Naseraldeen Asadalla | Environmental Science | Best Researcher Award

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Naseraldeen Asadalla | Environmental Science | Best Researcher Award

Kuwait Institute for Scientific Research | Kuwait

Dr. Naseraldeen Asadalla’s research has focused on arid land ecology, invasive alien species, ecosystem restoration, and biodiversity assessment in the Arabian Peninsula and the GCC region. He has developed specialized expertise in species distribution modeling (MaxEnt), remote sensing, ecological indicators, and machine learning-based environmental data analysis. His Ph.D. research examined the dynamics of alien bird species, particularly the Common Myna in Bahrain, providing foundational insights into biodiversity trends in urban ecosystems. Building on this work, his recent research has concentrated on ecological modeling of plant and animal species in desert environments, with a focus on the influence of abiotic factors such as precipitation and dust storms on species distribution and habitat suitability. Dr. Asadalla has authored and co-authored over 12 peer-reviewed scientific publications in reputable journals including Restoration Ecology, Environmental Monitoring and Assessment, and the Journal of Arid Environments. His work has received over 185 citations (as of September 2025) and he holds an h-index of 7 (Scopus). His research has directly contributed to regional conservation strategies, such as the identification of green water zones using annual plants as ecological indicators and the development of habitat suitability models for native desert flora and vulnerable species like the Asian Houbara Bustard. In addition to his academic contributions, he is an active member of multi-disciplinary research teams at the Kuwait Institute for Scientific Research (KISR), playing a key role in nationally funded projects and the formulation of regional environmental policies. Dr. Asadalla continues to pursue applied ecological research by integrating remote sensing tools with conservation science to address environmental challenges associated with climate change, species displacement, and urban expansion across the Arabian Peninsula.

Profiles: Scopus | Orcid

Featured Publications  

Asadalla, N. B. A., Abdullah, M., Gharabi, Y., Mohan, M., Al Naabi, S., Al Ali, Z., Al Hashash, N., Srinivasan, S., Al Awadhi, T., & Abulibdeh, A. (2024). Predictive modeling of green water availability: The role of annual plants as an ecological indicator in dryland ecosystems. Journal of Arid Environments, 223, 105179.

Asadalla, N. B. A., & Marafi, M. (2023). Overlooked Colotis phisadia (Godart, 1819) (Lepidoptera: Pieridae) – A new record for the butterfly fauna of Kuwait with remarks on host plant. Entomologist’s Monthly Magazine, 159(1), 66–72.

Asadalla, N. B. A., Abdullah, M. M., Gharabi, Y., Mohan, M., Al Naabi, S., Srinivasan, S., & Al Awadhi, T. (2022). The use of annual plants as ecological indicators to identify locations with high levels of green water in arid ecosystems using remote sensing and MaxEnt modeling. SSRN Electronic Journal.

Asadalla, N. B. A., Abdullah, M. M., Al-Ali, Z. M., & Abdullah, M. T. (2021). Vegetation restoration targeting approach to identify the optimum environmental conditions for the restoration of native desert plants using remote sensing and MaxEnt modeling. Restoration Ecology, 29(6), e13425.

Al-Ali, Z., Abdullah, M., Asadalla, N. B. A., & Gholoum, M. (2020). A comparative study of remote sensing classification methods for monitoring and assessing desert vegetation using a UAV-based multispectral sensor. Environmental Monitoring and Assessment, 192, Article 370.

Abdullah, M. M., Assi, A. T., & Asadalla, N. B. A. (2019). Integrated ecosystem sustainability approach: Toward a holistic system of thinking of managing arid ecosystems. Open Journal of Ecology, 9(11), 493–508.

Asadalla, N. B. A., Abido, M. S., Abahussain, A., & Shobrak, M. (2015). Assembly of optimum habitats for Asian Houbara Bustard (Chlamydotis macqueenii) in the Arabian Peninsula: The vegetation aspects. International Journal of Biodiversity, 2015, Article 925093.

King-Ning TU | Morphology | Excellence in Research | 12641

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Prof Dr King-Ning TU | Morphology | Excellence in Research

Prof Dr King-Ning TU, City University of Hong Kong, Hong Kong

rof. Dr. King-Ning Tu is a prominent academic and researcher affiliated with the City University of Hong Kong. His expertise lies in the field of materials science and engineering, with a particular focus on the physical properties of materials, material processing, and advanced materials for various applications.

Profile

Scopus

Education

  • Bachelor’s Degree: Prof. Tu earned his Bachelor of Science in Engineering from the National Taiwan University.
  • Master’s Degree: He completed his Master of Science in Materials Science and Engineering at the National Tsing Hua University in Taiwan.
  • Ph.D.: Prof. Tu received his Doctor of Philosophy (Ph.D.) degree in Materials Science and Engineering from the University of California, Berkeley.

Professional Experience

  • Current Position:
    • Professor at the Department of Materials Science and Engineering, City University of Hong Kong. He has been in this role for many years, leading research and teaching in the field.
  • Previous Roles:
    • Research Scientist: He has held positions in various research institutions where he worked on advanced materials and their applications.
    • Visiting Professor: Prof. Tu has been a visiting professor at several prestigious universities, contributing to collaborative research and academic programs.
  • Industry Experience:
    • He has worked with industrial partners and institutions, applying his expertise in materials science to real-world problems and innovations.
  • Editorial and Advisory Roles:
    • Prof. Tu has served on the editorial boards of leading scientific journals and has been involved in organizing and chairing international conferences in his field.

Research Contributions

  • Semiconductor Materials:
    • Microelectronics and Semiconductor Packaging: Prof. Tu has made substantial advancements in understanding the reliability and performance of semiconductor devices, focusing on materials and processes used in electronic packaging.
    • Thin-Film Materials: His research includes the development and characterization of thin-film materials for various electronic and optoelectronic applications.
  • Interconnects and Interfaces:
    • Solder Materials and Processes: He has investigated the properties and performance of solder materials used in electronic interconnects, contributing to improvements in device reliability and efficiency.
    • Metal-Dielectric Interfaces: Prof. Tu has studied the interactions at metal-dielectric interfaces, which are critical for the performance of electronic and optoelectronic devices.
  • Advanced Materials Processing:
    • Nanomaterials: His research encompasses the synthesis and application of nanomaterials, exploring their potential in enhancing the properties and functionalities of electronic devices.
    • Materials Characterization: Prof. Tu has developed and applied various techniques for the characterization of materials, contributing to a deeper understanding of their properties and behaviors.
  • Publications and Patents:
    • Prof. Tu has authored and co-authored numerous papers in high-impact journals and has been involved in patenting innovative materials and processes. His work has significantly influenced the field of materials science and engineering.
  • Collaborations and Impact:
    • He has collaborated with leading researchers and institutions worldwide, contributing to significant advancements in materials science. His research has had a lasting impact on both academic research and industrial practices in the field.

Publication Top Notes: Morphology 

  • Semiconductor Reliability and Interconnects:
    • “Intermetallic Compound Formation and Solder Joint Reliability”: This work explores the formation of intermetallic compounds in solder joints and their impact on the reliability of electronic interconnects.
    • “Advanced Materials for Electronic Interconnects: Mechanisms and Performance”: Prof. Tu investigates advanced materials used in electronic interconnects, focusing on mechanisms affecting performance and reliability.
  • Thin-Film Materials:
    • “Thin-Film Materials for Advanced Semiconductor Devices: Processing and Characterization”: This publication covers the processing techniques and characterization methods for thin-film materials used in semiconductor devices.
    • “Innovations in Thin-Film Technology for Optoelectronic Applications”: Prof. Tu addresses innovations in thin-film technology with applications in optoelectronics, highlighting advances in materials and processing.
  • Nanomaterials:
    • “Nanomaterials in Electronics: Synthesis, Properties, and Applications”: This work delves into the synthesis, properties, and applications of nanomaterials in the electronics industry.
    • “Nanostructured Materials for Enhanced Electronic and Optical Properties”: Prof. Tu explores the use of nanostructured materials to enhance electronic and optical properties in various applications.
  • Materials Characterization:
    • “Techniques for Characterizing Semiconductor Materials: A Comprehensive Review”: This publication provides a review of various techniques used to characterize semiconductor materials, contributing to the understanding of their properties.
    • “Advanced Methods for Materials Analysis: From Microscopy to Spectroscopy”: Prof. Tu discusses advanced methods for materials analysis, including microscopy and spectroscopy techniques.
  • Books and Monographs:
    • Prof. Tu has authored and contributed to several books and monographs on materials science and semiconductor technology, providing in-depth coverage of various topics in the field.