Dr. Jabrah Alkorbi | Functional Nanomaterials Award | Best Researcher Award

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Dr. Jabrah Alkorbi | Functional Nanomaterials Award | Best Researcher Award

Dr. Jabrah Alkorbi , The university of Sheffield, Saudi Arabia

Jabrah Naji Alkorbi is a highly skilled Analytical Chemist with over a decade of experience in academia and research. Based in Saudi Arabia, she is a Lecturer in the Department of Chemistry at Prince Sattam bin Abdulaziz University. Jabrah’s expertise spans surface analysis of layered polymer brushes, rapid capillary electrophoretic separation, and advanced analytical techniques. She holds a PhD in Chemistry from the University of Sheffield, where her research focused on XPS depth profiling of polymer brushes. She is fluent in Arabic and English and has strong technical skills in Microsoft Office, Origen Lab, CASA, and Nanoscope. Passionate about education, Jabrah excels in classroom management, curriculum development, and research supervision. Beyond academia, she actively participates in conferences and has authored impactful publications in nanomaterials and analytical chemistry.

Professional Profile:

Orcid

Evaluation for “Best Researcher Award”

Suitability Summary

Dr. Jabrah Naji Alkorbi demonstrates a strong profile as a candidate for the “Best Researcher Award” based on her extensive academic background, professional achievements, and innovative contributions to chemistry. Here’s a detailed analysis of her suitability

🎓Education

Jabrah Naji Alkorbi holds a PhD in Chemistry from the University of Sheffield (2023), specializing in XPS Depth Profiling Analysis of Polymer Brushes using an Argon Gas Cluster Ion Source. Her research contributed novel insights into surface characterization techniques. She earned a Master’s in Analytical Chemistry from University College Cork, where her thesis focused on rapid capillary electrophoretic separation of pyocyanin and quorum sensing signaling molecules. Jabrah also completed a Postgraduate Diploma at Dublin International Foundation College, excelling in Academic English, Research Methods, and ICT. Her academic journey began with a Bachelor’s in Chemistry (Scientific and Educational) from Najran University, where she achieved an 84% grade. This robust educational foundation reflects her dedication to chemistry and research, underscoring her technical prowess and passion for advancing analytical methodologies.

🏢Professional Experience

Jabrah Naji Alkorbi is a seasoned educator and researcher with significant experience in academia. As a Lecturer in the Department of Chemistry at Prince Sattam bin Abdulaziz University, she delivers engaging lectures, conducts laboratory sessions, and supervises student research projects. Previously, she trained under the Saudi Ministry of Education, where she taught chemistry courses, designed lesson plans, and evaluated student performance. Her work is marked by innovative teaching techniques and a commitment to quality education. In research, Jabrah has advanced analytical chemistry through her expertise in XPS depth profiling, capillary electrophoretic separation, and polymer surface analysis. Her ability to bridge teaching and cutting-edge research makes her a respected figure in her field.

🏅Awards and Honors

Provisionally selected for the “Best Researcher Award” by the ANN Awards Organizing Committee for her publication on nanofibrous membranes.Successfully completed prestigious training courses in e-learning strategies, quality in education, and the Blackboard system.
Participated in notable events such as the Women in Chemistry Conference (University of Nottingham) and the 9th Annual Conference in Chemical Nanoscience (Newcastle). Consistently recognized for her dedication to education, research, and innovative contributions to analytical chemistry.

🔬Research Focus

Jabrah Naji Alkorbi’s research centers on advancing analytical chemistry, particularly surface analysis techniques and nanomaterials. Her PhD work involved using XPS depth profiling to investigate polymer brushes, leveraging Argon Gas Cluster Ion Source technology. This innovative approach has significant implications for material science and nanotechnology. She has also contributed to rapid capillary electrophoretic separation, focusing on detecting pyocyanin and quorum sensing signaling molecules. Additionally, her work on encapsulating anthocyanidin in polyvinyl alcohol nanofibrous membranes for smart packaging underscores her interdisciplinary expertise. Jabrah’s research bridges chemistry, nanomaterials, and real-world applications, enhancing both academic understanding and industrial innovation.

Publication Top Notes:

Fabrication of Anthocyanidin-Encapsulated Polyvinyl Alcohol Nanofibrous Membrane for Smart Packaging

 

 

 

Dr. Amy Lewis | Nanomaterials Awards | Best Researcher Award

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Dr. Amy Lewis | Nanomaterials Awards | Best Researcher Award

Dr. Amy Lewis , Oklahoma State University , United States

Dr. Amy King-Lewis is an Assistant Professor of Construction Engineering Technology at Oklahoma State University, with a Ph.D. in Civil Engineering from the same institution. Her research focuses on diversity and inclusion, particularly the participation and persistence of women in the construction industry. Dr. King-Lewis has extensive teaching experience, including courses on construction law, scheduling, and business practices. She has a robust industry background, having served in leadership roles at various construction and engineering firms. Additionally, Dr. King-Lewis is actively involved in outreach, mentoring, and presenting at national and international conferences.

Professional Profile:

Orcid

Scopus

Summary of Suitability for Best Researcher Award

The individual under consideration has demonstrated exceptional qualifications for the Best Researcher Award in the field of construction engineering, with a particular emphasis on diversity, equity, and inclusion (DEI) within the industry.

🎓Education:

Dr. Amy King-Lewis earned her Ph.D. in Civil Engineering from Oklahoma State University in December 2020, where she conducted research under the guidance of Dr. Yongwei Shan, focusing on the diversity and inclusion of women in the construction industry. Prior to this, she completed a Master of Science in Engineering Technology (MST) from Texas State University in May 2006, with a concentration in Engineering Management and Entrepreneurship Studies. Dr. King-Lewis began her academic journey with a Bachelor of Science in Construction Management, Engineering Technology from Oklahoma State University, graduating in May 1991.

🏢Work Experience:

Dr. Amy King-Lewis is currently an Assistant Professor of Construction Engineering Technology at Oklahoma State University, a position she has held since January 2021. In this role, she teaches various courses, including Construction Law, Introduction to Construction, Construction Scheduling, Mechanical and Electrical Systems of Buildings, and Business Practices. Alongside her academic career, Dr. King-Lewis serves as Vice President of R & J Lewis Oil Company, a position she has held since August 2017. Prior to her current roles, she worked as a Project Manager at Oklahoma State University from March 2016 to January 2021, where she managed construction projects for Long Range Facilities Management. Dr. King-Lewis also has entrepreneurial experience as the Co-Founder and CEO of Ontrack Texas Scheduling, a construction scheduling firm she led from June 2011 to June 2016, scaling the company to 12 employees. Earlier in her career, she served as Business Development Director for Sundt and Satterfield & Pontikes Construction in San Antonio from April 2008 to June 2011 and as a Project Manager at Brown & Root – A Halliburton Company in Houston, where she managed new construction, shutdowns, and turnarounds in refinery and chemical plants for major clients like Shell, Exxon, and Phillips 66, from May 1990 to June 2003.

🏆Awards and Grants:

Dr. Amy King-Lewis has received multiple travel grants and awards throughout her academic career, demonstrating her commitment to professional development and student mentorship. In June 2023, she was awarded a $2,500 travel grant by MEAC to attend the Mechanical and Electrical Faculty Boot Camp in Milwaukee, WI. Earlier in March 2023, she secured a $7,500 CMAB matching grant to attend the AGC National Convention. In December 2022, Dr. King-Lewis received a $7,500 travel grant from the TEXO Foundation. She had previously been awarded MEAC travel grants for the same Boot Camp in June 2022 and August 2021, both amounting to $2,500 each. Additionally, in February 2022, she was recognized as the faculty sponsor for the team that won 1st Place in the Commercial Building Division at the TEXO Foundation Region 5 Student Competition, with a prize of $1,000.

Publication Top Notes:

  • “A Systematic Approach to Developing Sustainable Post-Disaster Shelters in the Southern Region of the United States”
  • “Persistence of Women in the Construction Industry”
  • “Student Perceptions of Bias in University Construction Programs”
  • “Gender Bias and Its Impact on Self-Concept in Undergraduate and Graduate Construction Education Programs in the United States”
  • “Influencing Factors on Recruitment and Retention of Women in Construction Education: A Literature Review”

 

 

Mr. Linxu Xu | Nanomaterials Awards | Best Researcher Award

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Mr. Linxu Xu | Nanomaterials Awards | Best Researcher Award

Mr. Linxu Xu , Shandong jianzhu University , China

Linxu Xu is a Lecturer at the Institute of Resource and Environment Innovation, Shandong Jianzhu University, specializing in Advanced Environment Functional Materials. He earned his PhD in Chemical Engineering Technology from Harbin Institute of Technology in 2019, following a Master’s and Bachelor’s degree in related fields from the same institution and Harbin University of Science and Technology, respectively. Since November 2020, he has been leading significant research projects, including those on autocatalytic synthesis of nanocomposites for wastewater treatment and key technologies for water environment health in the Yellow River Basin. Xu has published extensively, with notable works in journals such as Nanoscale, RSC Advances, and New Journal of Chemistry, highlighting his contributions to the development of photocatalytic and catalytic materials

Professional Profile:

Orcid

🎓Educational Background:

Dr. Linxu Xu earned his PhD in Engineering from the Harbin Institute of Technology, where he studied from September 2015 to October 2019. Prior to that, he completed his Master’s degree in Engineering at the same institution, attending from September 2013 to July 2015. He began his academic journey with a Bachelor of Science in Materials Chemistry from the Harbin University of Science and Technology, which he completed between September 2009 and July 2013.

👨‍🏫 Work Experience:

Since November 2020, Dr. Linxu Xu has been serving as a lecturer at the Institute of Resource and Environment Innovation, Shandong Jianzhu University. In this role, he has been actively involved in teaching and research, focusing on advanced environmental functional materials.

🧪Research Projects:

Dr. Linxu Xu has been involved in several significant research projects. He led the “Autocatalytic Synthesis of Metal Particles/Silica Nanocomposites for Efficient Removal of Organic Dyes in Wastewater” project, which was funded by the Excellent Doctoral Research Fund of Shandong Jianzhu University . Additionally, he contributed to the “Research and Development of Key Technologies and High-end Equipment for Water Environment Health in the Yellow River Basin (Shandong)” as part of the Shandong Top Talents Project . Dr. Xu also worked on the “Pipeline Fouling Deposition/Cleaning Model and Resource Utilization Technology,” supported by the National Key Research and Development Program .Furthermore, he was involved in the “Development of Key Technology for Fenton-like Treatment of Difficult-to-Degrade Organic Matter in Water,” a corporate-commissioned project .

Publication Top Notes:

  • Coordination-Polymer-Derived Cu-CoO/C Nanocomposite Used in Fenton-like Reaction to Achieve Efficient Degradation of Organic Compounds
  • Synthesis of disordered mesoporous silica loaded with ultrasmall-sized CuO nanoparticles based on an alkali-free strategy and its excellent catalytic performance in the reduction of organic dye
  • Facile synthesis of CuO/Co3O4 nanoribbons with excellent catalytic performance for reduction of organic dyes
  • In situ generation of ultrasmall sized and highly dispersed CuO nanoparticles embedded in silica matrix and their catalytic application
  • A general autocatalytic route toward silica nanospheres with ultrasmall sized and well-dispersed metal oxide nanoparticles