Данилова М.И., МФТИ. Продвижение вуза в международных рейтингах: подходы МФТИ. IBS
Обсудить материал и узнать много нового по теме можно в экспертном сообществе IBS, посвященном вопросам информатизации вузов: https://www.facebook.com/groups/UniFuture/
Материалы всероссийской практической конференции «Современный вуз – на пике новых информационных технологий» (Казань, 22-23 мая 2014). Организаторы: Министерство образования и науки Республики Татарстан, Поволжская государственная академия физической культуры, спорта и туризма и компания IBS
ITJEMAST5(2): Latest Research from International Transaction Journal of Engin...drboon
An After-Stay Satisfaction Survey of Residents Living in Prefabricated Concrete Structures in Thailand
Hydrothermal Assisted Microwave Pyrolysis of Water Hyacinth for Electrochemical Capacitors Electrodes
Group Technology Paves the Road for Automation
Effect of Laser Priming on accumulation of Free Proline in Spring Durum Wheat (Triticum turgidum L.) under Salinity Stress
Livable Public Open Space for Citizen’s Quality of Life in Medan, Indonesia
My research is focused on the development and characterization of stimuli (e.g. electric field/magnetic field) responsive smart polymeric materials.
I worked with dielectric elastomer (e.g. VHB F9473PC, VHB 4905 , PDMS) to yield electric field actuated smart structures. Then I started working with PVDF-based polymers . My study includes lab scale casting of thin films, electrical & mechanical characterization of polymer/elastomer, realization of smart structures using electroactive polymers(EAPs) and analytical modelling of smart materials.
Данилова М.И., МФТИ. Продвижение вуза в международных рейтингах: подходы МФТИ. IBS
Обсудить материал и узнать много нового по теме можно в экспертном сообществе IBS, посвященном вопросам информатизации вузов: https://www.facebook.com/groups/UniFuture/
Материалы всероссийской практической конференции «Современный вуз – на пике новых информационных технологий» (Казань, 22-23 мая 2014). Организаторы: Министерство образования и науки Республики Татарстан, Поволжская государственная академия физической культуры, спорта и туризма и компания IBS
ITJEMAST5(2): Latest Research from International Transaction Journal of Engin...drboon
An After-Stay Satisfaction Survey of Residents Living in Prefabricated Concrete Structures in Thailand
Hydrothermal Assisted Microwave Pyrolysis of Water Hyacinth for Electrochemical Capacitors Electrodes
Group Technology Paves the Road for Automation
Effect of Laser Priming on accumulation of Free Proline in Spring Durum Wheat (Triticum turgidum L.) under Salinity Stress
Livable Public Open Space for Citizen’s Quality of Life in Medan, Indonesia
My research is focused on the development and characterization of stimuli (e.g. electric field/magnetic field) responsive smart polymeric materials.
I worked with dielectric elastomer (e.g. VHB F9473PC, VHB 4905 , PDMS) to yield electric field actuated smart structures. Then I started working with PVDF-based polymers . My study includes lab scale casting of thin films, electrical & mechanical characterization of polymer/elastomer, realization of smart structures using electroactive polymers(EAPs) and analytical modelling of smart materials.
Analysis of photokeratitis related risk factors in welders of pt. pal indones...eSAT Journals
Abstract During welding activities, there are eye-related electromagnetic light and ultraviolet is one of them. After 2 to 10 hours of ultraviolet exposure, a welder will complain of pain, sandy feeling, and other eye-related complaints. A disease caused by ultraviolet derived from welding activities is called photokeratitis. The purpose of the present study was to analyze photokeratitis-related risk factors in welders. This study was a quantitative analytic survey using a cross-sectional design involving 50 respondents. Results of fluorescein test of 50 welders showed that 29 welders were photokeratitis-positive. Logistic regression test of respondents with UV exposure intensity of 0.3 mW/cm2 showed that those respondents had 5.55 times higher risk of developing photokeratitis than respondents exposed to an UV intensity of less than 0.3 mW/cm2. Respondents aged 41 years and above had 7.09 times higher risk of developing photokeratitis than respondents aged below 41 years. Respondents rarely taking vitamin A had 15.87 times higher risk of developing photokeratitis than those frequently taking vitamin A. Respondents always experiencing eye complaints had 12.82 times higher risk of experiencing photokeratitis than those never had eye-related complaints. Respondents occasionally using personal protective equipment had 29.41 times higher risk of developing photokeratitis than those always using personal protective equipment. Respondents with the length of exposure of more than 8 hours had 4.87 times higher risk of developing photokeratitis than those with the length of exposure of less than 8 hours. The variable representing the most dominant risk factor for photokeratitis respondents was the use of personal protective equipment with 29.41 times higher risk than other independent variables. Keywords: welders, ultraviolet radiation, photokeratitis, general engineering
Salam all
Are we Malsyians be happy in 2020 , where everbody will at least have any income rm40K permonth (with only a SPM certificate) , whats going to happen to Malauysi. Wassalam. Por fDR Nor Akmal bin Wahab
Analysis of photokeratitis related risk factors in welders of pt. pal indones...eSAT Journals
Abstract During welding activities, there are eye-related electromagnetic light and ultraviolet is one of them. After 2 to 10 hours of ultraviolet exposure, a welder will complain of pain, sandy feeling, and other eye-related complaints. A disease caused by ultraviolet derived from welding activities is called photokeratitis. The purpose of the present study was to analyze photokeratitis-related risk factors in welders. This study was a quantitative analytic survey using a cross-sectional design involving 50 respondents. Results of fluorescein test of 50 welders showed that 29 welders were photokeratitis-positive. Logistic regression test of respondents with UV exposure intensity of 0.3 mW/cm2 showed that those respondents had 5.55 times higher risk of developing photokeratitis than respondents exposed to an UV intensity of less than 0.3 mW/cm2. Respondents aged 41 years and above had 7.09 times higher risk of developing photokeratitis than respondents aged below 41 years. Respondents rarely taking vitamin A had 15.87 times higher risk of developing photokeratitis than those frequently taking vitamin A. Respondents always experiencing eye complaints had 12.82 times higher risk of experiencing photokeratitis than those never had eye-related complaints. Respondents occasionally using personal protective equipment had 29.41 times higher risk of developing photokeratitis than those always using personal protective equipment. Respondents with the length of exposure of more than 8 hours had 4.87 times higher risk of developing photokeratitis than those with the length of exposure of less than 8 hours. The variable representing the most dominant risk factor for photokeratitis respondents was the use of personal protective equipment with 29.41 times higher risk than other independent variables. Keywords: welders, ultraviolet radiation, photokeratitis, general engineering
Salam all
Are we Malsyians be happy in 2020 , where everbody will at least have any income rm40K permonth (with only a SPM certificate) , whats going to happen to Malauysi. Wassalam. Por fDR Nor Akmal bin Wahab
Over five years research and development experience in silicon wafer based solar photovoltaics. Specialized in characterization of silicon wafer and solar cells. Developed and establish methods for the measurement of diffusion length in higher lifetime wafers, front and back surface recombination in silicon solar cell.
I hold Doctor of Philosophy (Ph.D.) Physics of Universiti Teknologi Malaysia with specialization in environmental impact assessments. My area of research has been in the fields of radiation assessments, groundwater pollution evaluation, remediation and radiological risk forensics which represent one of the main activities. The effort in these fields was clearly noticed due to the presence of necessary scientific contributions in radiation dose assessments, groundwater monitoring, contamination channels, and remediation of radiotoxicity risks. The excellence of these inputs has provided a baseline for civil engineers and water resources managements on safer areas to drill boreholes for quality and consumable groundwater-based drinking, free from radionuclides. My research innovation has contributed greatly in providing solutions to many complicated groundwater and environmental problems which have been recorded as outstanding discoveries to the readers in scientific community by publishing all the novelties and scientific facts in high quality scholarly Journals guided by Thompson Reuters Journal Citation Reports (ISI-Web of Knowledge). Most of the discoveries have equally shared in International conferences in Hungary, Singapore and Malaysia with the proceedings published in ISI and Scopus indexed Journals. In addition, some of the scientific contributions yielded awards from International Doctoral Fellowship through Universiti Teknologi Malaysia that covered tuition fee and other benefits during my doctoral programme
1. Karwan Wasman Qadir Lecturer and Researcher (PhD)
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Curriculum vitae
Karwan Wasman Qadir, (Organic Electronics)
Current research interests are Dye Sensitized Photo sensor, organic device physics,
semi-conducting polymers and organic materials. His research activities mainly
involve in the fabrication and characterization of organic solar photovoltaic devices
and organic sensors.
Lecturer and researcher
at Department of Physics, College of Education, Salahaddin University-Hawler, 44001
Erbil, Kurdistan Region-Iraq.
PhD degree completed at Low Dimensional Materials Research Centre (LDMRC),
Department of Physics, Faculty of Science, University of Malaya, 50603 Kuala Lumpur,
Malaysia.
Mobile: (009647504567563) E-mail: karwanphysicist@gmail.com
00601114311474 karwan.qadir@su.edu.krd
karwan.wasman@gmail.com
karwan@siswa.um.edu.my, and
qadirkarwan@yahoo.com
Education:
2005 B.Sc. in Physics at Salahaddin University-Hawler, 44001 Erbil, Kurdistan
Region-Iraq.
2010 M.Sc. in Solar radiation at Salahaddin University-Hawler, 44001 Erbil,
Kurdistan Region-Iraq. with the thesis entitled: “Study and Analysis of Global Solar
Radiation in Kurdistan Region-Iraq”. Supervised by: Associate Prof. Dr. Mohammed
Aziz Saeed.
2016 PhD in Experimental Physics (Physics)-Organic Electronics at University of
Malaya, Kuala Lumpur, Malaysia. with the thesis entitled “Study of Organic
Semiconductor Based Photovoltaic Devices: Light Sensors and Solar Cells”.
Supervised by: Associate Prof. Dr. Khaulah Sulaiman.
Professional and Academic Positions Held:
Professionally trained, licensed, and experienced in teaching and enhancing students'
appreciation of physics, the science of matter and energy and their interactions.
3. Karwan Wasman Qadir Lecturer and Researcher (PhD)
Page 3 of 4
Teaching:
Undergraduate and Diploma Teaching,
Teaching Physics Science at Secondary School from 2-6 secondary stages, at
Badawa Private School, 44001 Erbil, Kurdistan Region-Iraq, (2004-2005).
Graded quizzes, prepared lab materials and experiments, then assisted students in
Properties of Matter Lab, Atomic Lab. and Electronic Lab at Department of Physics,
College of Education, Salahaddin University-Hawler, 44001 Erbil, Kurdistan Region-
Iraq, for 1st and 3rd undergraduate stages (2005-2012).
Graded quizzes, prepared lab materials and experiments, then assisted students in
Nuclear Lab at Department of Physics, College of Science, Salahaddin University-
Hawler, 44001 Erbil, Kurdistan Region-Iraq, for the 4th undergraduate stage (2011-
2012).
Graded quizzes, prepared lab materials and experiments, then assisted students in
Optics and Laser Lab at Department of Communication, Foundation of Technical
Education-Hawler, 44001 Erbil, Kurdistan Region-Iraq, for 2nd stage (2010-2012).
Management:
2005-2008, Assistant Physicist
2006-2012, Managing Director in Kurdistan Physicists’ Syndicate
2008-2010, Physicist
2010-2012, Assistant Lecturer
2012- Present, Lecturer
Supervising of Undergraduate project:
Applications of Solar Radiation- Undergraduate final project at Department of Physics,
College of Education, University of Salahaddin-Hawler, 44001 Erbil, Kurdistan Region-
Iraq, (2011).
Bluetooth and the effect on the human's body- Undergraduate final project at
Department of Physics, College of Education, University of Salahaddin-Hawler, 44001
Erbil, Kurdistan Region-Iraq, (2012).
Summary of qualifications:
1. Professional in Windows and Microsoft Office 2004
2. MapInfo Program 2010
3. Teaching Method 2010
4. Civil Defense Training 2011
5. e-learning Training 2011
6. MATLAB Program Training 2011
7. EndNote (software) 2012
8. Origin (software) 2013
4. Karwan Wasman Qadir Lecturer and Researcher (PhD)
Page 4 of 4
Some Training:
• Workshop on “Dye-sensitized Solar Cells: Theory and Laboratory Practical”,
Centre for Ionics, Department of Physics, Faculty of Science, University of Malaya,
50603 Kuala Lumpur, Malaysia. August 20th & 21st, 2013.
• Workshop on “Conducting a Literature Search & Writing Review Paper”, Centre for
Research Services, University of Malaya, 50603 Kuala Lumpur, Malaysia. Nov. 4th &
5th, 2015.
• Workshop on “How to Publish in High Quality ISI-Indexed Journal”, Faculty of
Computer Science and Information Technology, University of Malaya, 50603 Kuala
Lumpur, Malaysia. November 17th & 18th, 2015.
• Workshop on “Impedance Spectroscopy: Theory, Applications and Laboratory
Instruction” Centre for Ionics, Department of Physics, Faculty of Science, University
of Malaya, 50603 Kuala Lumpur, Malaysia. April 12th-14th, 2016.
• As an organizing committee member for “Workshop on Nano-Materials for Energy
and Environment”, Department of Physics, Faculty of Science, University of Malaya,
50603 Kuala Lumpur, Malaysia. April 21st, 2016.
Participation
1. “PhD GOT IT PROGRAMME”, Institute of Graduate Students, University of Malaya,
Malaysia, May 28th & 29th, 2014.
2. University of Malaya Three Minute Thesis Competition 2016, Faculty level, (UM3MT
2016), March 23rd, 2016.
Seminars
Collaboration seminar, “Performance enhancement of NiTsPc based photo sensor using
treated TiO2 NPs film”, King Faisal Convention Center, King AbdulAziz University, Jeddah,
Saudi Arabia, December 4th, 2014.
Languages:
Kurdish (native), English, Arabic