Dr. Ruby Aslam | Material Science | Women Researcher Award

Dr. Ruby Aslam | Material Science | Women Researcher Award

Dr. Ruby Aslam ,Chongqing University of Science and Technology, China , India

Dr. Ruby Aslam is a distinguished researcher and academician with expertise in applied chemistry and corrosion science. With over 5.5 years of post-Ph.D. experience, including postdoctoral research at Chongqing University of Science and Technology, China, she has made significant contributions to green corrosion inhibitors and hybrid anti-corrosive coatings. Dr. Aslam has published 114 works, including 62 research/review articles and 52 book chapters, with a highest impact factor of 16. Her work has garnered over 2,479 citations, achieving an h-index of 28. She serves as a topic editor for Frontiers in Chemistry and holds memberships in prestigious societies. Her passion for teaching and research has earned her accolades such as the ICC-CSCP Young Scientist Award (2024) and IAAM Scientist Medal (2023). Currently, she is Co-PI on multiple international research projects exploring sustainable solutions for corrosion inhibition, contributing extensively to both academia and industry.

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Summary of Suitability for Award:

Dr. Ruby Aslam stands out as an exemplary candidate for the “Women Researcher Award” due to her remarkable achievements in the field of applied chemistry and corrosion science. With an impressive academic background, including a Ph.D. in Applied Chemistry, she has excelled in research and teaching over her 5.5 years of post-Ph.D. experience. Her innovative work on green corrosion inhibitors and sustainable hybrid coatings demonstrates her commitment to addressing global challenges in environmental sustainability and material science. Her achievements reflect not only her academic and professional excellence but also her commitment to addressing pressing global challenges. Recognizing her with this award would celebrate her dedication and inspire further advancements in sustainable research.

🎓Education:

Dr. Ruby Aslam’s academic journey is marked by excellence in chemistry and applied chemistry. She completed her Ph.D. in Applied Chemistry from Aligarh Muslim University (AMU), India, in 2018, focusing on sustainable corrosion inhibitors. Prior to this, she earned an M.Phil. in Applied Chemistry (2014) and an M.Sc. in Chemistry (2012) from AMU. Her educational foundation was laid with a B.Sc. in Science from MJP Rohilkhand University, Bareilly, India, in 2009. Dr. Aslam’s academic pursuits were supported by prestigious fellowships, including the Maulana Azad National Fellowship for both Junior and Senior Research Fellowships during her M.Phil. and Ph.D. Her multidisciplinary knowledge spans analytical chemistry, corrosion science, and biodegradable surfactants, underpinning her diverse research interests. Her strong academic foundation and technical skills have enabled her to excel in postdoctoral research and international collaborations, making her a prominent name in the field of green chemistry.

🏢Work Experience:

Dr. Ruby Aslam has an impressive professional trajectory, combining research and teaching in applied chemistry and corrosion science. She currently serves as a Postdoctoral Fellow at Chongqing University of Science and Technology, China, focusing on novel green corrosion inhibitors for carbon steel. Previously, she was a Research Associate (CSIR) at Aligarh Muslim University, India, where she worked on sustainable corrosion inhibitors for three years (2019–2022). Her teaching credentials include a 1.2-year tenure as Assistant Professor of Chemistry at Gagan College of Management and Technology, Aligarh, where she taught undergraduate courses. Additionally, she contributed as a Project Associate for DST-SERB-funded research on biodegradable surfactants. Dr. Aslam has co-led five research projects funded by prestigious institutions like King Abdulaziz University and the University of Jeddah. Her combined research and teaching experience, complemented by technical expertise, make her a well-rounded academic and scientist.

🏅Awards: 

Dr. Ruby Aslam’s remarkable contributions to science and education have earned her several accolades. She was honored with the ICC-CSCP Young Scientist Award (2024) in Xi’an, China, and the prestigious IAAM Scientist Medal (2023) by the International Association of Advanced Materials, Sweden. She received the AMPP EMERG Travel Assistance Award (2023) to present her work at the AMPP Conference + Expo in Denver, Colorado. During her Ph.D., she was awarded the Maulana Azad National Fellowship for both Junior and Senior Research Fellowships by the UGC, India. Additionally, her postdoctoral research was supported by the CSIR Research Associate Fellowship (2019–2022). Dr. Aslam has also been recognized for her editorial contributions as a topic editor for Frontiers in Chemistry and as an editorial board member for the Journal of Modern Polymer Chemistry and Materials. These accolades highlight her impactful research and academic leadership.

🔬Research Focus:

Dr. Ruby Aslam’s research centers on sustainable solutions in applied chemistry, particularly in corrosion science. Her key areas of interest include the development of environmentally friendly green chemicals as anticorrosive materials, smart stimuli-responsive hybrid anti-corrosive coatings, and exploring the effects of additives on established corrosion inhibitors. She has also focused on the synthesis and characterization of biodegradable surfactants, emphasizing their micellization and physiological studies. Her research combines experimental techniques such as spectrophotometry, potentiostat/galvanostat, SEM-EDS, and TEM with theoretical approaches like density functional theory (DFT). Dr. Aslam has successfully contributed to several international projects as Co-PI, working on innovative corrosion inhibition strategies using plant extracts and expired drugs. Her multidisciplinary expertise and commitment to addressing global challenges in material degradation and environmental sustainability have positioned her as a leader in green chemistry and anti-corrosion research.

Publication Top Notes:

“Non toxic biodegradable cationic gemini surfactants as novel corrosion inhibitor for mild steel in hydrochloric acid medium and synergistic effect of sodium salicylate”

Authors: M. Mobin, R. Aslam, J. Aslam

Journal: Materials Chemistry and Physics

Volume/Issue/Pages: 191, 151–167

Citations: 161

Year: 2017

“A comprehensive review of corrosion inhibitors employed to mitigate stainless steel corrosion in different environments”

Authors: R. Aslam, M. Mobin, S. Zehra, J. Aslam

Journal: Journal of Molecular Liquids

Volume/Issue/Pages: 364, 119992

Citations: 139

Year: 2022

“Ionic liquids derived from α-amino acid ester salts as potent green corrosion inhibitors for mild steel in 1M HCl”

Authors: R. Aslam, M. Mobin, I. B. Obot, A. H. Alamri

Journal: Journal of Molecular Liquids

Volume/Issue/Pages: 318, 113982

Citations: 100

Year: 2020

“L-Phenylalanine methyl ester hydrochloride as a green corrosion inhibitor for mild steel in hydrochloric acid solution and the effect of surfactant additive”

Authors: M. Mobin, S. Zehra, R. Aslam

Journal: RSC Advances

Volume/Issue/Pages: 6(7), 5890–5902

Citations: 100

Year: 2016

“Sugar based N,N′-didodecyl-N,N′digluconamideethylenediamine gemini surfactant as corrosion inhibitor for mild steel in 3.5% NaCl solution-effect of …”

Authors: R. Aslam, M. Mobin, J. Aslam, H. Lgaz

Journal: Scientific Reports

Volume/Issue/Pages: 8(1), 3690

Citations: 95

Year: 2018

“Application of surfactants as anticorrosive materials: A comprehensive review”

Authors: R. Aslam, M. Mobin, J. Aslam, A. Aslam, S. Zehra, S. Masroor

Journal: Advances in Colloid and Interface Science

Volume/Issue/Pages: 295, 102481

Citations: 93

Year: 2021

“The effect of the alkyl chain length on corrosion inhibition performances of 1, 2, 4-triazole-based compounds for mild steel in 1.0 M HCl: Insights from experimental and …”

Authors: Y. El Aoufir, R. Aslam, F. Lazrak, R. Marzouki, S. Kaya, S. Skal, A. Ghanimi, …

Journal: Journal of Molecular Liquids

Volume/Issue/Pages: 303, 112631

Citations: 92

Year: 2020

“An investigation on the synthesis, characterization and anti-corrosion properties of choline based ionic liquids as novel and environmentally friendly inhibitors for mild steel …”

Authors: M. Mobin, R. Aslam, R. Salim, S. Kaya

Journal: Journal of Colloid and Interface Science

Volume/Issue/Pages: 620, 293–312

Citations: 90

Year: 2022

“Proline nitrate ionic liquid as high temperature acid corrosion inhibitor for mild steel: Experimental and molecular-level insights”

Authors: R. Aslam, M. Mobin, M. Shoeb, M. Murmu, P. Banerjee

Journal: Journal of Industrial and Engineering Chemistry

Volume/Issue/Pages: 100, 333–350

Citations: 86

Year: 2021

“Inhibitory effect of sodium carboxymethylcellulose and synergistic biodegradable gemini surfactants as effective inhibitors for MS corrosion in 1 M HCl”

Authors: R. Aslam, M. Mobin, J. Aslam, H. Lgaz, I. M. Chung

Journal: Journal of Materials Research and Technology

Volume/Issue/Pages: 8(5), 4521–4533

Citations: 86

Year: 2020

 

 

 

 

 

Shashi Prakash Dwivedi | Material Science | Physical Chemistry Award

Dr. Shashi Prakash Dwivedi | Material Science | Physical Chemistry Award

Doctorate at Lloyd Institute of Engineering and Technology, India

Dr. S. P. Dwivedi is an esteemed academic and researcher in the field of materials science and engineering. He currently serves as the Professor and Dean (R & D) at the Lloyd Institute of Engineering and Technology in Greater Noida, India. With over 17 years of experience in research and academia, Dr. Dwivedi has made significant contributions to the field, particularly in the areas of material science, metallurgy, and composite materials. His extensive research and administrative roles have earned him recognition as one of the top 2% researchers globally by Stanford University, as well as several prestigious awards and honors.

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Dr. Shashi Prakash Dwivedi is a prominent academic affiliated with the Lloyd Institute of Engineering & Technology in Greater Noida, India. With a strong research portfolio, his work has garnered significant recognition, evidenced by 3,059 citations across 1,583 documents. His scholarly contributions are reflected in his h-index of 30, indicating a notable level of impact in his field

  • Citations: 3,059 citations across 1,583 documents
  • Documents: 239
  • h-index: 30

Education

Dr. Dwivedi holds a Ph.D. in Mechanical Engineering, which he earned from a renowned institution. His educational background has provided a strong foundation for his research career, allowing him to explore and contribute to various facets of material science and engineering. His advanced studies have been instrumental in his ability to lead innovative research and guide students and colleagues in their academic pursuits.

Research Focus

Dr. Dwivedi’s research primarily revolves around material science, specifically focusing on metal matrix composites, green materials, and advanced manufacturing processes. His work includes the development and characterization of composite materials using waste products, the optimization of manufacturing parameters, and the application of novel techniques in material processing. His research aims to enhance the performance and sustainability of materials used in various industrial applications.

Professional Journey

Dr. Dwivedi’s professional journey spans over two decades, during which he has held various influential positions in academia. He began his career as a lecturer and gradually progressed to more senior roles, including Head of Research and Development and Dean of R&D. His tenure at institutions such as G. L. Bajaj Institute of Technology and Management and Noida Institute of Engineering and Technology has been marked by significant contributions to research output, institutional growth, and academic leadership.

Honors & Awards

Dr. Dwivedi has received numerous accolades for his research and teaching excellence. Notably, he has been recognized as a Top 2% Researcher globally by Stanford University in 2021, 2022, and 2023. He has also been honored with the Best Paper Award (Gold Medal) by the Institution of Engineers (India) in 2023 and the Best Teacher Award by Dr. A.P.J. Abdul Kalam Technical University in 2020. These awards underscore his exceptional contributions to research and education.

Publications Noted & Contributions

Dr. Dwivedi has authored over 200 research papers in SCI/SCOPUS indexed journals, making significant contributions to the fields of material science and engineering. His notable publications include studies on the synthesis and characterization of green metal matrix composites, the effects of process parameters on material properties, and advancements in composite material technology. His work has been widely cited and has influenced both academic research and industrial practices.

“An Investigation of Fatigue, Creep, and Dynamic Mechanical Behavior of Bio-Fiber-Reinforced PLA and Their Hybrid Biocomposites”

Authors: V Chaudhary, SP Dwivedi, PP Das, P Gupta, B Sharma

Journal: Biomass Conversion and Biorefinery

Summary: This study explores the mechanical properties of bio-fiber-reinforced polylactic acid (PLA) and hybrid biocomposites, specifically focusing on fatigue, creep, and dynamic mechanical behavior. It aims to understand how these materials perform under various stresses and conditions.

“Mechanical, Thermal, and Electrical Properties of 2D Nanomaterials for Advanced Applications”

Authors: S Radhakrishnan, PP Das, A Alam, SP Dwivedi, V Chaudhary

Journal: Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science

Summary: This paper reviews the properties of two-dimensional (2D) nanomaterials, including their mechanical, thermal, and electrical characteristics. It discusses their potential applications in advanced technology fields.

“Sawdust-Reinforced Glass Fiber Epoxy-Based Composite: Fabrication and Analysis of Mechanical Properties”

Authors: SS Chauhan, M Maurya, SP Dwivedi

Journal: Journal of The Institution of Engineers (India): Series D

Summary: The article describes the fabrication and mechanical analysis of a composite material made from sawdust-reinforced glass fiber and epoxy. It examines how the addition of sawdust affects the composite’s mechanical properties.

“Enhancing Mechanical and Thermal Properties of Polymer Matrix Nanocomposites through Tailored Nanomaterial Architectures”

Authors: SB Ingole, P Sharma, R Verma, S Chowdhury, PP Patil, SP Dwivedi, …

Journal: E3S Web of Conferences

Summary: This paper focuses on improving the mechanical and thermal properties of polymer matrix nanocomposites by using customized nanomaterial structures. The research highlights methods for tailoring nanomaterials to enhance composite performance.

“A Review Paper on Current State of the Worldwide Solar Energy Generation”

Authors: R Ahmed, GV Reddy, A Singla, P Maan, SP Dwivedi

Journal: E3S Web of Conferences

Summary: This review article provides an overview of global solar energy generation, including current technologies, trends, and challenges. It aims to give a comprehensive summary of the state of solar energy worldwide.

Research Timeline

Dr. Dwivedi’s research timeline includes pivotal projects and achievements across different phases of his career. Key milestones include his recent work on near netshape generation of nano composite parts, the enhancement of machining performance using biodielectric fluids, and ongoing projects involving the development of mechanized digital gnathodynamometers. His research has evolved to address emerging challenges in material science, reflecting his commitment to advancing the field.

Collaborations and Projects

Throughout his career, Dr. Dwivedi has engaged in various collaborations with national and international research organizations. He has secured funding from agencies such as AKTU, UP-CST, and DST for projects focused on sustainable materials and advanced manufacturing techniques. His collaborative efforts have led to significant research outcomes and the development of innovative solutions for industry-related problems.

Strengths of the Physical Chemistry Award

  1. Global Recognition: The Physical Chemistry Award highlights Dr. Dwivedi’s exceptional contributions to the field, underscoring his recognition as a top researcher. This acknowledgment from Stanford University as a top 2% researcher globally is a testament to his influence and standing in the field of materials science and physical chemistry.
  2. Significant Research Contributions: Dr. Dwivedi’s research on material science, especially in areas such as metal matrix composites and green materials, has had a profound impact. His work on bio-fiber-reinforced PLA, 2D nanomaterials, and sawdust-reinforced composites reflects innovative approaches and advancements in material properties and sustainability.
  3. Prestigious Awards and Honors: His receipt of notable awards such as the Best Paper Award (Gold Medal) and the Best Teacher Award emphasizes his dual excellence in research and education. These honors reflect his ability to balance high-quality research with impactful teaching.
  4. Diverse Research Focus: Dr. Dwivedi’s research encompasses a wide range of topics within material science and physical chemistry. His exploration of different material types, from biocomposites to nanomaterials, demonstrates a comprehensive understanding of the field and its applications.
  5. High Citation Metrics: With 3,059 citations across 1,583 documents and an h-index of 30, Dr. Dwivedi’s research has been highly influential and widely recognized by the academic community. This impact is indicative of the quality and relevance of his work in advancing the field.

Areas for Improvement

  1. Broaden Research Horizons: While Dr. Dwivedi’s work is extensive, exploring emerging areas such as quantum materials or nanophotonics might further enhance the breadth of his research contributions and address new scientific challenges.
  2. Increase Industry Collaboration: Strengthening partnerships with industry could help in translating research findings into practical applications, improving the commercial viability and impact of his work.
  3. Enhance Public Engagement: Greater efforts in communicating his research to the public through outreach programs, media, or popular science platforms could raise awareness of his contributions and inspire the next generation of researchers.
  4. Expand Educational Initiatives: Developing new educational resources, such as online courses or workshops, could extend his teaching impact beyond his immediate institution, benefiting a wider audience interested in material science and physical chemistry.
  5. Focus on Interdisciplinary Research: Collaborating with researchers from adjacent fields such as biology or environmental science could lead to innovative cross-disciplinary projects, addressing complex global challenges like climate change or health.

Conclusion

Dr. Shashi Prakash Dwivedi’s recognition through the Physical Chemistry Award highlights his significant contributions to material science and physical chemistry. His extensive research portfolio, prestigious awards, and high citation metrics reflect his substantial impact on the field. To further enhance his influence, focusing on emerging research areas, increasing industry and public engagement, and expanding educational and interdisciplinary efforts could provide new opportunities for growth and innovation. Dr. Dwivedi’s continued dedication to advancing material science promises to drive further breakthroughs and contributions to both academia and industry.