Rajni Gautam | Nanoscience | Women Researcher Award

Women Researcher Award

Rajni Gautam
Affiliation K R Mangalam University
Country India
Scopus ID 41261269900
Documents 34
Citations 458
h-index 11
Subject Area Nanoscience
Event International Material Scientist Awards
ORCID 0000-0003-0825-629X
Rajni Gautam
K R Mangalam University, India

Rajni Gautam is a researcher affiliated with K R Mangalam University whose scholarly work is associated with nanoscience and advanced materials research. Her scientific contributions, publication record, and citation performance indicate sustained participation in interdisciplinary research involving nanoscale materials, material characterization, and emerging nanotechnology applications. The available bibliometric indicators demonstrate measurable academic influence within the field of nanoscience.[1]

Abstract

This academic article provides a scholarly overview of Rajni Gautam and her research profile in nanoscience. Bibliometric indicators, scientific publications, and research contributions demonstrate active participation in nanoscale materials research and interdisciplinary scientific investigations. The documented academic record supports consideration for recognition through the Women Researcher Award presented at the International Material Scientist Awards.[1]

Keywords

Nanoscience, Nanotechnology, Advanced Materials, Nanomaterials, Material Characterization, Surface Engineering, Materials Research, Scientific Impact.

Introduction

Nanoscience has emerged as a multidisciplinary field that investigates materials and structures at the nanoscale, enabling advances in electronics, medicine, energy systems, environmental technologies, and advanced materials. Researchers working in nanoscience contribute to both fundamental understanding and technological innovation. The scientific activities of Rajni Gautam align with these objectives through research associated with nanoscale materials and their applications.[2]

Research Profile

The research profile of Rajni Gautam includes 34 indexed publications, 458 citations, and an h-index of 11. These bibliometric indicators demonstrate measurable scholarly influence and continued engagement in scientific research related to nanoscience and advanced materials.[1]

  • Affiliated with K R Mangalam University.
  • Research specialization in nanoscience.
  • Thirty-four indexed scientific documents.
  • Citation count of 458.
  • h-index value of 11.
  • Active contribution to materials and nanotechnology research.

Research Contributions

Research contributions associated with Rajni Gautam include investigations in nanomaterials, advanced material systems, material characterization, and nanoscale applications. Such studies support scientific understanding and technological development within the field of nanoscience.[2]

  • Research involving nanomaterials and nanoscale structures.
  • Investigation of advanced materials and their properties.
  • Material characterization and analytical studies.
  • Contribution to interdisciplinary nanoscience research.
  • Support for emerging nanotechnology applications.

Publications

The publication record demonstrates consistent scientific productivity and participation in international research dissemination. Published studies contribute to scholarly visibility and support the dissemination of nanoscience knowledge within the research community.[1]

  1. Scientific articles related to nanomaterials.
  2. Research publications in advanced materials science.
  3. Studies concerning nanoscale characterization methods.
  4. Interdisciplinary research contributions in nanoscience.

Representative literature in nanoscience provides important scientific context for research activities involving nanoscale materials, advanced characterization techniques, and emerging technological applications.[3]

Research Impact

The citation performance and h-index indicate measurable academic influence within the scientific community. The citation count demonstrates recognition of the research output and reflects the dissemination of knowledge in nanoscience and materials research.[1]

Award Suitability

The documented research achievements, publication productivity, citation indicators, and specialization in nanoscience support the consideration of Rajni Gautam for the Women Researcher Award. These academic indicators demonstrate sustained scientific participation and contributions to nanomaterials and advanced materials research within the framework of the International Material Scientist Awards.[1]

Conclusion

Rajni Gautam has established a measurable academic profile in nanoscience through scholarly publications, citation performance, and scientific contributions. The available bibliometric indicators and research activities support recognition through the Women Researcher Award and reflect continued engagement in materials and nanotechnology research.[1]

References

  1. Elsevier. (n.d.). Scopus author details: Rajni Gautam, Author ID 41261269900. Scopus. https://www.scopus.com/authid/detail.uri?authorId=41261269900
  2. Bhushan, B. (Ed.). Springer Handbook of Nanotechnology. https://doi.org/10.1007/978-3-662-54357-3
  3. A comprehensive review: Photodegradation of dyes with rare earth doped metal oxide nanoparticles for wastewater treatment.
    https://www.sciencedirect.com/science/article/abs/pii/S0022369725000447?via%3Dihub

 

Seon-Bong Lee | Powder Metallurgy | Innovative Research Award

Innovative Research Award

Seon-Bong Lee
Affiliation Keimyung University
Country South Korea
Scopus ID 15837361800
Documents 56
Citations 373
h-index 11
Subject Area Powder Metallurgy
Event International Material Scientist Awards
ORCID 0000-0002-8355-1216

Seon-Bong Lee

Institution: Keimyung University, South Korea

Seon-Bong Lee is a researcher affiliated with Keimyung University whose scholarly activities primarily focus on powder metallurgy and materials science. His publication record, citation profile, and scientific contributions indicate sustained engagement in materials processing, metallic powders, sintering technologies, and engineering applications associated with advanced materials research.[1]

Abstract

This academic recognition article summarizes the research achievements and scientific profile of Seon-Bong Lee. The evaluation considers scholarly productivity, citation influence, subject expertise, and contributions to powder metallurgy. The available bibliometric indicators demonstrate sustained participation in materials science research and support recognition within the framework of the Innovative Research Award.[1]

Keywords

Powder Metallurgy, Materials Science, Sintering Technology, Metallic Materials, Advanced Materials, Engineering Materials, Research Impact, Scientific Publications.

Introduction

Powder metallurgy has become an essential discipline in modern materials engineering owing to its role in producing advanced components with controlled microstructures and mechanical properties. Researchers working in this field contribute to industrial manufacturing, energy applications, transportation systems, and emerging engineering technologies. The academic activities of Seon-Bong Lee align with these developments through contributions to materials processing and metallurgical research.[2]

Research Profile

The research profile of Seon-Bong Lee includes 56 indexed documents, 373 citations, and an h-index of 11. These indicators demonstrate measurable scholarly influence and continued participation in scientific publishing. His work primarily addresses powder metallurgy, material processing, and engineering applications relevant to advanced manufacturing technologies.[1]

  • Affiliation: Keimyung University.
  • Country: South Korea.
  • Research area: Powder Metallurgy.
  • Indexed documents: 56.
  • Citation count: 373.
  • h-index: 11.

Research Contributions

The scientific contributions of Seon-Bong Lee include investigations related to powder processing, sintering behavior, material characterization, and performance optimization of engineering materials. These studies support the development of reliable manufacturing methods and contribute to understanding the relationship between processing conditions and material properties.[2]

  • Development of powder processing methodologies.
  • Investigation of sintering mechanisms.
  • Characterization of engineering materials.
  • Evaluation of material properties and performance.
  • Contribution to metallurgical engineering research.

Publications

The publication record demonstrates consistent scientific productivity within materials science and powder metallurgy. Articles indexed in international databases contribute to scholarly visibility and citation impact.[1]

  1. Research articles addressing powder metallurgy applications.
  2. Studies involving metallic material processing technologies.
  3. Investigations of microstructural characterization methods.
  4. Engineering materials performance evaluations.

Representative DOI resources relevant to powder metallurgy include studies published within metallurgical and materials engineering literature.[3]

Research Impact

Citation metrics provide evidence of the academic visibility of the researcher’s contributions. The citation count and h-index indicate that multiple publications have achieved recognition within the scientific community. Such bibliometric indicators are commonly employed to evaluate research influence and scholarly productivity.[1]

Award Suitability

The available research indicators support consideration of Seon-Bong Lee for the Innovative Research Award presented during the International Material Scientist Awards. The combination of publication productivity, citation performance, subject specialization, and continued scientific engagement demonstrates suitability for academic recognition within materials science and powder metallurgy.[1]

Conclusion

Seon-Bong Lee has established a measurable research profile within powder metallurgy and materials science. His scholarly output, citation impact, and research contributions provide a foundation for professional recognition through the Innovative Research Award. The available academic indicators demonstrate continued participation in scientific advancement and materials engineering research.[1]

References

  1. Elsevier. (n.d.). Scopus author details: Seon-Bong Lee, Author ID 15837361800. Scopus. https://www.scopus.com/authid/detail.uri?authorId=15837361800
  2. Effect of Load Partitioning Under Different Pressing Temperature Conditions During 2P1A Compaction on the Densification Behavior and Electromagnetic Properties of Fe–5.0 wt.%Si SMC Core. https://www.mdpi.com/2075-4701/16/6/669
  3. Effect of MoS2 and Graphite Lubricant Contents on the Mechanical Properties of Fe–5.0 wt.%Si Soft Magnetic Composites. https://www.mdpi.com/1996-1944/19/12/2649

 

Ann Kurian | Biomaterials | Best Researcher Award

Ms. Ann Kurian | Biomaterials | Best Researcher Award

Ann Anu Kurian is a biomedical researcher with over seven years of experience specializing in cellular biology and RNA-based gene delivery. She holds an MS in Biomedical Science from Morehouse School of Medicine and a BTech in Biotechnology from Lovely Professional University. Currently an Associate Researcher II and Lab Manager at the Icahn School of Medicine at Mount Sinai, her work focuses on cardiac and skeletal muscle regeneration using modified mRNA technologies. She has contributed to multiple peer-reviewed publications and has been recognized with several academic honors, including a Presidential Scholarship and research presentation awards.

Ms.Ann Kurian , Icahn school of medicine, United States.

Profile

GOOGLESCHOLAR

SCOPUS

🎓 Education

Ann Anu Kurian holds a Master of Science in Biomedical Science from Morehouse School of Medicine in Atlanta, Georgia, completed between August 2015 and May 2017. She also earned a Bachelor of Technology in Biotechnology from Lovely Professional University in India, where she studied from August 2009 to May 2013.

🌟 Experience

With over seven years of research experience, Ann currently serves as an Associate Researcher II and Research Lab Manager at the Icahn School of Medicine at Mount Sinai in New York. Since November 2023, she has been working in the Gregorio Laboratory, conducting research focused on understanding the components and molecular mechanisms that regulate actin architecture in cardiac and skeletal muscle during both normal development and disease. Prior to this, she held a similar role in the Zangi Laboratory from August 2017 to November 2023, where she led projects utilizing modified mRNA to improve cardiac outcomes post-injury and managed various aspects of laboratory operations. Her professional journey began in India at VWR International from January 2014 to August 2015, where she supported chemical projects, maintained product data in SAP, and enhanced product descriptions.

🏅 Awards and Honors

Ann has been recognized for her academic and research achievements, receiving a Presidential Scholarship from Morehouse School of Medicine in 2017. The same year, she earned a travel award to attend the Georgia Academy of Science annual meeting. She also presented her research at several prestigious conferences, including the Ninth AACR Conference on The Science of Cancer Health Disparities, the Curtis L. Parker Student Research Symposium, and the Georgia Academy of Science annual meeting.

📖Skill

Ann is skilled in a wide range of technical and laboratory techniques. Her expertise includes molecular biology methods such as PCR, gel electrophoresis, cloning, RNA and DNA extraction, modified mRNA production, and LNP characterization. She is proficient in cell culture techniques, cardiomyocyte isolation, tissue sectioning, histological staining, and confocal microscopy. Her experience also includes data analysis, IVIS imaging, and statistical evaluation. She has strong capabilities in animal handling and laboratory management, including procurement, equipment maintenance, and regulatory compliance.

🔬 Research Focus

Ann’s research centers on cellular biology and RNA-based gene delivery systems, particularly in the context of cardiac and skeletal muscle biology. Her work has explored the use of modified mRNA technologies to induce gene expression for therapeutic regeneration following cardiac injury. Her contributions to the field are reflected in numerous peer-reviewed publications, addressing areas such as cardiomyocyte proliferation, ischemic injury, cardiac regeneration, and mRNA optimization.

📘 Publications

Pkm2 regulates cardiomyocyte cell cycle and promotes cardiac regeneration
Authors: A Magadum, N Singh, AA Kurian, I Munir, T Mehmood, K Brown, …
Year: 2020
Journal: Circulation (Volume 141, Issue 15, Pages 1249–1265)

Altering sphingolipid metabolism attenuates cell death and inflammatory response after myocardial infarction
Authors: Y Hadas, AS Vincek, E Youssef, MM Żak, E Chepurko, N Sultana, …
Year: 2020
Journal: Circulation (Volume 141, Issue 11, Pages 916–930)

Ablation of a single N-glycosylation site in human FSTL 1 induces cardiomyocyte proliferation and cardiac regeneration
Authors: A Magadum, N Singh, AA Kurian, MTK Sharkar, E Chepurko, L Zangi
Year: 2018
Journal: Molecular Therapy – Nucleic Acids (Volume 13, Pages 133–143)

Optimization of 5′ untranslated region of modified mRNA for use in cardiac or hepatic ischemic injury
Authors: N Sultana, Y Hadas, MTK Sharkar, K Kaur, A Magadum, AA Kurian, …
Year: 2020
Journal: Molecular Therapy Methods & Clinical Development (Volume 17, Pages 622–633)

Direct reprogramming induces vascular regeneration post muscle ischemic injury
Authors: K Kaur, Y Hadas, AA Kurian, MM Żak, J Yoo, A Mahmood, H Girard, …
Year: (Year not provided)
Journal: Molecular Therapy (Volume 29, Issue 10, Pages 3042–3058)

Juan Carlos Yácono Llanos | Nanomaterials | Nanomaterials Achievement

Juan Carlos Yácono Llanos | Nanomaterials | Nanomaterials Achievement

Mr Juan Carlos Yácono Llanos, Universidad de Lima, Peru

Juan Carlos Yácono Llanos is a distinguished researcher and educator specializing in metallurgical engineering, nanomaterials, and environmental sciences. Currently pursuing a Ph.D. in Engineering and Environmental Sciences (2025), he holds a Master’s in Metallurgical Engineering (2021) and over 30 years of academic experience at Universidad de Lima, where he serves as an Associate Professor. His research includes innovative material technologies, such as Ferrate(VI) applications, adsorption techniques, and magnetoluminescent compounds. A prolific author, his works focus on corrosion studies, phytochemical analyses, and sustainable technologies. Mr. Yácono is also an active contributor to professional committees and university initiatives. 🌟🧪📘

Publication Profile

Google Scholar

Orcid

Scopus

Educational Background 🎓

Juan Carlos Yácono Llanos has an impressive academic background in engineering and environmental sciences. He is currently a Ph.D. candidate in Engineering and Environmental Sciences at the Universidad Nacional Agraria La Molina, set to complete in 2025 🎓🌱. He earned a Master’s degree in Metallurgical Engineering from the Universidad Nacional de Ingeniería in 2021 🛠️📚. His journey in engineering began at the Universidad de Lima, where he achieved his Bachelor’s degree in Metallurgical and Steel Engineering in 1987 and later became a certified Metallurgical and Steel Engineer in 1992 🔧✨. His academic foundation fuels his groundbreaking research and teaching contributions.

Professional Experience and Contributions 💼

Juan Carlos Yácono Llanos has an extensive academic and professional career at the Universidad de Lima spanning decades. Currently an Associate Professor since 2022 🧑‍🏫✨, he has previously held roles as Assistant Professor from 1992 to 2021 and Teaching Assistant starting in 1987 📘. Beyond teaching, he manages laboratories in Chemistry (2023–present) and Environmental Engineering (2022–2023) 🔬🌿. He also chairs the Biological, Chemical, and Radiological Safety Committee (since 2024) 🛡️. Additionally, he oversees cost analysis for third-party testing services (2018–2022) and actively contributes to research and innovation since 1998 📊🔍, demonstrating his multifaceted expertise and dedication.

Research Focus Area 🌱🧬

Juan Carlos Yácono Llanos focuses his research on nanomaterials, sustainable technologies, and advanced materials characterization 🧪🔬. His work emphasizes the study of natural oils, such as Sacha Inchi and Aguaymanto, analyzing their phytochemical composition and quality markers 🌱🛢️. Additionally, he explores corrosion studies, innovative uses for agricultural residues, and the development of eco-friendly materials for agriculture and industry 🌍⚙️. His recent focus on ferrate synthesis and antioxidant activity reflects his commitment to sustainable practices and environmental impact 🧑‍🔧🌿. Through multidisciplinary research, he contributes to both environmental science and metallurgical engineering, combining expertise in chemistry and technology 🚀✨.

Publication Top Notes📚🌐

Markers of quality and genuineness of commercial extra virgin sacha inchi oils

Materiales: la corrosión, su tradición y alcances

Purificación de papaína a partir de látex seco: Un estudio piloto

The effect of temperature on the rate of oxygen evolution reaction during ferrate (VI) synthesis by anodic dissolution of iron in highly alkaline media

Transformación de residuos de langostineras para la producción de alimento balanceado para tilapia y de polímeros para cobertura de semillas aplicables a la agricultura orgánica

Markers of quality and genuineness of commercial extra virgin sacha inchi oils

Characterization of Glyceridic and Unsaponifiable Compounds of Sacha Inchi (Plukenetia huayllabambana L.) Oils

Marcadores específicos de la adición de aceites de semillas en aceites comerciales etiquetados como Sacha Inchi Virgen

Obtención y caracterización fisicoquímica de aceites genuinos de sacha inchi (Plukenetia huayllabambana)

Conclusion 🔍

Given his substantial background in metallurgical engineering, nanomaterials research, and environmental applications, along with impactful academic and professional achievements, Mr. Juan Carlos Yácono Llanos is indeed well-suited for roles that demand expertise in nanomaterials research and innovation.