TAZDIK PATWARY PLATEAU
Address:
House-17, Road-1, Block-E, Ranavola, Uttara, Dhaka | +8801677971533 | ptazdik@gmail.com
Education[edit source]
Bangladesh University of Engineering and Technology, BUET
BSc in Materials and Metallurgical Engineering 2017
Undergrad thesis: A heuristic proposition of efficient copper-electrodeposited p-type thin film for CZTS solar cell
CGPA 3.05 out of 4.00
Rajuk Uttara Model College
Higher Secondary School Certificate 2011
GPA 5.00 out of 5.00
Dhanmondi Govt. Boys’ High School
Secondary School Certificate 2009
GPA 5.00 out of 5.00
Research Interest[edit source]
Thin Films, Photovoltaic Materials, Surface Engineering, Composite Materials, Metal Matrix Composites, Magnetic Shape Memory Alloy, Solar Energy Materials (Graphene), Materials Synthesis& Characterization
Research Experience[edit source]
PROJECT TITLE: INVESTIGATION OF DEPOSITED CZTS AND CIGS THIN FILMS FOR SOLAR APPLICATION [1]
POSITION: UNDERGRADUATE RESEARCH ASSISTANT
JOB RESPONSIBILITIES: DEVELOPING CUO AND CU2O THIN FILMS AND ANALYZE THE CHARACTERISTICS [2]
PROJECT TITLE: POLYMER REINFORCED NATURAL FIBER COMPOSITES [3]
POSITION: UNDERGRADUATE RESEARCH ASSISTANT
JOB RESPONSIBILITIES: EVALUATION OF TENSILE PROPERTIES OF JUTE FIBER-POLYPROPYLENE COMPOSITES
Publications & Papers[edit source]
A heuristic proposition of efficient copper-electrodeposited p-type thin film for CZTS solar cell[4]
1st Author & Presenter
Published in International Conference on Electrical, Computer and Communication Engineering, CUET, Coxbazar, Bangladesh
A Cheap Way to Develop Absorber Layer of Solar Cell Using CuO Thin Film [5]
1st and only Author
Accepted & Presented in 4th International Conference on Advances in Electrical Engineering (ICAEE), IUB Campus, Dhaka, Bangladesh.
Evaluation of Tensile Strength of Jute Fiber Reinforced Polypropylene Composite [6]
1st and only Author
Published in Volume 6, Issue 6, December 2017, Pages: 149-153, Journal of Advances in Materials, SciencePG.
A Comparative Study Between Potentiostat Electro-deposited Cuprous Oxide and Cupric Oxide Thin films for Photovoltaic Use [7]
1st Author
Journal manuscript submitted on Journal of Engineering Materials and Manufacture. [Submitted]
Oral & Poster Presentation[edit source]
Catastrophic Failure Occurred in Three Incidents and Explanations
Poster Presentation
Seminar on History of Materials Failure, BUET, Dhaka - 1000.
A Cheap Way to Develop Absorber Layer of Solar Cell Using CuO Thin Film
Conference Presentation
4th International Conference on Advances in Electrical Engineering (ICAEE), IUB Campus, Dhaka, Bangladesh.
A heuristic proposition of efficient copper-electrodeposited p-type thin film for CZTS solar cell
Conference Presentation
International Conference on Electrical, Computer and Communication Engineering, CUET, Cox’s Bazar, Bangladesh.
Future Research Plans[edit source]
i. Three Dimensional (3D) Printed Electrodes for Electrochemical Reduction of N2 [8]
ii. High efficient Perovskite Photovoltaics for absorber layer [9]
Awards[edit source]
Participant on seminar of Leadership Skills & Social awareness in Engineering and Business Sector
Author & Participant on Conference of Electrical, Computer and Communication Engineering, CUET.
Participant on seminar about Astrophysics and Relativity Theory Explanation
Participant in Prothom Alo Math Olympiad, National level, position 23.
Award of GPA 5.00 in SSC on Aktel-Nondan Society
Award of 3rd position on Physics Olympiad in Rajuk College Science Fair
Award of 2nd position on Math Olympiad in Rajuk College Science fair
Participants in a Project “efficient lead acetate batteries- environment friendly”, School Level, Dhanmondi Regional Science Fair
Teaching Experience[edit source]
Shikkha(NGO)
Mathematics & English 2011-now
Taught Street children and poor people
Lecturer- Physics (part-time) 2012-13
CSD College, Uttara, Dhaka
Lecturer-Physics (part-time) 2014
Sunrise College, Dhaka
Private Tuition 2011-now
Physics, chemistry & math
Related Experience[edit source]
Internship
Quality Control Section,
Rolling Plant, Abul Khair Steel
Internship
Electro- Slag Melting Unit
Melting Plant, Abul Khair Steel
Internship
Human Resource Department
Plain Sheet Unit, Abul Khair Steel
Factory Visits[edit source]
Ashuganj Fertilizer and Chemical Company Limited
Mohammadia Steel Ltd
Bandar Steel Ltd
BSRM Steel
KSRM Steel
RSRM Steel
SS Steel Ltd.
Languages[edit source]
English- Second Language
IELTS- Overall 6.5
Writing- 7.5, Reading-6.5, Listening-6, Speaking- 6
English Language Proficiency Grade B2
Bangla, Native Language
GRE Test Score[edit source]
Quantative= 165 (89%)
Verbal= 141 (15%)
AWA= 3.5 (42%)
Overall= 306
Profiles[edit source]
1. Researchgate [10]
2. Google Scholar [11]
ABSTRACT of the Publications[edit source]
A HEURISTIC PROPOSITION OF EFFICIENT COPPER-ELECTRODEPOSITED P-TYPE THIN FILM FOR CZTS SOLAR CELL
ABSTRACT: This paper represents a copper deposition on copper substrate using potentiostatic method. Here, deposited copper is p-type thin film where the solution can be of various salts such as Na2SO4.10H2O, NaHCO3, and KNO3. For this research, the chosen solution was CuSO4.5H2O is used. P-type copper is deposited in different parameters which were changed several times to get good quality deposition on Cu cathode. The changeable parameters that have been introduced in this paper are temperature control by heating, time, potential difference, concentration of CuSO4 solution. The parameters that has been taken as constant are current density, frequency etc. From this deposited copper substrate, the morphological operations that have been done are SEM, EDS, X-ray diffraction (XRD), UV-Vis spectrometry. For these lab works chosen samples concentration was 0.2M CuSO4, temperature was 65 degree Celsius. Potential was -0.55V where time was 40 minutes. Different types of microstructures and graphs were observed in results of these lab works. With the help of these results, the photo-chemical behavior of the deposited p-type copper film has been observed which can be used in developing more efficient solar cells with photovoltaic effects.
EVALUATION OF TENSILE STRENGTH OF ENVIRONMENT FRIENDLY JUTE FIBER REINFORCED POLYPROPYLENE
Abstract: Natural fiber (such as flax, hemp, jute, kenaf, etc.) reinforced polymer resin composites are biodegradable composites as they are using fibers from renewable sources. It is also better than synthetic fibers (such as glass, carbon, ceramic fibers, etc.) in a sense of environmental cause. In this research work, jute fiber reinforced polypropylene matrix composites have been developed using hot compression molding technique. Various process parameters are used such as fiber condition (untreated and alkali treated), fiber sizes (1, 2 and 4 mm) and percentages (5%, 10% and 15% by weight) in this research work. Tensile test and optical microscopy are used for characterization. Effect of tensile strength has a linear relation with fiber size and fiber percentage but after a certain size and percentage, the tensile strength shows an inverse relation with the fiber length and fiber percentage. There is no significant change has been observed for treated and untreated jute fiber reinforcement.
A CHEAP WAY TO DEVELOP ABSORBER LAYER OF SOLAR CELL USING CUO THIN FILM
Abstract: This paper illustrates a proposition of developing a ptype absorber layer of copper oxide thin film by electro deposition. Potentiostatic method of electro deposition was used to make this cheap layer. Generally, crystalline silicon doped with trivalent elements, is used to make this p-type layer. Instead of using crystalline silicon CuO is used here. As the cost of copper is less than silicon, total cost is reduced so far. This CuO thin film can be developed in many ways like sputtering, physical vapor deposition (PVD, Chemical vapor deposition (CVD) etc. Among them electrolysis using three electrodes system is the most cost efficient. Here, deposited copper oxide makes p-type thin film where the solution can be of various salts such as Na2SO4.10H2O, NaHCO3, and KNO3. For this research, the chosen solution was CuSO4.5H2O is used. Four different parameters were altered several times to get good quality deposition. The changeable parameters are temperature control by heating, time, potential difference, concentration of CuSO4 solution. The parameters that have been taken as constant are current density, frequency, magnetic field etc. Clean and rinsed copper plate is used as substrate which is arranged as cathode. From this deposited copper substrate, the morphological operations that have been done are SEM, X-ray diffraction (XRD), UV-Vis spectrometry. For these lab works chosen samples concentration was 0.2M CuSO4, temperature was 60◦C. Potential was -0.5V where time was 40 minutes. From the results of characterization experiment, band gap was measured to compare the designed work with the conventional with the help of market research. Different types of microstructures and graphs were observed in results of these lab works. The photolytic behavior of the deposited CuO film has been tested which can be used as absorber layer of cost efficient solar cells with photovoltaic effects.
A Comparative Study Between Potentiostat Electro-deposited Cuprous Oxide and Cupric Oxide Thin films for Photovoltaic Use
ABSTRACT: To withstand in the rising demand for energy while fuel and chemical energy are becoming rare, the development in the production of solar energy has become a necessity. There is a variety of solar cells, among them thin film photovoltaic is more popular because of its low-cost production and good efficiency. Nowadays, copper or copper oxide has become popular to make thin film layers; such as CZTS, CIGS, CIS etc. Unfortunately, the efficiency of these thin films is less than 30%. In order to obtain better efficacy, an investigation of the layers of thin films is needed. So, this research particularly targets to reach at a point to discuss the properties of copper and its oxides. In case of making the thin film layers, potentiostat electro-deposition was the chosen method where bath composition of CuSO4.5H2O, temperature, time, potential difference were the variable parameters. The best-deposited layers were obtained in 0.2 M concentration, 40 minutes, -0.5 V potential difference and 65◦C. Hence, physical properties like thickness and hardness, and characterization properties like X-ray diffractometry (XRD), scanning electron microscopy (SEM), UV-Vis spectrometry are observed to compare cupric oxide (CuO) and cuprous oxide (Cu2O) thin films. CuO thin film shows better stability and rigidity than the Cu2O thin film. But the thin film layer of cuprous oxide illustrates good homogeneity and nodular form. From the above-mentioned test data, band gap has been measured for each deposited film and the CuO thin film layer is raked out having a better band energy gap than the Cu2O thin film layer.
Personal Information[edit source]
Date of Birth : 25th November 1992
Mail Address: House-17, Road-1, Block-E, Ranavola, Uttara, Dhaka, postcode: 1230, Bangladesh.
Phone No. +880-1677971533