Ms. Maryam Tariq | Sustainable development | Chemical Resilience and Sustainability Award

Published on by Chemistry Awards

Ms. Maryam Tariq | Sustainable development | Chemical Resilience and Sustainability Award

Ms. Maryam Tariq , University of Engineering and Technology, Lahore, Pakistan

Maryam Tariq is a skilled civil engineer specializing in sustainable construction, environmental engineering, and innovative materials. Currently pursuing a Master’s in Environmental Engineering at the University of Engineering and Technology, Lahore, her research focuses on bamboo-concrete integration using nanotechnology for resilient structures. She is a LEED Green Associate, recognized for her leadership and communication skills, and has led impactful projects, including hybrid renewable energy systems and chemically treated bamboo applications. With expertise in climate adaptation, waste management, and nanomaterials, Maryam is committed to advancing sustainability and eco-friendly practices through academic and practical contributions.

Professional Profile

Scopus

Summary of Suitability for Award:

Maryam Tariq is an exceptionally qualified candidate for the “Chemical Resilience and Sustainability Award”, owing to her groundbreaking research and academic achievements in sustainable construction and environmental engineering. Her innovative work focuses on chemically treating bamboo reinforced with nanoparticles to create eco-friendly and resilient construction materials. These contributions align seamlessly with the principles of chemical resilience and sustainability by advancing the use of renewable, biodegradable materials in place of conventional, resource-intensive alternatives like steel. Maryam Tariq’s pioneering work in chemically treated bamboo for sustainable construction and her broader research into renewable energy systems make her an exemplary choice for the Chemical Resilience and Sustainability Award. Her contributions not only advance the scientific understanding of resilient, eco-friendly materials but also align closely with global sustainability goals, particularly SDGs 9, 11, and 13. Awarding her this recognition would celebrate her efforts and inspire future innovations in chemical sustainability.

🎓Education:

Maryam Tariq is a dedicated scholar currently pursuing her Master of Science in Environmental Engineering at the University of Engineering and Technology, Lahore. Her coursework emphasizes climate change adaptation, solid waste management, and the use of nanomaterials for sustainable development. Her thesis, focused on synergistic bamboo-concrete integration enhanced with nanoparticles, reflects her commitment to innovative and eco-friendly solutions in infrastructure. She holds a Bachelor’s degree in Civil Engineering from the University of Central Punjab, where she honed her expertise in structural engineering through projects like CFRP-wrapped columns and bamboo reinforcement. Her strong academic foundation was laid at District Public School and College for Girls where she excelled in science and pre-engineering disciplines. Throughout her education, Maryam has demonstrated an exceptional ability to combine technical knowledge with practical applications, making her a promising figure in the field of sustainable engineering.

🏢Work Experience:

Maryam Tariq’s professional journey reflects her dedication to sustainable engineering and innovative construction. She is currently interning with Structax Consultancy through the Pakistan Engineering Council OJT Program, contributing to high-impact construction projects. Since December 2024, she has served as a Project Coordinator at NRTC Energies, overseeing energy sustainability projects and utilizing tools like MS Project and Power BI to streamline operations. Her standout projects include developing bamboo-nanoparticle concrete beams as cost-effective and eco-friendly alternatives to steel reinforcement and conducting a techno-economic assessment of floating photovoltaics hybridized with hydropower plants. She also brings experience in analyzing slender columns using CFRP wrapping techniques. With her strong organizational and leadership skills, Maryam has successfully managed multidisciplinary teams, ensuring the delivery of innovative, sustainable solutions aligned with global environmental goals.

🏅Awards: 

Maryam Tariq has received multiple accolades recognizing her contributions to sustainable engineering. She won the PEC FYDP Achievement Award (2023) for her groundbreaking project on sustainable construction. She was selected for the Hatch-08 Entrepreneurship Platform (2023) at NSTP-NUST, where she developed her entrepreneurial skills. Maryam reached the final stages of the FICS Research Competition (2023) for her work on bamboo-concrete integration, highlighting her research’s impact. In 2024, she earned the prestigious LEED Green Associate credential from the U.S. Green Building Council, reflecting her expertise in green architecture and eco-friendly designs. These achievements underscore her dedication to addressing global environmental challenges through innovative engineering solutions.

🔬Research Focus:

Maryam Tariq’s research centers on sustainable construction and renewable energy systems. She explores the use of chemically treated bamboo and nanoparticles as eco-friendly alternatives to steel reinforcement in concrete, advancing cost-effective, resilient infrastructure solutions. Her work also delves into hybrid renewable energy systems, such as floating photovoltaics combined with hydropower plants, aiming to optimize land use, conserve water, and reduce greenhouse gas emissions. Additionally, she focuses on climate change adaptation, nanomaterials, and waste management, aligning her efforts with global sustainability goals, particularly SDGs 9, 11, and 13. Maryam’s innovative studies are paving the way for smarter, more sustainable engineering practices.

Publication Top Notes:

Advancing Sustainable Construction: Experimental Study of Concrete Beams Reinforced with Chemically Treated Bamboo and Enhanced Interfacial Bonding Using Nanotechnology

Authors: M. Tariq, S. Haydar, R.A. Khushnood, A. Hameed, N. Khan

Journal: Journal of Building Engineering, 2025, Volume 99, Article 111552

Abstract: This study investigates the structural performance of concrete beams reinforced with chemically treated bamboo, aiming to enhance interfacial bonding through nanotechnology. The research explores the potential of bamboo as a sustainable alternative to traditional steel reinforcement in concrete structures.

Evaluating the Potential of Chemically Modified Bamboo for Sustainable and Green Construction

Authors: M. Tariq, R.A. Khushnood, Z.B. Babar, M.A. Basit

Journal: Journal of Building Engineering, 2024, Volume 86, Article 108634

Abstract: This paper examines the effectiveness of acid-based chemical treatments on bamboo to improve its durability, physicochemical, structural, and mechanical properties. The goal is to assess bamboo’s viability as a sustainable construction material.

 

 

 

 

 

Eslam Syala | Environment | Environmental Chemistry Award

Published on by Chemistry Awards

Dr. Eslam Syala | Environment | Environmental Chemistry Award

Doctorate at Institute of Graduate Studies and Researches (IGSR), Alexandria University, 163 Horreya Avenue, Shatby, 21526, Alexandria, Egypt.

Eslam Abdel Aziz Hussien Syala is a dedicated researcher and processing engineer specializing in Material Science. He holds a Ph.D. from Alexandria University and has a robust background in both practical engineering and academic research. His career is characterized by a strong commitment to advancing scientific knowledge, demonstrated through his extensive research publications, peer reviewing activities, and teaching roles. Syala’s diverse professional experiences, including technical translation and engineering roles, underscore his multifaceted expertise and contribution to the field.

Author Metrics

Scopus Profile

ORCID Profile

Google Scholar Profile

Eslam Syala has a significant record of publications in high-impact journals, reflecting his active role in the scientific community. His research has been featured in esteemed journals such as Scientific Reports, Ceramics International, and the Journal of Composite Materials. Syala’s work on various topics within Material Science, including composites and waste management, highlights his impactful contributions to the field. His role as a peer reviewer for numerous journals further underscores his engagement and influence in the academic community.

Citations and Documents: Eslam Syala has accrued a total of 193 citations across 157 documents. This indicates that his research work is frequently referenced by other scholars, reflecting its impact and relevance in the field of Material Science.

Documents: He has published 11 documents, which include research papers, articles, and possibly conference papers or reports. The number of documents gives an idea of the volume of his scholarly contributions.

h-index: Syala has an h-index of 7. This metric suggests that he has at least 7 papers that have each been cited at least 7 times. The h-index is used to measure both the productivity and citation impact of a researcher’s publications.

Education

Eslam Syala’s educational background is distinguished by his advanced degrees in Material Science and Metallurgy Engineering. He earned his Ph.D. in Material Science from Alexandria University with a high CGPA of 3.722/4, following a Master’s degree in the same field, where he ranked in the top 5% of his class. His undergraduate studies in Metallurgy Engineering at AL-Azhar University were marked by a strong academic performance, culminating in a highly praised graduation project on titanium extraction.

Research Focus

Syala’s research focus spans several key areas within Material Science. His work includes the development and characterization of composite materials, the study of waste management solutions such as using cement kiln dust for wastewater treatment, and the analysis of glass systems’ thermal and kinetic properties. These research areas reflect his commitment to addressing practical challenges and advancing scientific understanding in materials technology.

Professional Journey

Eslam Syala’s professional journey combines roles in engineering, academia, and technical translation. He currently serves as a Processing Engineer at the Egyptian Black Sand Company, where he manages operations and oversees plant commissioning. In addition to his engineering role, Syala is a part-time lecturer, teaching courses related to welding, corrosion control, and materials science. His experience as a technical translator for major industrial projects adds to his diverse skill set and professional expertise.

Honors & Awards

In September 2010, Eslam Syala received an award for academic distinction from the Faculty of Engineering at AL-Azhar University. This honor recognized his exceptional academic performance during his undergraduate studies, highlighting his dedication and excellence in his field of study.

Publications Noted & Contributions

Eslam Syala has authored and co-authored numerous influential publications in respected journals, addressing various aspects of Material Science. His notable contributions include studies on the treatment of dye-containing wastewater, thermal protection of steel, and the characterization of polymer composites. These publications demonstrate his extensive research efforts and impact in advancing material science knowledge.

“Thermal protection of steel using various ceramic-like fireproofing coatings systems: Comparative study”

  • Journal: Ceramics International
  • Publication Date: October 2024
  • DOI: 10.1016/j.ceramint.2024.06.123
  • Contributors: Essam El-Rafey, Mohamed Kamal Mostafa, Mohamed Abdel Gawad Konsouh, Mohamed M. Yousry, Eslam Syala
  • Summary: This study provides a comparative analysis of various ceramic-like fireproofing coatings designed to enhance the thermal protection of steel. The research evaluates the performance and effectiveness of different coating systems, aiming to identify the most efficient solutions for fire protection in industrial applications.

“The effective treatment of dye-containing simulated wastewater by using the cement kiln dust as an industrial waste adsorbent”

  • Journal: Scientific Reports
  • Publication Date: June 25, 2024
  • DOI: 10.1038/s41598-024-64191-5
  • Contributors: Eslam Syala, Wagih A. Sadik, Abdel-Ghaffar M. El-Demerdash, Waffa Mekhamer, M. Essam El-Rafey
  • Summary: This article investigates the use of cement kiln dust as an adsorbent for treating dye-containing simulated wastewater. The study demonstrates the effectiveness of using industrial waste materials for environmental remediation, providing a sustainable solution for wastewater treatment.

“Characterization of the extruded polypropylene filled with cement kiln dust composite”

  • Journal: Journal of Composite Materials
  • Publication Date: March 2023
  • DOI: 10.1177/00219983221147387
  • Contributors: Essam El-Rafey, Wagih A Sadik, Tawfik A Ramadan, Shimaa El-Farouk, Eslam Syala
  • Summary: This research focuses on the characterization of a composite material made from extruded polypropylene and cement kiln dust. The study examines the physical and mechanical properties of the composite, highlighting its potential applications and benefits in various industries.

“A study on the physical, mechanical, thermal properties and soil biodegradation of HDPE blended with PBS/HDPE-g-MA”

  • Journal: Polymer Bulletin
  • Publication Date: April 2022
  • DOI: 10.1007/s00289-021-03623-y
  • Contributors: E. El-Rafey, Walaa M. Walid, Eslam Syala, Abbas Anwar Ezzat, Salah F. Abdellah Ali
  • Summary: This study explores the physical, mechanical, and thermal properties of High-Density Polyethylene (HDPE) blended with Poly(butylene succinate) (PBS) and HDPE-g-MA. It also assesses the biodegradation of the material in soil, offering insights into its environmental impact and potential for sustainable use.

“Natural Fiber Reinforced Unsaturated Polyester Resin Filled with Bio-based Calcium Carbonate: Preparation and Examination”

  • Journal: Fibers and Polymers
  • Publication Date: April 11, 2022
  • DOI: 10.1007/s12221-022-4460-1
  • Part of ISSN: 1229-9197, 1875-0052
  • Summary: This paper discusses the development of a natural fiber reinforced unsaturated polyester resin incorporated with bio-based calcium carbonate. The research focuses on the preparation, examination, and properties of the composite material, emphasizing its potential applications and environmental benefits.

Research Timeline

Syala’s research timeline reflects a progression from fundamental studies in glass systems and their properties to practical applications in materials technology. From 2017 to 2020, he focused on kinetic characterization and thermal properties of tellurite glasses. In recent years, his research has shifted towards practical applications, including composite materials and waste management solutions, showcasing his evolving research interests and contributions.

Strengths of the Environmental Chemistry Award for Dr. Eslam Syala:

Interdisciplinary Impact: Dr. Syala’s research spans a diverse range of topics within Material Science, including waste management, composite materials, and thermal protection. This breadth demonstrates his ability to address various environmental challenges through innovative approaches, aligning well with the interdisciplinary nature of environmental chemistry.

High-Impact Publications: His work is published in reputable journals like Scientific Reports, Ceramics International, and Journal of Composite Materials. These journals are known for their rigorous peer-review processes and high visibility, indicating the significant impact and relevance of his research.

Practical Applications: Dr. Syala’s focus on practical applications, such as using industrial waste for wastewater treatment and developing fireproofing coatings, highlights his commitment to solving real-world environmental issues. This practical approach is highly valued in the field of environmental chemistry.

Commitment to Sustainability: His research on sustainable materials and waste management, such as the use of cement kiln dust and the development of biodegradable composites, reflects a strong commitment to environmental sustainability. This aligns with the goals of environmental chemistry to promote eco-friendly solutions.

Academic and Professional Experience: Dr. Syala’s extensive experience in both academia and industry enhances his ability to contribute to environmental chemistry. His roles as a processing engineer, lecturer, and peer reviewer demonstrate a well-rounded expertise that supports his research activities.

Areas for Improvement:

Increased Citation Impact: With an h-index of 7 and a total of 193 citations across 157 documents, there is potential for Dr. Syala to increase the visibility and citation impact of his work. Strategies could include targeting high-impact journals, engaging in collaborative research, and enhancing the dissemination of his findings.

Broader Research Topics: While Dr. Syala’s work is impressive, expanding his research to include emerging topics in environmental chemistry, such as climate change mitigation or advanced green technologies, could further strengthen his profile in this field.

Enhanced Outreach and Communication: Increasing outreach efforts, such as public lectures, workshops, or media engagement, could help raise awareness of his research and its implications for environmental chemistry. Effective science communication can amplify the impact of his findings.

Interdisciplinary Collaborations: Strengthening collaborations with researchers from related fields, such as environmental engineering or environmental policy, could provide new insights and broaden the scope of his research. This interdisciplinary approach can lead to more comprehensive solutions to environmental challenges.

Grant Funding and Research Opportunities: Pursuing additional research funding and exploring new research opportunities could enhance his ability to undertake larger-scale studies and contribute further to the field of environmental chemistry. Securing grants for innovative projects can also increase his research impact.

Conclusion:

Dr. Eslam Syala’s work in material science, particularly in areas related to environmental chemistry, demonstrates a strong commitment to addressing practical environmental challenges through innovative solutions. His impressive publication record, practical applications of his research, and diverse professional experience highlight his contributions to the field. By focusing on increasing the impact of his work, exploring new research topics, enhancing outreach efforts, fostering interdisciplinary collaborations, and securing additional funding, Dr. Syala can further strengthen his position as a leading researcher in environmental chemistry. His ongoing efforts and achievements position him well for continued success and recognition in this important field.