Md Arfan Ali | Climate Change | Best Researcher Award

Dr. Md Arfan Ali | Climate Change | Best Researcher Award

Air Pollution and Climate Change Expert at Regional Center for Climate Change, NCM, Jeddah, KSA, Saudi Arabia

Dr. Md Arfan Ali’s research interests span a wide range of topics within the field of atmospheric sciences. He is particularly focused on aerosol remote sensing, which involves the detection and measurement of aerosol properties from a distance, typically using satellite or ground-based instruments. His work in climate change examines the broad impacts of changing atmospheric conditions on global and regional climates. Dr. Ali also investigates aerosol pollution, including the study of aerosol optical depth (AOD) and particulate matter such as PM1, PM2.5, and PM10. His research extends to gaseous pollutants, where he examines the levels and effects of pollutants like ozone (O3), nitrogen dioxide (NO2), sulfur dioxide (SO2), carbon monoxide (CO), and carbon dioxide (CO2).

Professional Profiles:

πŸ“š Education:

Dr. Md Arfan Ali has pursued an extensive and diverse academic journey across multiple prestigious institutions. In 2010, he completed his Bachelor of Science degree in Applied Physics and Electronic Engineering from the University of Rajshahi, Bangladesh. Building on this foundation, he earned a Master of Science degree in the same field from the same university in 2012. In 2016, Dr. Ali broadened his academic expertise by obtaining a second Master of Science degree in Meteorology from King Abdulaziz University. His academic pursuit continued to expand internationally when he completed his PhD in Marine Sciences from Nanjing University of Information Science and Technology in 2022. Currently, Dr. Ali is engaged in postdoctoral research at the School of Atmospheric Science, Lanzhou University, a position he commenced in 2023. His diverse educational background underscores his multidisciplinary expertise and dedication to advancing knowledge in his field.

Professional Experience:

Dr. Md Arfan Ali has held notable positions throughout his career, reflecting his expertise and commitment to his field. From September 2, 2017, to 2021, he served as the Assistant Managing Editor for the Journal of Earth Systems and Environment, hosted by King Abdulaziz University. In this role, he contributed significantly to the editorial processes and the dissemination of important research in Earth systems and environmental studies. Following this, Dr. Ali took on the role of Guest Editor for the MDPI journal Atmosphere. Starting on December 26, 2022, and continuing through June, he managed the Special Issue titled “Aerosols and Trace Gas Emissions: Methods and Applications,” overseeing the curation and review of cutting-edge research articles in this critical area of atmospheric science.

Awards:

Dr. Md Arfan Ali has been the recipient of several prestigious fellowships and awards throughout his academic career. In 2013, he was awarded the King Abdulaziz University International Postgraduate Research Scholarship, which supported his advanced studies and research initiatives. In 2019, Dr. Ali was granted the Chinese Government Scholarship Ph.D. Scheme by the China Scholarship Council (CSC), enabling him to pursue his doctoral studies with significant financial support and recognition. Further highlighting his excellence, in 2020, he received the Chinese Government Excellent International Student Scholarship, awarded by the Chinese Ministry of Education, acknowledging his outstanding academic performance and contributions as an international student.

Research Interest:

Dr. Md Arfan Ali’s research interests span a wide range of topics within the field of atmospheric sciences. He is particularly focused on aerosol remote sensing, which involves the detection and measurement of aerosol properties from a distance, typically using satellite or ground-based instruments. His work in climate change examines the broad impacts of changing atmospheric conditions on global and regional climates. Dr. Ali also investigates aerosol pollution, including the study of aerosol optical depth (AOD) and particulate matter such as PM1, PM2.5, and PM10. His research extends to gaseous pollutants, where he examines the levels and effects of pollutants like ozone (O3), nitrogen dioxide (NO2), sulfur dioxide (SO2), carbon monoxide (CO), and carbon dioxide (CO2). Air quality modeling is another key area of his expertise, involving the use of computational models to predict and analyze air quality and pollution dispersion. Additionally, Dr. Ali explores the effects of air pollution on human health, assessing how exposure to various pollutants can impact public health outcomes. His research further delves into aerosol-cloud interactions, studying how aerosols influence cloud formation and properties, as well as aerosol radiative forcing, which investigates the impact of aerosols on the Earth’s radiation balance and climate system.

πŸ“šPublications :

Assessment of CMIP6 performance and projected temperature and precipitation changes over South America

Authors: M. Almazroui, M. Ashfaq, M. N. Islam, I. U. Rashid, S. Kamil, M. A. Abid, E. O’Brien, M. A. Ali

Citations: 149

Year: 2021

Air pollution scenario over Pakistan: Characterization and ranking of extremely polluted cities using long-term concentrations of aerosols and trace gases

Authors: S. K. M. Bilal, A. Mhawish, J. E. Nichol, Z. Qiu, M. Nazeer, M. A. Ali, G. de Leeuw, R. C

Citations: 95

Year: 2021

Air Pollution Scenario over China during COVID-19

Authors: J. E. Nichol, M. Bilal, M. A. Ali, Q. Z.

Citations: 91

Year: 2020

Classification of aerosols over Saudi Arabia from 2004–2016

Authors: M. A. Ali, J. E. Nichol, M. Bilal, Z. Qiu, U. Mazhar, M. Wahiduzzaman

Citations: 56

Year: 2020

Assessment of AOD variability over Saudi Arabia using MODIS Deep Blue products

Authors: M. J. Butt, M. E. Assiri, M. A. Ali

Citations: 53

Year: 2017

Analysis of AOD from MODIS-Merged DT–DB Products Over the Arabian Peninsula

Authors: M. A. Ali, M. Assiri

Citations: 45

Year: 2019

Spatiotemporal Investigations of Multi-Sensor Air Pollution Data over Bangladesh during COVID-19 Lockdown

Authors: Z. Qiu, M. A. Ali, J. E. Nichol, M. Bilal, P. Tiwari, B. A. Habtemicheal, M. Almazroui

Citations: 42

Year: 2021

Seasonal Aerosol Optical Depth (AOD) Variability Using Satellite Data and its Comparison over Saudi Arabia for the Period 2002–2013

Authors: M. A. Ali, M. Assiri, R. Dambul

Citations: 41

Year: 2017

Investigations of MODIS AOD and cloud properties with CERES sensor based net cloud radiative effect and a NOAA HYSPLIT Model over Bangladesh for the period 2001–2016

Authors: M. A. Ali, M. M. Islam, M. N. Islam, M. Almazroui

Citations: 38

Year: 2018

Evaluation and comparison of CMIP6 models and MERRA-2 reanalysis AOD against Satellite observations from 2000 to 2014 over China

Authors: M. N. I. Ali, M. Bilal, Y. Wang, Z. Qiu, J. E. Nichol, G. de Leeuw, S. Ke, A. Rashid

Citations: 34

Year: 2021

 

Dalal Bayahia | Environmental Science | Best Researcher Award

Assoc Prof Dr. Dalal Bayahia | Environmental Science | Best Researcher Award

Researcher at umm Alqura university, Saudi Arabia

Dalal Bayahia is a dedicated and skilled physicist with a Bachelor of Science degree in Physics from the University College in Al-Qunfudhah, Umm Al-Qura University, Makkah, Saudi Arabia. Since 2016, she has been actively involved in physics research at the university, where she has demonstrated a strong knowledge of physics principles and theories. Her practical skills include conducting scientific experiments, analyzing data, and using various laboratory equipment and instruments. Dalal’s excellent mathematical and analytical abilities enable her to solve complex problems in physics. She is proficient in scientific programming languages like Python, enhancing her ability to perform data analysis and simulation tasks. Additionally, Dalal possesses exceptional written and verbal communication skills, making her adept at presenting research findings and collaborating with other researchers. Her ability to work both independently and collaboratively in a team highlights her adaptability and versatility in diverse research settings.

Professional Profile:

πŸ“š Education:

Dalal Bayahia earned her Bachelor of Science degree in Physics from the University College in Al-Qunfudhah, Umm Al-Qura University, Makkah, Saudi Arabia, with a very good academic standing. This accomplishment signifies her dedication to the field of physics and her commitment to academic excellence. During her studies, she would have gained a strong foundation in various branches of physics, including classical mechanics, electromagnetism, quantum mechanics, and thermodynamics. Additionally, she likely developed analytical and problem-solving skills, which are essential for a career in physics or any field that requires critical thinking and scientific reasoning. Her education would have also included practical laboratory work, providing her with hands-on experience in conducting experiments and analyzing data. Overall, her educational background prepares her well for further studies or a professional career in physics or related fields.

πŸ“ProfessionalΒ Experience:

Since 2016, Dalal Bayahia has been actively engaged as a researcher in the Department of Physics at University College in Al-Qunfudhah, Umm Al-Qura University, Makkah, Saudi Arabia. In this role, she likely conducts research in various areas of physics, possibly focusing on specific topics or projects within her field of expertise. As a researcher, she would be expected to contribute to the advancement of knowledge in physics through experimentation, data analysis, and academic writing. Her work may involve collaborating with other researchers, presenting findings at conferences, and publishing research papers in scientific journals. This experience would have provided her with valuable insights into the research process and further honed her skills in scientific inquiry and analysis.

πŸ› οΈ Skills:

Dalal Bayahia’s skills are well-rounded and tailored to her field of physics. Her strong foundation in physics principles and theories allows her to navigate complex concepts with ease. This knowledge is complemented by her proficiency in conducting scientific experiments and analyzing data, indicating her practical experience in research. Her familiarity with various laboratory equipment and instruments further showcases her hands-on expertise in experimental physics. Additionally, her excellent mathematical and analytical skills equip her to tackle challenging problems in physics and related disciplines effectively. Dalal’s proficiency in scientific programming languages like Python enhances her ability to handle data analysis and simulation tasks, which are integral to modern physics research. Moreover, her exceptional written and verbal communication skills enable her to effectively communicate her findings and collaborate with peers in the scientific community. Her ability to work both independently and collaboratively in a team underscores her adaptability and versatility, essential traits for success in research environments.

 

Publications :

Title: Spectroscopic and electrical changes in Lr-115 type II nuclear track detector before and after gamma radiation

Author: D.S. Bayahia

Journal: Nuclear Instruments and Methods in Physics Research, Section B: Beam Interactions with Materials and Atoms

Year: 2024

Volume: 547

Citations: 0

Title: Dopant concentration influence on the optical properties of NiO thin films doped by Al and Nb deposited by DC and RF magnetron sputtering

Authors: D. Bayahia, W. Shirbeeny

Journal: Surface and Interface Analysis

Year: 2022

Volume: 54

Issue: 10

Pages: 1078–1086

Citations: 0