalah MUKTAMAD.
LISTED OF REQUESTED EQUIPMENT(S) AND STRONG JUSTIFICATION
Butiran Peralatan Yang Dipohon dan Justifikasi
Equipment/Peralatan
Justification/ Justifikasi Permohonan
Magnetic stirrer
To prepare homogeneous sample.
Permittivity meter
To measure relative permittivity of sample at frequency below 50
kHz with small phase angles (to study electrode polarization)
SKIM GERAN PENYELIDIKAN FUNDAMENTAL (FRGS)
A. SYARAT-SYARAT PERMOHONAN
Bil Aspek Penilaian Butiran
1 Status PI 1. Tetap ATAU
2. Kontrak; dengan syarat mempunyai
a. Penyelidik bersama bertaraf TETAP
2 Kriteria Penyelidikan Merupakan penyelidikan yang dapat menghasilkan
suatu idea/teori/konsep/kaedah/model/proses baru;
DAN
a. Menambahbaik polisi, metodologi dan model
penyelesaian yang sedia ada; ATAU
b. Penyelidikan merangkumi isu-isu kemanusiaan
dan kemasyarakatan bagi tujuan peningkatan
nilai kehidupan dalam Negara dan sejagat;
ATAU
c. Berpotensi menyumbang kepada agenda
strategik negara
3 Tempoh Penyelidikan Maksimum tiga (3) tahun
4 Jumlah Peruntukan 1. Tidak melebihi RM 250,000 bagi setiap projek
penyelidikan
2. Jumlah maksimum bagi pecahan peruntukan adalah
RM 125,000 / tahun
5 Hasil Penerbitan Menerbitkan sekurang-kurangnya tiga (3)
penerbitan dalam jurnal berindeks
6 Modal Insan
Bil Tempoh Modal Insan
1 Tiga (3) tahun 1. Seorang (1) pelajar PhD
ATAU
2. Dua (2) orang pelajar
sarjana
2 Dua (2) tahun 1. Seorang (1) pelajar
sarjana
B. Peraturan Kewangan
VOTE DEFINISI SILING SYARAT
Vote 11000
(Upah dan elaun
GRA)
Upah dan elaun membiayai
Pembantu Penyelidik Siswazah
(GRA) sahaja
1. RM 2000 (Pelajar PhD)
2. RM 1500 (Pelajar
sarjana)
Vote 21000
(Perjalanan &
Pengangkutan)
Kerja lapangan dan menghadiri
persidangan/seminar/bengkel
dalam dan luar negara
1. Tidak melebihi 40%
daripada jumlah
keseluruhan
2.Peruntukan menghadiri
persidangan mestilah ≤
RM 15,000 atau 20 %
dari jumlah keseluruhan
peruntukan
Perjalanan Luar
Negara:
1. Ketua Penyelidik
sahaja dibenarkan
2.Seminar/Persidanga
n/Benkel/Kolokium
bagi membentangkan
hasil penyelidikan
sahaja
Vote 24000
(Sewaan)
Bagi peralatan, pengangkutan,
bangunan dan barangan yg
terlibat dengan penyelidikan
Vote 27000
(Bekalan &
Bahan
Penyelidikan)
Bahan mentah dan bahan
penyelidikan sahaja
Vote 28000
(Baik Pulih &
Ubahsuai)
1. Perbelanjaan baik pulih &
pengubahsuaian kecil bangunan,
makmal, peralatan berkaitan
penyelidikan
2. Penyelenggaraan peralatan
sedia ada juga dibenarkan
Vote 29000
(Perkhidmatan
Ikhtisas)
Merangkumi 2 kategori :
Perkhidmatan
Percetakan, honororium, khidmat
profesional, konsultansi,
penggunaan komputer, proses
data dll
Perkhidmatan Khas
Kos menghadiri kursus, program
sangkutan jangka pendek (1 kali
sahaja & tidak melebihi 3 bulan)
Bagi Perkhidmatan Khas,
perbelanjaan tidak
melebihi 10% dari
keseluruhan peruntukan
Vote 35000
(Aksesori &
peralatan)
Peralatan khas dan aksesori
(bagi meningkatkan keupayaan
peralatan sedia ada)
Tidak melebihi 40% dari
jumlah keseluruhan
peruntukan
Perlu kemukakan
senarai dan justifikasi
alat yang dipohon