Fahad Alhashmi Alamer | Conductive Textile | Best Researcher Award

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Prof. Fahad Alhashmi Alamer, Conductive Textile, Best Researcher Award

Doctorate at Umm AL-Qura University, Saudi Arabia

Summary:

Prof. Fahad Alhashmi Alamer is a distinguished researcher and academician in the field of materials science and engineering. With a Ph.D. from a prestigious university in the USA and a strong academic background, he has made significant contributions to the development and application of advanced materials, particularly in the areas of flexible conductors, conductive fabrics, and supercapacitor technology.

Throughout his career, Prof. Alamer has held various leadership positions at Umm Al-Qura University (UQU), including Vice Dean roles and Head of the Physics Department. His tenure in academic leadership underscores his commitment to academic development, quality enhancement, and community service within the university.

Professional Profile:

Scopus Profile

Google Scholar Profile

πŸ‘©β€πŸŽ“Education & Qualification:

Dr. Fahad Alhashmi Alamer has a distinguished academic background, as evidenced by his educational achievements:

  • Ph.D. from the University of [Redacted], USA, conferred in 2013.
  • M.Sc. from Umm Al-Qura University, K.S.A, attained in 2009.
  • B.Sc. from Umm Al-Qura University, K.S.A, obtained in 1999.

Professional Experience:Β  Β  Β  Β  Β 

Prof. Fahad Alhashmi Alamer has held several prominent academic leadership positions at Umm Al-Qura University (UQU). Notably, he served as the Vice Dean of the College of Applied Sciences for Development and Quality from May 24, 2019, to January 24, 2021, where he played a key role in enhancing academic standards and promoting quality initiatives. Additionally, he assumed the role of Head of the Physics Department at UQU from June 30, 2019, to December 23, 2019, demonstrating his commitment to academic excellence in the field of physics. Earlier in his career, Prof. Alamer served as the Vice Dean for Academic Development and Community Service at UQU from June 14, 2017, to May 23, 2019, and from July 6, 2015, to June 13, 2017, where he spearheaded various initiatives aimed at fostering academic growth and community engagement. Furthermore, he held the position of Head of the Physics Department at UQU from November 27, 2014, to November 11, 2015, and served as the Vice Dean of the Common First Year for Branches at UQU from June 17, 2014, to December 11, 2014. Throughout these roles, Prof. Alamer demonstrated strong leadership, dedication to academic development, and a commitment to serving the university community.

Β Research Interest:

Dr. Fahad Alhashmi Alamer’s research interests span across several key areas within materials science and engineering. Primarily, he focuses on the electro-optical properties of electrochromic devices utilizing conjugated polymers. Additionally, he is involved in the preparation and characterization of conductive cotton fabrics employing conductive polymers. Furthermore, his work extends to the fabrication and characterization of conductive cotton fabrics using carbon-based materials like graphene, graphite, and carbon nanotubes. Lastly, Dr. Alamer investigates the impact of nanoparticles on the electrical properties of conductive fabrics. Through his research endeavors, he contributes to advancing knowledge and innovation in these critical fields.

Publication Top Noted:

Highly Conductive Flexible Conductor Based on PEDOT:PSS/MWCNTs Nano Composite

  • Authors: F. Alhashmi Alamer
  • Journal: Crystals
  • Year: 2023
  • Citation count: 1

The Influence of Titanium Oxide Nanoparticles and UV Radiation on the Electrical Properties of PEDOT:PSS-Coated Cotton Fabrics

  • Authors: F. Alhashmi Alamer, R.F. Beyari
  • Journal: Materials
  • Year: 2023
  • Volume: 16
  • Citation count: 1

Thermo-Electric Properties of Conductive Cotton Fabrics: Synergistic Effects of Graphene Doping Ratio and Amount

  • Authors: F.A. Alamer, K. Althagafy, H. Alghamdi, A. Saeedi, S.A. Ahmed
  • Journal: Journal of Inorganic and Organometallic Polymers and Materials
  • Year: 2023

Revolutionizing capacitor technology: conductive cotton fabrics based graphite as supercapacitor capacitors

  • Authors: F.A. Alamer, E. AlQwaizani, K. Althagafy
  • Journal: Carbon Letters
  • Year: 2023

Fabrication of Conductive Fabrics Based on SWCNTs, MWCNTs and Graphene and Their Applications: A Review

  • Authors: F. Alhashmi Alamer, G.A. Almalki
  • Journal: Polymers
  • Year: 2022
  • Volume: 14
  • Citation count: 7

 

 

Gebiaw T. Ayele | Land use change impact study

Posted on by Best Paper Award
Dr. Gebiaw T. Ayele: Leading Researcher in Land use change impact study

πŸŽ‰ Congratulations Dr. Gebiaw T. Ayele on Winning the Best Paper Award! πŸ† Your dedication to research, mentorship, and collaboration with international teams is truly commendable. This award is a testament to your outstanding work and the impact it has on the broader community.

Professional Profile:

πŸ“š Professional Summary:

  • PhD in Hydrology from Griffith University, Australia.
  • MSc in Hydraulic and Water Resources; BSc in Water Resources.
  • Certificate in Integrated Decision Support System; Best Practice Drinking Water Quality Management; Manage Conflict through Negotiation (Prevention/De-Escalation); Construction Contract Management.
  • Expertise in catchment erosion, sediment and pollutant modeling for policy decisions.
  • Proficient in hydraulic, hydrodynamic, water quality, and sediment transport models.
  • Skilled in farm to basin-scale simulation models (SWAT) integrating climate, soil, land use, and landscape data.
  • Extensive experience in GIS and remote sensing (ERDAS, ENVI) for water resources applications.
  • Coding capability for big data management on HPC clusters.
  • Recognized in the “talent pool” at the NSW Department of Planning and Environment.
  • Currently a ‘Water Quality Processes Officer’ monitoring 32 water treatment plants and regulated towns.
  • 15+ years of experience as a hydrologist in industry, teaching, research, and consultancy in Africa, Australia, and New Zealand.
  • Recognized by Australian Freshwater Sciences Society; 2021 INTECOL International Wetlands Conference.
  • Received over 10 grants; 45+ peer-reviewed publications.

πŸŽ“ Education:

  • PhD in Hydrology and Water Resources, Griffith University, Australia (2023).
  • MSc in Hydraulics and Water Resources, Arba Minch University, Ethiopia (2012).
  • BSc in Water Resources Engineering, Bahir Dar Institute of Technology, Ethiopia (2007).

🏒 Professional Experience:

  • Water Quality Processes Officer, Victoria, Australia (May 2023-present).
  • Doctoral Researcher, Griffith University, Australia (Feb 2019–April 2023).
  • Teaching and Research, Australian Rivers Institute Griffith University, Australia (Dec 2016–April 2023).
  • Consultant, University Lecturer, and Researcher, Blue Nile Water Institute and Bahir Dar University, Ethiopia (Nov 2012–Dec 2015).
  • Research Assistant, International Water Management Institute (IWMI), East Africa, Addis Ababa, Ethiopia (Apr 2011–Oct 2012).
  • Research Assistant, Horn of Africa Regional Environment Centre and Network – Demand Driven Action Research Program (HoARECN-DDAR) (Apr 2010–Jun 2012).
  • Instructor and Department Head, Department of Rural Water Supply and Sanitation, Bahir Dar Polytechnic College, Ethiopia (Oct 2007–Oct 2008).

🌐 Professional Memberships:

  • International Society of Limnology (SIL).
  • New Zealand Freshwater Sciences Society (NZFSS).
  • Australian Freshwater Sciences Society (AFSS).
  • National Wetland Trust of New Zealand (NWT).
  • American Geophysical Union (AGU).
  • New Zealand Lakes Water Quality Society (LWQS).
  • International Association of Sedimentologists (IAS).

πŸ† Awards and Grants:

  • Australian Rivers Institute International Conference Travel Grant 2022.
  • AFSS Bill Williams Scholarship 2022.
  • Griffith University IEIS Grant 2022.
  • NZFSS V.H. Jolly Award 2022.
  • Multiple research and publication grants 2022, 2023.
  • Griffith University GUIPRS 2019.
  • University of Strathclyde Excellence Scholarship Award 2018.
  • Blue Nile Water Institute 2014.
  • IWMI-CGIAR-CCAFS 2012.
  • HoARECN 2011.
  • Arba Minch University Graduate Scholarship 2010.

πŸ“ Selected Conference Presentations and Invited Talks:

  • Reconstructing 1000 years of climate data for lake modeling (Nov 2022).
  • Modeling the impact of forestry on water quality for Lake Okareka (Nov 2022).
  • Non-stationarity of streamflow and nutrient loads in a temperate catchment (Oct 2021).

πŸ“– Publications Top Noted:

  • Non-stationarity of streamflow and nutrient loads in a temperate catchment (Environmental Monitoring and Assessment, 2023).
  • Land use and climate change effects on streamflow and nutrient loads (Land, 2023).
  • Relationship of attributes of soil and topography with land cover change in Ethiopia (Remote Sensing, 2022).
  • Sediment yield and reservoir sedimentation in dynamic watersheds (Water, 2021).
  • Terrain effects on spatial variability of soil properties (Soil Systems, 2019).
  • Time series land cover mapping in northern Ethiopia (Air, Soil and Water Research, 2018).
  • Streamflow and sediment yield prediction in the Upper Blue Nile River Basin (Water, 2017).
  • Spatio-temporal analysis of water storage variation in East Africa lake basins (Journal of Hydrology, 2022).

The paper “Streamflow and Sediment Yield Prediction for Watershed Prioritization in the Upper Blue Nile River Basin, Ethiopia” by Dr. Gebiaw T. Ayele and collaborators focuses on predicting streamflow and sediment yield to aid in prioritizing watersheds in the Upper Blue Nile River Basin, Ethiopia. Here’s a breakdown of the important content:

🌍 Context:

  • Location: Upper Blue Nile River Basin, Ethiopia.
  • Objective: Prioritize watersheds based on streamflow and sediment yield predictions.

πŸ“Š Methodology:

  • Models Used: The study likely employed hydrological models for prediction.
  • Data Sources: Climate, land use, soil, and landscape data were probably integrated into the models.
  • Spatial Scale: Assessment at the watershed level.

🚰 Key Findings:

  • Streamflow Prediction: Insights into the expected water flow in the Upper Blue Nile River Basin.
  • Sediment Yield Prediction: Understanding the likely sediment transport patterns.

πŸ—ΊοΈ Application:

  • Watershed Prioritization: The predictions contribute to identifying priority areas for conservation or management interventions.

πŸ€” Significance:

  • Resource Management: Helps in planning and managing water resources efficiently.
  • Environmental Conservation: Supports initiatives for soil and water conservation.

🌐 Contextualization:

  • Regional Implications: Findings might be relevant for broader regional water resource management strategies.
  • Climate Resilience: Insight into streamflow is crucial for addressing climate resilience in the region.

πŸ“ˆ Scientific Contribution:

  • Model Validation: If applicable, the study likely validated the predictive models used.
  • Advance in Knowledge: Contributes to the scientific understanding of hydrological processes in the Upper Blue Nile River Basin.

πŸ” Further Reading:

  • Researchers, policymakers, and practitioners in hydrology and water resource management would find value in the detailed methodology and findings.