Mr. José Cidade | Education | Best Researcher Award

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Mr. José Cidade | Education | Best Researcher Award

CIIE - Center for Educational Research and Intervention, Portugal.

José Manuel Cidade Filipe da Silva is a dedicated PhD Fellow at the Centre for Research and Intervention in Education (CIIE), University of Porto. As a doctoral candidate in the Doctoral Program in Education Sciences at the Faculty of Psychology and Education Sciences (FPCEUP), he is currently supported by a PhD Scholarship from the National Public Agency for Science, Technology, and Innovation (FCT, IP). José holds a graduate degree in Music Conducting and a Master’s in Ensemble Music Teaching, blending his academic expertise with a passion for musical performance, including choral and orchestral conducting and wind band music. His research highlights the role of civil wind bands in non-formal education, contributing significantly to the field of educational sciences.

Profile

Orcid

Education 🎓

José Manuel Cidade Filipe da Silva's academic journey began with a graduate degree in Music Conducting, followed by a Master’s in Ensemble Music Teaching, both of which solidified his understanding of music and its pedagogical applications. Currently pursuing his PhD in Education Sciences at University of Porto, he is part of a dynamic research environment focused on advancing knowledge in non-formal and informal education.

Experience 💼

José has significant experience in both academic research and musical practice. Alongside his doctoral studies, he has been actively engaged in music performance, particularly in choral and orchestral conducting. His musical journey also includes performing as a wind band musician. José has participated in several national and international scientific events, contributing to discussions and advancements in music education. His broad involvement in both academia and performance has enriched his understanding of music’s role in community development and lifelong learning.

Research Interests 🔬

José’s research primarily focuses on the educational role of civil wind bands within non-formal and informal education. He explores how these musical communities provide an alternative form of learning outside traditional school settings.

Lifelong Learning and Cultural Enrichment

One of the key aspects of his research is understanding how civil wind bands contribute to lifelong learning. José is particularly interested in how participation in these bands encourages personal development, cultural exchange, and skill-building over time, regardless of the participants' age or background.

Social Cohesion through Music

José’s work also delves into how wind bands foster social cohesion. He examines the role these musical groups play in bringing diverse community members together, promoting inclusivity, and strengthening social bonds through shared musical experiences.

Perceptions of Educational Experiences

His research investigates how participants in civil wind bands perceive their educational experiences. By analyzing their reflections and feedback, José seeks to understand the transformative impacts of participating in these bands, including enhanced self-expression and the development of soft skills.

Impact on Local Cultural Ecologies and Community Engagement

José's research emphasizes how these bands influence local cultural ecologies. By looking at the long-term effects of wind band participation, he explores how these groups contribute to preserving local musical traditions while fostering a sense of community engagement.

Development of Skills in Non-Traditional Learning Environments

Finally, his work highlights the skill development that occurs within civil wind bands, especially in non-traditional learning environments. José studies how these communities serve as spaces for artistic expression, personal growth, and the acquisition of both musical and life skills, all outside the formal education system.

Awards 🏆

PhD Scholarship: Received from the National Public Agency for Science, Technology and Innovation (FCT, IP), recognizing his exceptional academic potential.

National and International Recognition: Acknowledged for his research in music education at various scientific events.

Publications: His work has been published and cited in national and international journals, contributing significantly to the field of non-formal education and music.

Academic Contribution: José’s research on the educational impact of civil wind bands has garnered attention for its potential to enrich community engagement and lifelong learning.

Selected Publications 📖

Motivation for Participation in Civil Wind Bands: Contributions for Non-Formal Educational Contexts

Journal: Education Sciences, 2025-02-02

Civil Wind Bands Beyond Music Education: A Scoping Review (2010-2021)

Journal: RECIEM, 2024-10-11

Portuguese Wind Bands: Sketching Their Socio-Educational Profiles

Conference: 27th International Wind Music Conference, 2024-07-01

Portuguese Civil Wind Bands: An Approach to Their Educational Values

Conference: 4ª Conferência Internacional Emoções, Artes e Intervenção, 2024-04-19

 

 

 

V. Stalin Elanchezhian | Chemosensor | Best Researcher Award

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🌟Dr. V. Stalin Elanchezhian, Chemosensor, Best Researcher Award🏆

Doctorate at S. T. Hindu College, Nagercoil, India

V. Stalin Elanchezhian, a male Assistant Professor at S.T. Hindu College, Nagercoil, holds a Ph.D. in Chemistry from the University of Madras, Guindy Campus. He completed his M.Phil. in Chemistry from Annamalai University. With almost a decade of experience, he specializes in chemosensors and DFT, particularly focusing on multi-channel signaling and molecular logic gate systems. Throughout his career, he has demonstrated expertise in synthesizing and characterizing ferrocene-based chemosensors for detecting environmentally relevant cations and anions.

Author Metrics

Google Scholar Profile

Stalin’s research output reflects his impactful contributions to the field of chemistry. His publications have been cited extensively, with notable works cited dozens of times. He has an H-index of 3 based on bibliometrics from Scopus or Web of Science. His cumulative impact factor for the last three years stands at 12.307, indicating the significance and influence of his research within the scientific community.

Citations: With a total of 77 citations, this metric reflects the number of times Stalin’s publications have been referenced in other academic works. This indicates the influence and visibility of his research within the scientific community.

h-index: The h-index is a measure of both the productivity and impact of a researcher’s work. A researcher has an h-index of 3 if they have published at least 3 papers that have each been cited at least 3 times. In this case, Stalin’s h-index is 3, suggesting that he has made significant contributions to the field, with at least three of his papers having been cited three or more times.

i10-index: The i10-index is another measure of a researcher’s productivity and impact, specifically focusing on the number of publications with at least 10 citations. Stalin’s i10-index is also 3, indicating that he has authored at least three papers that have each garnered at least 10 citations.

Education

Stalin earned his Ph.D. in Chemistry from the University of Madras, Guindy Campus, in 2013. Prior to that, he completed his M.Phil. in Chemistry from Annamalai University in 2005. His educational journey has equipped him with the knowledge and skills necessary to pursue advanced research in the field of chemistry.

Research Focus

Stalin’s research primarily revolves around the development and application of ferrocene-based chemosensors. These sensors are designed for the detection of various environmentally relevant cations and anions. His work also encompasses the utilization of DFT (Density Functional Theory) in studying molecular structures and properties, particularly in the context of multi-channel signaling and molecular logic gate systems.

Professional Journey

Stalin’s professional journey spans nearly a decade, starting from his appointment as an Assistant Professor at S.T. Hindu College, Nagercoil, in June 2014. Over the years, he has actively engaged in research, teaching, and extension activities. He has also served as a resource person for scientific programs and provided training to fellow educators and researchers.

Honors & Awards

Throughout his career, Stalin has received several honors and awards in recognition of his contributions to the field of chemistry. He has been awarded prestigious fellowships such as the Junior Research Fellow (JRF) and Senior Research Fellow (SRF) from CSIR. His research has been acknowledged with prizes for oral and poster presentations at national and international conferences.

Publications Noted & Contributions

Stalin’s publications have significantly impacted the field of chemistry, with many of his works cited extensively by fellow researchers. His research on ferrocene-based chemosensors has been published in reputable journals and has demonstrated versatility in detecting various ions. His contributions extend beyond publishing, as he actively participates in scientific programs and conferences, fostering collaboration and knowledge exchange.

“Multi-signaling detection of Hg2+ and Cu2+ by a ferrocene–pyrazole dyad associated with molecular-scale arithmetic”

Published in: Inorganic Chemistry Communications

Year: 2010

Citations: 29

“A ferrocene-based multi-signaling sensor molecule functions as a molecular switch”

Published in: Inorganic Chemistry Communications

Year: 2009

Citations: 28

“Dual chemosensing properties of new ferrocene-based receptors towards fluoride and copper (II) ions”

Published in: Inorganic Chemistry Communications

Year: 2011

Citations: 18

“1-(2, 4-Dinitrophenyl)-5-ferrocenyl-3-methyl-1H-pyrazole”

Published in: Acta Crystallographica Section E: Structure Reports Online

Year: 2008

Citations: 2

“Ferrocene-based chemosensor creates molecular logic circuit for selective detection of Hg2+ and Cu2+”

Published in: Journal of Molecular Structure

Research Timeline

Stalin’s research timeline spans over a decade, starting from his M.Phil. research in 2005 and culminating in his recent publications and achievements. Throughout this journey, he has continuously explored new avenues in chemosensor development, molecular logic gate systems, and DFT applications. His research trajectory showcases a consistent dedication to advancing scientific knowledge and addressing environmental challenges through innovative chemistry.

Collaborations and Projects

Stalin has engaged in collaborative research activities with fellow scientists, both nationally and internationally. These collaborations have led to joint publications and projects, enriching the scope and impact of his research. Additionally, he has undertaken research projects funded by academic institutions and industries, further demonstrating the practical relevance of his work in addressing real-world challenges.

Madhur Gupta | Polymer nanocomposites | Best Researcher Award

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🌟Dr. Madhur Gupta, Polymer nanocomposites, Best Researcher Award🏆

Doctorate at Indian Institute of Technology Bombay, India

Madhur Gupta is a Postdoc Fellow specializing in Metallurgical Engineering and Materials Science at the Indian Institute of Technology, Bombay. With a background in Mechanical Engineering, he holds a Ph.D. from IIT Indore, where his research focused on active vibration control of smart multiscale composite structures. He is adept at multiscale modeling of materials, dislocation dynamics, and micromechanical modeling, with a particular interest in smart composite materials and flexoelectric nanocomposites.

Author Metrics:

Google Scholar Profile

Madhur Gupta has contributed significantly to the academic community with numerous publications in prestigious international journals. His research work has been well-cited, indicating its impact and relevance in the field. He has also presented his findings at various national and international conferences, further establishing his expertise and recognition in his research area.

Madhur Gupta’s academic impact can be quantified through citation metrics, where his work has garnered 124 citations, resulting in an h-index of 7 and an i10-index of 6. These metrics reflect the number of papers (h-index) that have received at least the same number of citations and the number of papers (i10-index) with at least 10 citations, respectively. These indices demonstrate the significance and influence of his research within the scholarly community, indicating a notable contribution to the field of Metallurgical Engineering and Materials Science.

Education:

Madhur Gupta completed his Ph.D. in Mechanical Engineering from the Indian Institute of Technology, Indore, with a dissertation focusing on active vibration control of smart multiscale composite structures. Prior to his Ph.D., he pursued his M.Tech. in CAD/CAM/CAE from SGSITS, Indore, and his B.E. in Mechanical Engineering from SDITS, Khandwa.

Research Focus:

Madhur Gupta’s research primarily revolves around multiscale modeling of materials, dislocation dynamics, and micromechanical modeling. He specializes in the development and analysis of smart composite materials, flexoelectric nanocomposites, and the application of graphene & CNTs in various engineering domains. His work often involves atomistic modeling and finite element analysis to understand and optimize material behavior and performance.

Professional Journey:

Madhur Gupta’s professional journey includes roles as a Research Assistant and Teaching Assistant at IIT Indore before assuming his current position as a Postdoc Fellow at IIT Bombay. Throughout his academic career, he has mentored both postgraduate and undergraduate students, contributed to various research projects, and actively participated in workshops and training programs to enhance his skills and knowledge.

Honors & Awards:

Madhur Gupta has been recognized for his academic achievements and contributions to research. He has received prestigious fellowships from organizations such as DST, MHRD, and AICTE to pursue his doctoral and master’s degrees. He has also qualified the Graduate Aptitude Test in Engineering (GATE), showcasing his proficiency in the field.

Publications Noted & Contributions:

Madhur Gupta has made significant contributions to the scientific community through his research publications in renowned international journals and presentations at conferences. His work spans various aspects of materials science and engineering, including active vibration control, electromechanical behavior of nanocomposites, and the development of CNT-reinforced polymer nanocomposites for electromagnetic interference shielding.

Title: Conductive polymer nanocomposite incorporated with carbon nanotubes for effective electromagnetic interference shielding: A numerical study

  • Authors: P. Dubey, M. Gupta, S.I. Kundalwal
  • Journal: Polymer Composites
  • Volume: 45
  • Issue: 4
  • Pages: 3576-3590
  • Year: 2024
  • Citations: 2

Title: Influence of flexoelectric effect on the bending rigidity of a Timoshenko graphene-reinforced nanorod

  • Authors: S.K. Nevhal, M. Gupta, S.I. Kundalwal
  • Journal: Journal of the Mechanical Behavior of Materials
  • Volume: 32
  • Issue: 1
  • Pages: 20220295
  • Year: 2023
  • Citations: 2

Title: Influence of CNT waviness on the effective Young’s modulus of multiscale hybrid composite

  • Authors: M. Gupta, N.D. Patil, S.I. Kundalwal
  • Publication: AIP Conference Proceedings
  • Volume: 2745
  • Issue: 1
  • Year: 2023
  • Citations: 2

Title: Electromechanical response of boron nitride nanosheet reinforced nanocomposite beam: A finite element study

  • Authors: P.V. Bansod, M. Gupta, H. Gargama, S.I. Kundalwal
  • Journal: Proceedings of the Institution of Mechanical Engineers, Part E: Journal of …
  • Year: 2023
  • Citations: 2
  • Title: Active vibration control of smart multiscale composite beams plates and shells
  • Author: M. Gupta
  • Publication: Indore
  • Year: 2022
  • Citations: 2

Title: Influence of thickness parameter on the EMI shielding effectiveness of CBNC in C-band: A numerical study

  • Authors: P. Dubey, M. Gupta, S.I. Kundalwal
  • Publication: Materials Today: Proceedings
  • Year: 2024

Research Timeline:

Madhur Gupta’s research journey has evolved over the years, starting with his academic internships and projects during his master’s and doctoral studies. He has worked on a diverse range of projects, from studying screw dislocation movement in BCC iron to investigating the electromechanical behavior of piezoelectric nanocomposites. His research timeline highlights his continuous exploration and contributions to advancing knowledge in his field.

Collaborations and Projects:

Madhur Gupta has collaborated on various research projects with colleagues and mentors, both within his institute and through external collaborations with organizations like ISRO and DRDO. These projects have ranged from fundamental studies on material behavior to applied research aimed at developing advanced materials for specific engineering applications. His collaborative efforts have enriched his research experience and contributed to the broader scientific community.