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Prof Dr. Asaad Ismail | Medical Physics | Best Researcher Award

Physics chairman at Salahaddin University-erbil, Iraq

Ali Rezaei is an accomplished R&D and Product Manager specializing in nanotechnology and nanobiotechnology. With a strong research background, he has been involved in the development of high-performance nanocomposite materials. Ali has a reputation for his innovative approach and fast learning, contributing to successful projects in research and development. He was selected as the top researcher at Shahid Beheshti University in 2022 and is also a member of the National Elite Foundation of Iran. Aliā€™s strengths lie in his creativity, reliability, and persistence in solving complex problems and driving innovation.

Profile

Education šŸŽ“

Bachelor of Biology (2015-2019) Gonbad Kavous University, Gonbad-e Qabus, Golestan, Iran GPA: 17.06 Ali completed his undergraduate studies in biology, with a focus on animal sciences. His academic performance during this period laid the groundwork for his future pursuits in nanobiotechnology. Master of Nanobiotechnology (2019-2022) Shahid Beheshti University, Tehran, Iran GPA: 19.36 Ali excelled in his master’s program, specializing in nanobiotechnology, which paved the way for his involvement in cutting-edge research and development in nanomaterials and practical applications of nanotechnology.

Experience šŸ’¼

R&D and Product Manager With one year of experience in the National Elite Foundation of Iran, Ali has worked as an R&D and Product Manager, contributing to the research and development of innovative nanocomposite materials. He has a deep understanding of product design, development, and registration processes. Ali gained significant experience as a research assistant in the nanobiotechnology laboratory of Shahid Beheshti University, where he honed his skills in nanotechnology and material science. His role involved researching high-performance nanomaterials and leading projects on practical applications of nanotechnology.

Awards and Honors šŸ†

Top Researcher Award (2022) Ali was recognized as the top researcher at Shahid Beheshti University in 2022 for his outstanding contributions to nanotechnology research. National Elite Foundation Membership Ali was selected as a member of the National Elite Foundation of Iran, a prestigious acknowledgment of his exceptional skills, research achievements, and contributions to innovation in the field of nanotechnology.

Research Focus šŸ”¬

Aliā€™s research focuses on nanobiotechnology, particularly in the development and application of nanocomposite materials. His work aims at designing and producing high-performance nanomaterials for practical applications. He is passionate about innovative nanotechnology, constantly seeking new resources, techniques, and solutions to push the boundaries of product development and registration in the nanotechnology sector.

Conclusion

Ali Rezaei is a highly suitable candidate for the Best Researcher Award, thanks to his strong academic background, significant research experience, and recognition as a top researcher. His skills and attributes position him well for future contributions to the field of nanotechnology. By addressing areas for improvement, such as expanding his research portfolio and increasing his publication output, Ali can further enhance his qualifications and continue to make impactful advancements in his field.

Publication Top Notes

 

  • Indoor Radon Concentration and Its Health Risks in Selected Locations in Iraqi Kurdistan Using CR-39 NTDs
    • Authors: AH Ismail, MS Jaafar
    • Source: 4th International Conference on Bioinformatics and Biomedical Engineering, 2010
    • Summary: This study examines indoor radon levels across various locations in Iraqi Kurdistan, assessing their potential health risks. Utilizing CR-39 nuclear track detectors (NTDs), the research highlights the implications of elevated radon exposure in residential settings.
  • Interaction of Low-Intensity Nuclear Radiation Dose with Human Blood: Using the New Technique of CR-39 NTDs for an In Vitro Study
    • Authors: AH Ismail, MS Jaafar
    • Source: Applied Radiation and Isotopes, 69(3), 559-566, 2011
    • Summary: The paper investigates how low-intensity nuclear radiation doses affect human blood using CR-39 NTDs. It emphasizes the innovative application of these detectors in assessing biological responses to radiation.
  • Design and Construct Optimum Dosimeter to Detect Airborne Radon and Thoron Gas: Experimental Study
    • Authors: AH Ismail, MS Jaafar
    • Source: Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms, 2011
    • Summary: This research focuses on creating an efficient dosimeter for measuring airborne radon and thoron levels. The experimental approach involves optimizing the dosimeter’s design to enhance detection accuracy.
  • Measurement of Radium Content and Radon Exhalation Rates in Building Material Samples Using Passive and Active Detecting Techniques
    • Authors: AH Zakaria, SJ Mohamed, AH Ismail
    • Source: International Journal of Scientific & Engineering Research, 4(9), 1827-1831, 2013
    • Summary: This publication details the evaluation of radium content and radon exhalation rates in various building materials. It contrasts passive and active detection techniques, providing insights into material safety regarding radon emissions.
  • Experimental Measurements on CR-39 Response for Radon Gas and Estimating the Optimum Dimensions of Dosimeters for Detection of Radon
    • Authors: AH Ismail, MS Jaafar
    • Source: Proceedings of the 3rd Asian Physics Symposium, Bandung, Indonesia, 2009
    • Summary: This work discusses the response characteristics of CR-39 detectors to radon gas, aiming to determine optimal dosimeter dimensions for effective radon detection.
  • Study of Change in the Efficiency of CR-39 After Storage for Different Product Companies by Using TRACK_TEST Program
    • Author: AH Ismail
    • Source: Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms, 2009
    • Summary: The study evaluates the efficiency changes in CR-39 detectors after varying storage conditions, employing the TRACK_TEST program for analysis.
  • Radon Exhalation Rate from Building Materials Using Passive Technique Nuclear Track Detectors
    • Authors: ZA Hussein, MS Jaafar, AH Ismail, AA Battawy
    • Source: International Journal of Scientific & Engineering Research, 4(7), 1276-1282, 2013
    • Summary: This publication assesses the radon exhalation rates from building materials using passive nuclear track detectors, contributing valuable data for understanding building material safety.
  • Relationship Between Radon Concentration, Ventilation Rate, and Male Infertility: A Case Study in Iraqi Kurdistan
    • Authors: AH Ismail, MS Jaafar
    • Source: International Journal of Low Radiation, 7(3), 175-187, 2010
    • Summary: The study investigates the correlation between indoor radon concentrations, ventilation rates, and male infertility cases in Iraqi Kurdistan, indicating potential health implications of poor indoor air quality.
  • Analysis of Radon Concentrations in Drinking Water in Erbil Governorate (Iraqi Kurdistan) and Its Health Effects
    • Authors: AH Ismail, SO Haji
    • Source: Tikrit Journal of Pure Science, 13(3), 9, 2008
    • Summary: This research analyzes radon levels in drinking water within the Erbil Governorate, discussing the potential health effects associated with exposure through water consumption.
  • Comparison of Alexandrite and Diode Lasers for Hair Removal in Dark and Medium Skin: Which is Better?
    • Authors: FH Mustafa, MS Jaafar, AH Ismail, KN Mutter
    • Source: Journal of Lasers in Medical Sciences, 5(4), 188, 2014
    • Summary: This paper compares the efficacy of different laser types for hair removal on varying skin tones, contributing to dermatological practices.
  • Measurement of Radon Activity Concentration in Iraqi Kurdistan Soil by Using CR-39 Nuclear Track Detectors
    • Author: AH Ismail
    • Source: Salahaddin University-Erbil, 2004
    • Summary: This publication focuses on measuring radon activity concentrations in the soil of Iraqi Kurdistan, emphasizing environmental health risks.
  • Hazards Assessment of Radon Exhalation Rate and Radium Content in the Soil Samples in Iraqi Kurdistan Using Passive and Active Detecting Methods
    • Authors: AH Ismail, MS Jaafar
    • Source: International Journal of Environmental and Ecological Engineering, 4(10), 2010
    • Summary: The study assesses radon exhalation rates and radium content in soil samples, utilizing both passive and active detection methods to evaluate potential environmental hazards.
  • Indoor Radon Concentration Measurement in Selected Factories in Northern and Central Iraq
    • Authors: AA Battawy, MS Jaafar, NF Tawfiq, IS Mustafa, AH Ali, ZA Hussein
    • Source: Measurement, 4(5), 2013
    • Summary: This publication measures indoor radon concentrations in various factories, highlighting occupational health risks associated with radon exposure.
  • Modelling of Indoor Radon Activity Concentration Dynamics and Its Validation Through In-Situ Measurements on Regional Scale
    • Authors: S Mancini, M Guida, A Cuomo, D Guida, AH Ismail
    • Source: AIP Conference Proceedings, 1982(1), 2018
    • Summary: The study models indoor radon activity concentration dynamics, validating the model with in-situ measurements to assess regional radon exposure risks.
  • Measurements of Indoor Radon-222 Concentration Inside Iraqi Kurdistan: Case Study in the Summer Season
    • Authors: ZA Hussein, MS Jaafar, AH Ismail
    • Source: Journal of Nuclear Medicine and Radiation Therapy, 4(143), 2013
    • Summary: This case study examines indoor radon-222 concentrations in Iraqi Kurdistan during the summer, providing critical data on seasonal variations in radon levels.
  • Influences of Different Low-Level Laser Power at Wavelength 635 nm for Two Types of Skin: Dark and Light
    • Authors: F Hamad, M Jaafar, A Hamid, A Omar, Z Timimi, H Houssein
    • Source: Proceedings of the 7th IMT-GT UNINET and the 3rd International PSU-UNS Conference, 2009
    • Summary: This research evaluates the effects of laser power variations on different skin types, contributing to the field of dermatological laser treatments.
  • Radiation Exposure of Leukemia Blood Samples and Its Impacts on the Density of RBC, WBC, and PLT: In Vitro
    • Authors: AH Ismail, MA Hamad, EMT Harki
    • Source: Scientific Research Publishing, 2012
    • Summary: The study assesses the impact of radiation exposure on leukemia blood samples, focusing on the changes in blood cell densities.
  • The Effect of Laser Wavelength in Photodynamic Therapy and Phototherapy for Superficial Skin Diseases
    • Authors: FH Mustafa, MS Jaafar, AH Ismail, HAA Houssein
    • Source: 2011 IEEE International Conference on Imaging Systems and Techniques, 232-236, 2011
    • Summary: This research explores how different laser wavelengths affect photodynamic therapy and phototherapy outcomes for superficial skin diseases.
  • Influence of the Static Magnetic Field on Red Blood Cells Parameters and Platelets Using Tests of CBC and Microscopy Images
    • Authors: BT Mustafa, SP Yaba, AH Ismail
    • Source: Biomedical Physics & Engineering Express, 6(2), 025004, 2020
    • Summary: The study investigates the effects of static magnetic fields on red blood cells and platelets, utilizing comprehensive blood tests and microscopy for analysis.
Asaad Ismail | Medical Physics | Best Researcher Award

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