MANALI RATHEE | Geopolymer Concrete | Women Researcher Award

Ms.MANALI RATHEE | Geopolymer Concrete | Women Researcher Award

PHD SCHOLAR at IIT JAMMU, India.

Manali Rathee ๐ŸŽ“ is a dedicated civil engineering researcher focused on sustainable construction materials. Born on 25 January 1997 in Sonipat, Haryana ๐Ÿ‡ฎ๐Ÿ‡ณ, she is currently pursuing a Ph.D. at IIT Jammu, specializing in geopolymer concreteโ€”a low-carbon alternative to traditional cement โ™ป๏ธ. Her work integrates advanced materials like MXenes and graphene to improve durability and reduce environmental impact ๐ŸŒ. With global exposure from Japanโ€™s SAKURA Science Program ๐Ÿ‡ฏ๐Ÿ‡ต and numerous international conference presentations ๐ŸŒ, Manali aims to contribute to Indiaโ€™s Net-Zero 2070 vision. She blends scientific rigor with practical innovation, contributing significantly to eco-conscious infrastructure solutions ๐Ÿ—๏ธ๐Ÿ“˜.

Professional Profile

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Suitability For Women Research Award – Ms.MANALI RATHEE

Manali Rathee is a promising and impactful young woman researcher in the domain of sustainable civil engineering ๐Ÿ—๏ธ๐ŸŒ. Her contributions to geopolymer concrete technologyโ€”an eco-friendly alternative to Portland cementโ€”are crucial in advancing green construction practices and addressing climate change challenges โ™ป๏ธ. She has proven research expertise through international publications, a filed patent, and participation in global platforms such as Japan’s SAKURA Science Program ๐Ÿ‡ฏ๐Ÿ‡ต. As a doctoral scholar at IIT Jammu, Manali blends innovation with environmental stewardship, making her an ideal candidate for the Women Researcher Award ๐Ÿ‘ฉโ€๐Ÿ”ฌโœจ.

Education & Experienceย 

๐ŸŽ“ Ph.D. in Civil Engineering โ€“ IIT Jammu (2021โ€“Present)
๐Ÿ”ฌ Research focus: Geopolymer concrete, durability, nano-materials
๐Ÿ“š M.Tech in Structural & Construction Management โ€“ NIT Jalandhar (2019โ€“2021)
๐Ÿงฑ Thesis on low-cost paving blocks using waste materials (TEQIP-III funded)
๐Ÿ“ B.Tech in Civil Engineering โ€“ GL Bajaj Institute, Uttar Pradesh (2014โ€“2018)
๐Ÿšง Final project: National Highway Design with NHAI
๐Ÿ› ๏ธ Industry Experience โ€“ Internship at NTPC Netra Site & NBCC India
๐Ÿ‘ฉโ€๐Ÿซ Teaching Assistant at IIT Jammu and NIT Jalandhar

Professional Developmentย 

Manali Rathee consistently pursues professional growth through academic, industrial, and international avenues ๐Ÿ“ˆ. She participated in the prestigious SAKURA Science Exchange Program in Japan ๐Ÿ‡ฏ๐Ÿ‡ต, enhancing her global perspective on sustainable materials. Sheโ€™s attended top-tier international conferences in the UK ๐Ÿ‡ฌ๐Ÿ‡ง and India ๐Ÿ‡ฎ๐Ÿ‡ณ, showcasing her work in low-carbon construction ๐ŸŒฟ. As a Teaching Assistant at both NIT Jalandhar and IIT Jammu ๐Ÿ‘ฉโ€๐Ÿซ, sheโ€™s contributed to developing academic curricula and mentoring peers. Her analytical skills in XRD, SEM, FTIR ๐Ÿ”ฌ, and her software fluency in STAAD Pro and AutoCAD ๐Ÿ’ป equip her to drive innovation in structural materials research ๐Ÿ—๏ธ.

Research Focus

Manaliโ€™s research lies in the realm of sustainable civil engineering ๐Ÿ—๏ธ๐ŸŒ, focusing on geopolymer concreteโ€”a low-emission, high-performance alternative to Portland cement. Her work contributes to carbon-neutral infrastructure by utilizing industrial waste like copper slag, fly ash, and zinc slag โ™ป๏ธ. She studies durability mechanics, chloride penetration, carbonation resistance, and thermal performance under aggressive environmental conditions ๐ŸŒก๏ธ๐ŸŒŠ. By integrating nanomaterials such as MXene and functional graphene, she enhances structural strength and longevity ๐Ÿ”ฌ๐Ÿ’Ž. Her research is aligned with Indiaโ€™s Net-Zero 2070 goals and the global push for greener urban development ๐ŸŒฑ๐ŸŒ†, combining innovation with sustainability.

Awards and Honors

๐Ÿ… Among Top 3 in M.Tech Structural Engineering at NIT Jalandhar
๐Ÿ“š TEQIP-III Sponsored Project Grant โ€“ โ‚น4.85 Lakhs
๐ŸŽ“ B.Tech Civil Engineering with Honors
๐ŸŽฏ GATE Qualified โ€“ 97th Percentile in 2018, 2019, and 2020
๐Ÿงช Patent Filed โ€“ Polymerized Novel Cementitious Binder (2024)
๐ŸŒ SAKURA Science Exchange Program Participant โ€“ Japan (2023)
๐Ÿ“– Multiple High-Impact Publications โ€“ ACS, Elsevier, Springer Journals
๐ŸŒ International Conference Presenter โ€“ UK, Scotland, IIT Madras, NITJ

Publication Top Notes

1. Durability Properties of Copper Slag and Coal Bottom Ash Based I-shaped Geopolymer Paver Blocks

Authors: M. Rathee, N. Singh
Journal: Construction and Building Materials, Vol. 347, Article 128461
Citations: 20 | Year: 2022
Summary:
This paper investigates the use of industrial by-productsโ€”copper slag and coal bottom ashโ€”in the production of geopolymer-based I-shaped paver blocks. The study evaluates mechanical and durability properties including water absorption, abrasion, and resistance to aggressive environments, indicating that the blocks have potential for sustainable paving applications.

2. Carbonation Resistance of Blended Mortars and Industrial By-products: A Brief Review

Authors: N. Singh, B. Sharma, M. Rathee
Journal: Cleaner Materials, Vol. 4, Article 100058
Citations: 20 | Year: 2022
Summary:
This review focuses on the carbonation resistance of mortars incorporating supplementary cementitious materials and industrial wastes. It summarizes key influencing parameters, performance of different blends, and highlights the role of material chemistry in resisting carbonation-induced degradation in concrete structures.

3. Study of Mechanical Properties of Geopolymer Mortar Prepared with Fly Ash and GGBS

Authors: M. Rathee, A. Misra, J. Kolleboyina
Journal: Materials Today: Proceedings, Vol. 93, pp. 377โ€“386
Citations: 13 | Year: 2023
Summary:
This study assesses the mechanical performanceโ€”including compressive, flexural, and split tensile strengthโ€”of geopolymer mortar made using fly ash and ground granulated blast furnace slag (GGBS). The results demonstrate superior early-age and long-term strength development, making it a viable alternative to conventional cement mortar.

4. Reviewing Geopolymer Concrete: A Possible Sustainable Structural Material of Future

Authors: M. Rathee, N. Singh
Journal: Environment, Development and Sustainability
Citations: 5 | Year: 2024
Summary:
This comprehensive review explores geopolymer concrete as a sustainable alternative to traditional Portland cement. It discusses environmental benefits, mechanical properties, material constituents, and application challenges, positioning it as a future-forward material for eco-friendly construction.

5. Interfacial Chemistry of Tiโ‚ƒCโ‚‚Tโ‚“ MXene in Aluminosilicate Geopolymers for Enhanced Mechanical Strength

Authors: M. Rathee, H.K. Surendran, C. Narayana, R. Lo, A. Misra, K. Jayaramulu
Journal: ACS Applied Engineering Materials, Vol. 2(8), pp. 2027โ€“2037
Citations: 3 | Year: 2024
Summary:
This paper presents the novel integration of MXene nanomaterials (Tiโ‚ƒCโ‚‚Tโ‚“) into geopolymer matrices. By analyzing the interfacial interactions, it shows that MXenes significantly enhance mechanical strength and microstructural integrity, making them promising additives for next-gen construction materials.

6. Performance of Alkali-Activated Aluminosilicate Geopolymer Mortar Under Exposure to Acid, Sulfate and High Temperature

Authors: M. Rathee, A. Misra
Journal: Magazine of Concrete Research, Vol. 77(3โ€“4), pp. 209โ€“227
Citations: 1 | Year: 2024
Summary:
This experimental study examines how alkali-activated geopolymer mortars perform under chemical attacks (acid, sulfate) and thermal exposure. The paper concludes that such mortars demonstrate excellent resistance to harsh environments, validating their application in aggressive field conditions like sewage systems or thermal industries.

Conclusion

Manali Rathee exemplifies the spirit of the Women Researcher Award by not only advancing cutting-edge research in sustainable materials but also by contributing to the broader mission of climate-conscious engineering ๐ŸŒฑ๐ŸŒŽ. Her interdisciplinary approach, academic excellence, and societal relevance firmly establish her as a highly deserving recipient of this prestigious recognition ๐Ÿ‘๐Ÿฝ๐Ÿ†.

Nancy Hammad | Sustainable Construction Materials | Best Researcher Award

Mr Nancy Hammad | Sustainable Construction Materials | Best Researcher Award

PhD in Structural Engineering, The German University in Cairo, Egypt

Nancy Hammad is an accomplished academic at the Faculty of Engineering and Materials Science, The German University in Cairo, Egypt. She has a profound impact on the field of materials science, particularly in the domain of alkali-activated materials and self-healing concrete. Her extensive work has garnered 111 citations across 5 key publications, demonstrating her expertise and influence. Nancy actively collaborates with fellow researchers and contributes to groundbreaking advancements in sustainable construction technologies.

PROFILE

Scopus

STRENGTHS FOR THE AWARD

  1. Innovative Research Focus: Nancy Hammad has significantly contributed to the field of self-healing concrete and alkali-activated slag materials. Her research on microbial self-healing mechanisms and fiber-reinforced concrete enhances sustainable construction practices.
  2. High Impact Publications: She has authored five impactful publications, with 111 citations across 88 documents, reflecting the academic community’s recognition of her work.
  3. Collaborative Efforts: Nancy has worked with multiple co-authors, showcasing her ability to collaborate effectively within interdisciplinary teams.
  4. Practical Contributions: Her research addresses real-world challenges, such as durability and sustainability in construction materials, emphasizing its relevance and application.
  5. Recognition of Expertise: Her h-index of 5 underscores the consistent quality and influence of her publications within the academic and engineering communities.

AREAS FOR IMPROVEMENT

  1. Increased Diversity in Research Topics: While her focus on alkali-activated materials is strong, diversifying research into complementary areas could further enhance her profile.
  2. Funding and Grant Success: Securing awarded grants for research can add to her credentials, highlighting the practical and financial backing for her work.
  3. Broader Collaboration: Expanding collaborations internationally or within industry could amplify the application and dissemination of her research.

EDUCATION

Nancy Hammad earned her academic credentials with a focus on civil and materials engineering. She pursued her undergraduate and postgraduate studies at prestigious institutions, culminating in her research at The German University in Cairo. Her dedication to innovative materials science has been the cornerstone of her academic journey, equipping her to lead pioneering studies in self-healing concrete and alkali-activated materials.

EXPERIENCE

With years of academic and research experience, Nancy Hammad has significantly contributed to engineering and materials science. She has worked on cutting-edge research projects and authored several influential publications. As a faculty member at The German University in Cairo, Nancy combines teaching, research, and mentorship to foster innovation and knowledge dissemination.

AWARDS AND HONORS

Nancy Hammad has been recognized for her exceptional contributions to materials science, earning accolades for her research in sustainable construction technologies. Her work in microbial self-healing concrete and fiber-reinforced alkali-activated materials has received widespread acclaim, reflecting her commitment to advancing engineering solutions.

RESEARCH FOCUS

Nancy Hammad’s research focuses on the efficiency of calcium oxide in microbial self-healing activity, self-healing capabilities of alkali-activated slag (AAS) concrete, and fiber-reinforced alkali-activated materials. Her work aims to enhance sustainability and resilience in construction materials, pushing the boundaries of engineering innovation.

PUBLICATION TOP NOTES

  • ๐ŸŒŸ The Efficiency of Calcium Oxide on Microbial Self-Healing Activity in Alkali-Activated Slag (AAS)
  • ๐Ÿ“š State-of-the-Art Report: The Self-Healing Capability of Alkali-Activated Slag (AAS) Concrete
  • ๐Ÿงฌ Efficiency of Bacteria-Based Self-Healing Mechanism in Concrete
  • ๐Ÿ”ง Flexural Performance of Reinforced Alkali-Activated Concrete Beams Incorporating Steel and Structural Macro Synthetic Polypropylene Fiber
  • ๐Ÿ—๏ธ The Performance of Fiber GGBS Based Alkali-Activated Concrete

CONCLUSION

Nancy Hammad is a strong candidate for the Best Researcher Award. Her innovative work on sustainable construction materials and self-healing concrete demonstrates significant scientific and practical contributions. Addressing areas for improvement, such as securing grants and expanding research topics, could further solidify her standing as a leading researcher in her field. Given her accomplishments and potential for continued impact, she is highly deserving of this recognition.