Tag: Physics

Pursing Rathod, Physics, Best Researcher Award

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Prof. Pursing Rathod: Assistant Professor at Padmshri Vikhe Patil College of Arts Science and Commerce Pravaranagar, Ahilyabagar, India

Mr. P.B. Rathod is an accomplished physicist specializing in Condensed Matter Physics, with a keen interest in nanomaterial research and spectroscopy. He is currently an Assistant Professor at Padmashri Vikhe Patil College, Pravaranagar, where he combines his passion for teaching with active scientific research. His work contributes to advancing the understanding of material properties at the nanoscale, supporting both academic growth and practical applications.

Online Profiles

ORCID Profile

Scopus Profile

Mr. Rathod is registered with global research databases such as Scopus (Scopus ID: 56884180700) and ORCID (0000-0003-2562-551X), where his scholarly contributions are tracked and accessible. These profiles enhance his visibility in the research community, with his citation count currently at 36 across 4 publications, and an h-index of 3. His ORCID profile can be viewed online for further details.

Education

He earned his Master of Science (M.Sc.) degree in Physics from Padmashri Vikhe Patil College, Pravaranagar, in 2014. During the same year, he successfully cleared the State Eligibility Test (SET), a significant milestone that qualifies him for academic teaching positions in higher education institutions. His educational foundation has equipped him with a strong theoretical and practical understanding of physics.

Research Focus

Mr. Rathod’s research is centered on the synthesis, characterization, and analysis of nanomaterials, with particular emphasis on titanium dioxide (TiO2) nanoparticles. His work involves advanced spectroscopic techniques such as UV-Visible spectroscopy to investigate the optical and electronic properties of these materials, which have applications in areas like photovoltaics, sensors, and photocatalysis.

Experience

Since 2023, Mr. Rathod has been an Assistant Professor at Padmashri Vikhe Patil College in Pravaranagar, where he teaches undergraduate and postgraduate physics courses. He actively engages in mentoring students and guiding research projects, fostering a research-oriented academic environment. Prior to this role, he developed his expertise through rigorous academic training and research collaborations.

Research Timeline & Activities

Mr. Rathod’s research activities date back to at least 2016, marked by his publication on TiO2 nanoparticles. Over the years, he has maintained an active research agenda that includes material synthesis, spectroscopic characterization, and dissemination of findings through journals and conferences. His ongoing academic position supports continuous exploration and contribution to condensed matter physics.

Top Noted Publication

One of Mr. Rathod’s most notable publications is “Synthesis and UV-Vis spectroscopic study of TiO2 nanoparticles,” co-authored with S.A. Waghuley and published in the International Journal of Nanomanufacturing in 2016. This work has contributed valuable insights into the synthesis process and optical properties of titanium dioxide nanoparticles, a material widely studied for its technological applications.

1. Improvement in photovoltaic performance of TiO2 nanoparticles by decoration of graphene nanosheets with spherical TiO2 nanoparticles

Published: Materials Letters, April 2016

DOI: 10.1016/j.matlet.2016.01.110

Summary:
This paper discusses how decorating graphene nanosheets with spherical TiO2 nanoparticles improves the photovoltaic efficiency of TiO2-based dye-sensitized solar cells (DSSCs). The decoration improves charge transfer, reduces recombination, and enhances light absorption.

2. Band gap engineering for highly efficient dye sensitized solar cell using graphene-ZnO nanorods

Published: Indian Journal of Physics, 2025

Summary (based on title and general knowledge):
The study likely focuses on enhancing DSSC performance by combining graphene with ZnO nanorods, tailoring the band gap of ZnO to better absorb visible light, and improving charge transport due to graphene’s conductivity.

Strengths for Best Researcher Award

  1. Innovative Contributions to Nanomaterials Research
    Prof. Rathod has made significant advances in the synthesis and band gap engineering of nanomaterials such as TiO2 and ZnO, which are critical for improving the efficiency of dye-sensitized solar cells. His work on integrating graphene with these nanostructures reflects a forward-thinking approach that pushes the boundaries of renewable energy technology.

  2. Interdisciplinary Expertise and Problem-Solving
    With a strong foundation in condensed matter physics, Prof. Rathod effectively integrates material science, spectroscopy, and nanotechnology in his research. This interdisciplinary skill set enables him to tackle complex scientific challenges, designing innovative solutions that address both theoretical and practical aspects of photovoltaics and nanomaterials.

  3. Strong Research Output and Growing Impact
    Over the years, Prof. Rathod has published several peer-reviewed articles in reputable journals, amassing 36 citations and maintaining an h-index of 3. These metrics reflect the quality, relevance, and growing influence of his research within the scientific community, positioning him as an emerging leader in his field.

  4. Dedication to Mentorship and Academic Leadership
    Beyond his research, Prof. Rathod is deeply committed to teaching and mentoring students at both undergraduate and postgraduate levels. He actively cultivates a research-oriented environment that encourages innovation, critical thinking, and hands-on learning, thus shaping the next generation of scientists and researchers.

  5. International Research Presence and Collaborative Potential
    His registration with leading research databases like Scopus and ORCID enhances the visibility of his work and fosters connections with the global scientific community. This presence facilitates research collaborations, knowledge exchange, and positions him as a valuable contributor to international scientific advancements.

Preeti Garg, Physics, Best Innovator Award

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Dr. Preeti Garg: Scientist-E at DRDO, India

  • Title/Designation: Dr.

  • Name: Preeti Garg

  • Current Role: Scientist-E

  • Organization: Defence Research and Development Organisation (DRDO), Solid State Physics Laboratory

  • Country: India

  • Subject Track: Physics

  • Award Category Nominated: Best Innovator Award

Dr. Preeti Garg is a highly accomplished Scientist-E at the Solid State Physics Laboratory (SSPL), Defence Research and Development Organisation (DRDO), New Delhi. With over 19 years of rigorous experience in semiconductor physics, crystal growth, and nanomaterials, she has made significant contributions to India’s indigenous research efforts in infrared imaging systems, explosive detection technologies, and optoelectronic devices. Her scientific journey reflects a seamless integration of applied and fundamental research, with a track record of developing advanced materials and technologies that have both strategic and industrial relevance. Her work encompasses a wide array of cutting-edge techniques and materials, with a strong focus on reliability, scalability, and performance under demanding conditions.

Online Profiles

Scopus Profile

Dr. Preeti Garg is an active contributor to global scientific literature, with her work indexed under Scopus Author ID: 57190088964. Her research has garnered 501 citations across 397 documents, reflecting significant academic impact in the fields of materials science, semiconductor physics, and nanotechnology. With 48 published documents and an h-index of 14, she maintains a strong scholarly footprint, indicative of both the quality and consistency of her contributions. Her research is widely cited for its practical applications in infrared detection, surface-enhanced Raman spectroscopy (SERS), 2D materials, and optoelectronic device development.

Education

Dr. Garg holds a Ph.D. in Physics from the prestigious Indian Institute of Technology (IIT) Delhi, awarded in 2020 for her research in optoelectronic materials. Prior to this, she completed her M.Sc. in Physics (2006) and B.Sc. in Physics (2004) from Ramjas College, University of Delhi, securing the top rank in her postgraduate batch. She demonstrated early academic excellence by qualifying for competitive national fellowships such as the CSIR-UGC NET (JRF and Lectureship) in 2006 and the GATE 2007 exam with an All India Rank of 178. Her academic journey is marked by deep conceptual grounding and a consistent record of performance.

Research Focus

Her research focus spans across the development and integration of advanced materials for optoelectronic applications, including bulk crystal growth of germanium, gallium arsenide, and cadmium zinc telluride for infrared detection, alongside fabrication of hybrid 2D nanomaterials like graphene, MoS₂, and their composites with noble metals for sensing and energy applications. She is actively involved in the synthesis and optical characterization of GaN quantum dots using MOCVD and has been leading DRDO-funded initiatives on enabling technologies for THz optoelectronic devices. Additionally, her interest in nanostructure-assisted trace explosive detection systems adds a strong application-oriented dimension to her research.

Experience

Over nearly two decades, Dr. Garg has gained deep domain experience in semiconductor device materials, with specialized proficiency in crystal growth using the Czochralski and Bridgman methods. Her professional expertise covers wafer processing, polishing, and characterization using a suite of spectroscopic and microscopic tools such as Raman, FTIR, UV-Vis, AFM, SEM, TEM, and XPS. At DRDO-SSPL, she has been a key contributor to mission-driven projects on IR detector substrates, SERS-based sensors, and quantum structures for THz applications. Known for her ability to work across interdisciplinary teams, she efficiently translates user requirements into scalable, high-performance material systems for national defense and industrial use.

Research Timeline & Activities

Dr. Garg’s research timeline reveals a steady progression from classical crystal growth and wafer engineering in her early years to more sophisticated nanostructures and 2D materials in recent times. Her initial work focused on Ge and GaAs wafer processing and later advanced to the growth and tuning of CdZnTe substrates for mercury cadmium telluride-based IR detectors. Between 2014 and 2020, she pivoted towards nanoscale SERS substrates, hybrid graphene-metal systems, and optical simulations using FDTD. Currently, she leads workstreams on quantum dots, THz films, and device fabrication involving MOCVD-grown III-nitride materials. She has actively presented her findings at national and international conferences and contributed to collaborative R&D projects within DRDO and academic institutions.

Awards & Honors

Dr. Garg’s academic and professional journey has been recognized with several prestigious honors. She was the batch topper during her M.Sc. at Delhi University and earned the highly competitive CSIR-UGC Junior Research Fellowship and Lectureship in 2006. Her outstanding GATE performance in 2007, with an All India Rank of 178, further established her academic excellence. Within DRDO, she has received acknowledgments for delivering critical research outcomes under stringent timelines and contributing to strategic defense technologies. Her work continues to earn citations globally, and her role in over 20 peer-reviewed publications underscores her standing as a thought leader in applied materials science.

Recent Publications (2025)

Impregnation of Single-Atom Iron from Metallosurfactants onto MOF-Derived Porous N-Doped Carbon for Efficient Wastewater Treatment via Peroxymonosulfate Activation
ACS Applied Materials & Interfaces, 2025
This study explores the catalytic performance of single-atom Fe embedded in porous nitrogen-doped carbon derived from metal-organic frameworks (MOFs) for advanced wastewater treatment. The catalyst demonstrates exceptional performance in activating peroxymonosulfate (PMS) for organic pollutant degradation.
Citations: 3
🔗 Access: ACS Publications 

Investigation of Surface and Interface Phonon Polariton in Nitrogen-Implanted GaN Epi-layers
Journal of Applied Physics, 2025
This work delves into the phonon-polariton dynamics in nitrogen-implanted GaN epitaxial layers. Using advanced vibrational spectroscopy, it provides insights into phonon localization and interface behavior critical for GaN-based high-frequency devices.
🔗 Access: AIP Scitation

Structural, Optical and Antibacterial Properties of Nd³⁺ Doped Cadmium Oxide Nanoparticles Using Vitex negundo Leaf Extract
Ceramics International, 2025
This green synthesis approach utilizes Vitex negundo extract to fabricate neodymium-doped CdO nanoparticles. The study reports enhanced optical absorption, crystalline quality, and significant antibacterial activity, offering potential in biomedical and environmental applications.
Citations: 2
🔗 Access: Elsevier

Thiolaryl Substituted β-Lactams as Important Capping Agents for Hafnia Nanoparticles
Journal of Sulfur Chemistry, 2025
This paper investigates the role of sulfur-rich β-lactam derivatives as novel capping agents for HfO₂ nanoparticles. It contributes to the understanding of ligand–nanoparticle interaction mechanisms relevant to nanoformulation and catalysis.
🔗 Access: Taylor & Francis 

Gomathi A, Physics, Best Innovator Award

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Dr. Gomathi A: Assistant Professor at Vels Institute of Science, Technology & Advanced Studies (VISTAS), India

Title/Designation: Dr.
Name: Gomathi A
Current Role/Designation: Assistant Professor
Organization/Institution Details: Vels Institute of Science, Technology & Advanced Studies (VISTAS)
Country: India
Subject Track: Physics
Award Categories: Best Innovator Award

Dr. A. Gomathi is a highly skilled academician and researcher specializing in nanomaterials, energy science, and environmental sustainability. As an Assistant Professor at the Vels Institute of Science, Technology, and Advanced Studies in Chennai, India, she has made significant contributions to the development and application of nanocomposites, particularly in the areas of photocatalysis and environmental remediation. Her research aims to develop sustainable solutions for the removal of organic pollutants and improve energy storage technologies through the use of innovative nanomaterials. With extensive teaching experience and a solid background in interdisciplinary physics, Dr. Gomathi continues to influence both academia and industry through her pioneering research.

Online Profiles

Scopus Profile

  • Citations: 36 citations across 35 documents

  • Documents: 4 published works indexed in Scopus

  • h-index: 2

Education

Dr. Gomathi’s educational path is a testament to her dedication to advancing knowledge in physics and applied science. She earned her Ph.D. in Physics with a focus on Energy Science from Periyar University, where her dissertation explored the synthesis of CeO2-based nanocomposites for the photocatalytic degradation of toxic organic dyes in wastewater. Her research was integral in developing new materials for sustainable environmental practices. Dr. Gomathi also holds an M.Phil. in Physics from PRIST Deemed University, where she specialized in 2D materials, particularly phosphorene. She completed her M.Sc. in Physics at Periyar University, further strengthening her academic foundation in advanced materials science. Along with these degrees, Dr. Gomathi holds a Diploma in Teacher Education, which has supported her career in academia.

Research Focus

Dr. Gomathi’s research is dedicated to understanding and improving the performance of nanomaterials for environmental and energy applications. Specifically, her work focuses on the design, synthesis, and characterization of metal oxide-based nanocomposites, including cerium oxide (CeO2), titanium dioxide (TiO2), and their hybrids with carbon-based materials like graphene oxide and multi-walled carbon nanotubes (MWCNTs). Her primary research interest is in the photocatalytic degradation of organic pollutants, which has broad implications for wastewater treatment and environmental remediation. Dr. Gomathi also investigates the potential of these nanomaterials in the field of renewable energy, specifically in developing efficient photoanodes for water splitting to produce hydrogen. Her interdisciplinary approach connects materials science with real-world environmental solutions.

Experience

Dr. Gomathi has over 10 years of experience in academia and research. In her current role as an Assistant Professor at Vels Institute, she has taught a variety of undergraduate and postgraduate physics courses, ranging from basic physics to advanced materials science and nanotechnology. Her career in education started with a position as a Physics Teacher at Mahatma Indian International School in Riyadh, Saudi Arabia, where she honed her teaching skills and mentored students at both high school and pre-university levels. Throughout her academic career, Dr. Gomathi has been a part of numerous research projects, often collaborating with international research groups. She has been instrumental in securing research grants, publishing papers, and contributing to the development of the academic curriculum at her institution.

Research Timeline & Activities

Dr. Gomathi’s research trajectory began during her Master’s studies when she explored the synthesis of complex materials and their applications in various fields. Her M.Phil. research deepened her interest in two-dimensional (2D) materials and their potential for technological innovations. During her Ph.D., Dr. Gomathi focused on the development of advanced nanocomposites like CeO2-based materials, combining her knowledge of nanotechnology and environmental science to tackle pressing challenges in pollutant removal. Over the years, she has expanded her research to include photoelectrochemical energy applications and nanomaterials for hydrogen production. She has published over 20 research articles and participated in numerous national and international conferences, where she presented her findings on topics such as photocatalysis, materials chemistry, and environmental engineering. Her current research activities include advancing photocatalytic systems for large-scale industrial applications and exploring novel nanocomposites for energy-efficient applications.

Awards & Honors

Dr. Gomathi’s work has been widely recognized in her field, earning her a variety of awards and honors throughout her career. She is a life member of several professional bodies, including the Indian Science Congress Association (ISCA), the Indian Society for Technical Education (ISTE), and the International Association of Nanoscience and Nanotechnology. Her contributions to the field of environmental remediation and nanomaterials have earned her invitations to present at prestigious international conferences. Dr. Gomathi has also been recognized with best paper awards at multiple research symposia. Her dedication to promoting sustainability through science has also led to her being involved in multiple outreach activities aimed at raising awareness about environmental issues among students and the public.

Top Noted Publication

1. Enhanced High-Performance Catalyst of α-MoO3/g-C3N4 Composite for Electrochemical Water Splitting and Photocatalyst Application

Journal: International Journal of Hydrogen Energy

Date: April 2025

DOI: 10.1016/j.ijhydene.2025.03.406

Contributors: G. Vasanthi, T. Prabhuraj, A. Gomathi, K.A. Ramesh Kumar, P. Maadeswaran

ISSN: 0360-3199

2. Improving the Supercapacitance Performance of V2O5 Interconnected Al2O3 Composite Electrode for Energy Storage Application

Journal: Ionics

Date: February 2025

DOI: 10.1007/s11581-024-06023-0

Contributors: P. Vijayakumar, A. Gomathi, P. Sivakumar, P. Maadeswaran, N. Sethupathi

ISSN: 0947-7047, 1862-0760

3. Designing ZnBi2O4/g-C3N4 Hybrid Nanocomposite Decorated with Enhanced Visible-Light Photocatalytic Activity for Malachite Green Dye Removal

Journal: Journal of Cluster Science

Date: February 20, 2025

DOI: 10.1007/s10876-025-02771-9

Contributors: Kavitha Thangavelu, Gomathi Abimannan, Mohammad Altaf, Yedluri Anil Kumar

ISSN: 1572-8862

4. Design of a High-Performance WO3/g-C3N4 Z-Scheme Photocatalyst for Effective Phenol Degradation and Antibacterial Activity

Journal: Journal of Cluster Science

Date: December 2024

DOI: 10.1007/s10876-024-02692-z

Contributors: T. Prabhuraj, Abimannan Gomathi, Arumugam Priyadharsan, Murni Handayani, Sabah Ansar, K. A. Ramesh Kumar, Palanisamy Maadeswaran

ISSN: 1040-7278, 1572-8862

5. Facile Synthesis of PVP Surfactant-Aided MoO3/g-C3N4 Nanocomposites Improves the Performance of Photocatalytic Dye Degradation and Electrocatalytic Overall Water-Splitting

Journal: Journal of Materials Science: Materials in Electronics

Date: December 2024

DOI: 10.1007/s10854-024-13962-x

Contributors: G. Vasanthi, P. Dharani, T. Prabhuraj, A. Gomathi, K. A. Ramesh Kumar, P. Maadeswaran

ISSN: 0957-4522, 1573-482X

Strength for the Best Innovator Award

  1. Innovation in Nanomaterials for Environmental Remediation:
    Dr. Gomathi has pioneered the development of advanced nanomaterials, particularly nanocomposites like CeO2/TiO2 hybrids, for environmental applications. Her work in photocatalytic degradation of harmful organic pollutants in wastewater has immense potential for large-scale environmental cleanup. Her ability to design nanocomposites that work efficiently under visible light has set her apart in the field of sustainable environmental remediation.

  2. Cutting-Edge Work in Renewable Energy Solutions:
    Dr. Gomathi’s research extends beyond environmental protection to energy generation, with a focus on renewable energy systems. She has developed highly efficient photocatalysts, including TiO2-based and WO3/g-C3N4 composites, for hydrogen production via water splitting. This breakthrough contributes significantly to clean energy solutions, providing a sustainable alternative to fossil fuels, and demonstrating Dr. Gomathi’s role as an innovator in energy science.

  3. Development of Advanced Energy Storage Systems:
    Dr. Gomathi has demonstrated exceptional creativity in advancing energy storage technologies. Through her research on V2O5/Al2O3 composite electrodes for supercapacitors, she has helped optimize energy storage devices for greater efficiency and capacity. These innovations could lead to better energy storage solutions, which are crucial for the widespread adoption of renewable energy sources and energy-efficient technologies.

  4. Interdisciplinary Research Bridging Nanotechnology and Green Chemistry:
    Dr. Gomathi’s ability to bridge the fields of nanotechnology, energy science, and green chemistry is one of her greatest strengths. Her design of nanocomposites for both environmental remediation and energy applications is a prime example of how interdisciplinary research can drive progress in solving global challenges. By merging material science with sustainable practices, she is paving the way for innovations that can benefit both the environment and society.

  5. Leadership and Mentorship in Scientific Innovation:
    Dr. Gomathi’s leadership in research extends beyond her own projects. As an Assistant Professor, she has been instrumental in shaping the future of young scientists by mentoring students and integrating her cutting-edge research into the curriculum. Her guidance has fostered a new generation of researchers dedicated to creating environmentally friendly and energy-efficient technologies, showcasing her role as a thought leader in her field.

Mariappan R, Physics, Best Researcher Award

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Dr. Mariappan R: Professor at Adhiyamaan College of Engineering (Autonomous), India

Title/Designation: Dr.
Name: Mariappan R
Current Role/Designation: Professor
Organization/Institution Details: Adhiyamaan College of Engineering (Autonomous)
Country: India
Subject Track: Physics
Award Categories: Best Researcher Award
Submitted: Aug 18, 2025

Dr. R. Mariappan is a seasoned educator and researcher in the fields of Materials Science, Thin Films, and Nanotechnology. With more than 11 years of teaching experience, he currently serves as an Associate Professor in the Department of Physics at Adhiyamaan College of Engineering, Hosur. Dr. Mariappan’s primary research interests lie in the development and application of nanomaterials, particularly in gas sensors, energy storage devices, and environmental monitoring. He has made substantial contributions to the field through his work on ZnO-based thin films doped with rare earth metals, demonstrating enhanced properties for various technological applications. His extensive publication record, with multiple high-impact journal articles, showcases his expertise in thin-film deposition techniques and material characterization.

Online Profiles

ORCID Profile

Education

Dr. Mariappan’s educational background is deeply rooted in the field of Physics. He earned his Ph.D. from SRMV College of Arts and Science, Bharathiar University, Coimbatore, where his research earned high commendation for its innovative approach to materials science. His M.Phil. and M.Sc. in Physics further solidified his expertise in material synthesis and characterization techniques. He also completed his B.Ed. specializing in Physical Science, as well as his undergraduate studies in Physics, both with top marks. Dr. Mariappan’s academic journey reflects his commitment to excellence and his passion for advancing knowledge in his field.

  • Ph.D. (2014) – Physics, SRMV College of Arts and Science, Bharathiar University, Coimbatore
  • M.Phil. (2009) – Physics, SRMV College of Arts and Science, Bharathiar University, Coimbatore
  • B.Ed. (2008) – Physical Science, Institute of Advanced Study in Education, Madras University, Chennai
  • M.Sc. (2007) – Physics, Presidency College, Madras University, Chennai
  • B.Sc. (2005) – Physics, Thiruvalluvar Govt. Arts College, Periyar University, Salem
Research Focus

Dr. Mariappan’s research is focused on developing advanced materials, specifically thin films and nanoparticles, for energy, sensor, and electronic applications. His work on doped ZnO thin films has led to new methods for enhancing gas-sensing properties, which can be used in applications such as environmental monitoring and industrial safety. In addition to his work on ZnO, his research has expanded to other materials like copper vanadate and lithium zinc phosphate, which have promising applications in energy storage devices such as supercapacitors. His innovative use of various deposition techniques, including spray pyrolysis and electrochemical deposition, demonstrates his commitment to producing high-quality materials with tailored properties for specific applications.

Experience

With over 11 years of academic experience, Dr. Mariappan has a strong background in both teaching and research. He began his career as an Assistant Professor at Adhiyamaan College of Engineering in June 2013 and later became an Associate Professor in June 2023. In addition to his teaching role, Dr. Mariappan has been actively involved in research and has successfully guided several Ph.D. students in their research work, focusing on energy storage materials and gas-sensing technologies. He has also participated in multiple international conferences and workshops, delivering lectures and serving as a resource person. His expertise in both academia and research continues to shape his career and contribute to the broader scientific community.

Research Timeline & Activities

Dr. Mariappan’s research career spans over a decade, during which he has consistently focused on the synthesis, characterization, and application of nanomaterials. His key research activities include:

  • 2014-2016: Principal Investigator for a UGC-funded project that focused on rare earth metals doped zinc oxide thin films for gas sensing applications.
  • 2016-Present: Supervision of multiple Ph.D. students, guiding them through research on materials for supercapacitors, sensors, and energy applications.
  • Conferences & Workshops: Acted as a Resource Person, Invited Speaker, and Conference Chair at numerous national and international conferences, such as ICONMD-23 (2023) on emerging trends in nanomaterials and devices.
  • Research Activities: Dr. Mariappan’s recent work involves advanced deposition methods like nebulizer spray pyrolysis and electrochemical deposition to create high-performance thin films for various applications.
Awards & Honors

Throughout his career, Dr. Mariappan has received several accolades and awards, reflecting his commitment to research excellence. Notable awards include:

  • Highly Commended Ph.D. (2014): For outstanding contributions to materials science during his doctoral research.
  • UGC Minor Research Project Grant (2014-2016): Funded project on rare earth doped ZnO thin films, which contributed to advancements in gas sensor technology.
  • Best Paper Awards: Multiple recognitions at national and international conferences for his research on advanced materials and their applications in sensors and energy devices.
    His work has also been cited by researchers worldwide, solidifying his status as a thought leader in materials science.

Top Noted Publications

Dr. Mariappan has published extensively in reputed journals, contributing significantly to the field of materials science. Some of his top publications include:

1. Recent Development of Low-Cost Nebulizer Sprayed Cd₁₋ₓZnₓO Nanoparticles

  • Journal: Solid State Communications
  • Year: 2022
  • DOI: 10.1016/j.ssc.2021.114544
  • EID: 2-s2.0-85116938606
  • ISSN: 0038-1098
  • Contributors: Amudhavalli, B.; Prasath, M.; Mariappan, R.
  • Summary: This paper investigates the use of nebulizer spray deposition for synthesizing Cd₁₋ₓZnₓO nanoparticles, focusing on their structural, optical, and morphological properties. The study highlights the potential for low-cost fabrication methods in nanomaterials and their application in sensing technologies.

2. Influence of Temperature on Structural, Morphological, Thermal, Optical and Photoluminescence Properties of LaPO₄ Nanoparticles

  • Journal: Optik
  • Year: 2021
  • DOI: 10.1016/j.ijleo.2021.167860
  • EID: 2-s2.0-85114259510
  • ISSN: 0030-4026
  • Contributors: Priya, R.; Mariappan, R.; Jayamurugan, P.; Bakkiyaraj, R.; Ravikumar, K.; Shkir, M.; AlFaify, S.
  • Summary: This research explores how temperature affects the various properties of LaPO₄ nanoparticles, including their structural, morphological, optical, and photoluminescence characteristics. The findings contribute to optimizing the performance of LaPO₄ for optoelectronic applications.

3. Investigation of Structural, Optical and Antibacterial Activity of ZnS Nanoparticles

  • Journal: Journal of Cluster Science
  • Year: 2021
  • DOI: 10.1007/s10876-020-01923-3
  • EID: 2-s2.0-85094832844
  • ISSN: 1572-8862, 1040-7278
  • Contributors: Vijayan, S.; Dash, C.S.; Umadevi, G.; Sundararajan, M.; Mariappan, R.
  • Summary: This study investigates the synthesis and characterization of ZnS nanoparticles and their potential for antibacterial applications. The paper also highlights the impact of the nanoparticles’ structural and optical properties on their effectiveness in antimicrobial treatments.

4. Review on Rare Earth Metals Doped LaPO₄ for Optoelectronic Applications

  • Journal: Solid State Communications
  • Year: 2021
  • DOI: 10.1016/j.ssc.2021.114457
  • EID: 2-s2.0-85113352035
  • ISSN: 0038-1098
  • Contributors: Priya, R.; Mariappan, R.; Karthikeyan, A.; Palani, E.; Krishnamoorthy, E.; Gowrisankar, G.
  • Summary: This review paper discusses the advances in the doping of LaPO₄ with rare earth metals and their application in optoelectronic devices. The paper summarizes the structural, photoluminescence, and optoelectronic properties of these doped materials and their suitability for light-emitting diodes, lasers, and other optoelectronic technologies.

5. Effect of Dopant Concentration on Polyaniline/Poly(4-styrene sulfonic acid) Composite for Ammonia Gas Detection

  • Journal: Polymers and Polymer Composites
  • Year: 2020
  • DOI: 10.1177/0967391119895743
  • EID: 2-s2.0-85077450381
  • ISSN: 1478-2391, 0967-3911
  • Contributors: Jayamurugan, P.; Mariappan, R.; Deivanayaki, S.; Ponnuswamy, V.; Maadeswaran, P.; Chavali, M.; Rao, Y.V.S.
  • Summary: This article investigates the ammonia gas sensing properties of polyaniline/poly(4-styrene sulfonic acid) composites, with a focus on the influence of dopant concentration. The study is aimed at optimizing the composite material for high-performance gas sensors, particularly for ammonia detection in industrial and environmental applications.
Strength for the Best Researcher Award:

Research Excellence in Nanomaterials

Dr. Mariappan’s expertise in nanotechnology is a core strength that positions him as a strong contender for the Best Researcher Award. His innovative work in developing low-cost, highly effective nanomaterials, particularly thin films and nanoparticles, has expanded the potential of nanotechnology for real-world applications. His research focuses on enhancing the properties of materials like ZnO, CdO, and LaPO₄ for applications in gas sensing, energy storage, and environmental monitoring, which have gained recognition in leading scientific journals.

Outstanding Contribution to Materials Science

Dr. Mariappan’s career is marked by substantial contributions to materials science, especially in thin-film deposition techniques and material characterization. His research on the preparation of rare earth doped ZnO thin films and their application in gas sensors and supercapacitors is a testament to his ability to develop high-performance materials. His dedication to enhancing the functionality of materials for modern technological challenges showcases his research prowess and positions him at the forefront of the field.

Significant Impact on Energy Storage and Sensor Technology

Dr. Mariappan’s work on materials for energy storage and sensor technology has not only advanced scientific understanding but also impacted practical technologies. His studies on copper vanadate and lithium zinc phosphate materials for supercapacitors, as well as his pioneering work in the development of high-performance gas sensors, have the potential to shape the future of sustainable energy and environmental monitoring systems. His research consistently explores new materials with improved efficiency, demonstrating a significant impact on both the scientific community and technological industries.

Leadership and Mentorship in Academia

With over 11 years of experience in academia, Dr. Mariappan has guided numerous students and researchers, including Ph.D. candidates, through their academic journeys. His leadership is not limited to teaching but also extends to research guidance, where he provides mentoring in the development of new materials and innovative scientific approaches. His ability to foster the growth of budding researchers and contribute to their professional development strengthens his position as an exceptional educator and researcher.

Recognized for Excellence in Global Research Circles

Dr. Mariappan has earned recognition not only within India but also in international research circles for his innovative work in material science. His multiple high-impact publications in renowned journals, such as Solid State Communications and Journal of Materials Science, have garnered citations globally, influencing ongoing research in nanotechnology. His invitations to deliver lectures at international conferences, along with awards for best papers and ongoing collaborations with top researchers, affirm his global standing as a researcher of excellence.

Dileep Kumar Gupta, Physics, Best Researcher Award

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Doctorate Dileep Kumar Gupta: Assistant Professor (Senior Grade ) at Galgotias University, India

Dr. Dileep Kumar Gupta is a renowned academician and researcher currently serving as an Assistant Professor-II (Research) at Galgotias University, Greater Noida, India. He holds a Ph.D. in Microwave Remote Sensing from the Indian Institute of Technology (IIT), Banaras Hindu University (BHU), Varanasi, where his research focused on the application of artificial neural networks (ANNs) for the estimation of crop growth variables through microwave remote sensing data. His work bridges multiple disciplines including agriculture, remote sensing, climate change, and machine learning. Over the years, Dr. Gupta has made significant contributions to the development of high-resolution datasets and the retrieval of biophysical parameters such as soil moisture, vegetation indices, and crop classification. His expertise in multi-sensor data integration, SAR data processing, and modeling of weather impact on agriculture places him at the forefront of agricultural remote sensing research.

Online Profiles

Dr. Gupta’s professional profiles highlight his significant contributions to research in remote sensing, machine learning, and environmental sciences.

  • LinkedIn: Dileep Kumar Gupta LinkedIn – A platform where his academic achievements and research interests are shared with the wider professional community.

  • Vidwan: Vidwan Profile – A detailed profile showcasing his academic credentials, research output, and collaborations.

  • Google Scholar: Google Scholar Profile – A repository of his published works and citations in the field of remote sensing and agriculture-related research.

Citations & Research Impact

Dr. Dileep Kumar Gupta has made significant contributions to the field of remote sensing and agricultural studies, reflected in his citation metrics:

  • Total Citations: 997 (on Google Scholar)

  • h-index: 16 (on Google Scholar)

  • i10-index: 20 (on Google Scholar)

These metrics highlight the impact and relevance of his research in both academic and practical applications, particularly in the areas of soil moisture retrieval, climate change modeling, and remote sensing technologies.

Education

  • Ph.D. in Microwave Remote Sensing (2017) from the Indian Institute of Technology (IIT) Banaras Hindu University (BHU), Varanasi, India.

    • Thesis Title: Estimation of Crop Growth Variables Using Artificial Neural Networks and Microwave Remote Sensing. This research aimed to estimate critical agricultural parameters using advanced machine learning techniques applied to microwave remote sensing data.

  • M.Sc. in Electronics (2009) from the University Institute of Engineering and Technology, CSJM University, Kanpur, India.

    • Dissertation: Development of Microcontroller-based Robotic Arm. The project focused on the integration of microcontrollers in robotics for precision control.

  • B.Sc. in Electronics (2007) from DBS (PG) College, CSJM University, Kanpur, India.

    • Dissertation: Development of a +5V Regulated Power Supply. This work focused on power electronics and its applications in laboratory setups.

  • National Eligibility Test (NET) in Electronic Science, UGC (2011)

  • Graduate Aptitude Test for Engineers (GATE) in Electronics (2011)

Research Focus

Dr. Gupta’s research interests span several advanced fields of remote sensing and geospatial sciences. His primary focus lies in the integration of multi-sensor data (microwave, optical, and hyperspectral) for environmental monitoring and agricultural applications. His recent work involves the use of Synthetic Aperture Radar (SAR) data for soil moisture retrieval, a critical parameter for agriculture. He also employs machine learning algorithms, especially deep learning, for high-resolution data disaggregation, which aids in improving the accuracy of crop growth modeling and climate change assessments. Additionally, Dr. Gupta is engaged in the development of algorithms for soil moisture retrieval using active and passive microwave remote sensing, land-use/land-cover mapping, and the assessment of weather and climate change impacts on agriculture.

Experience

Dr. Gupta has accumulated extensive academic and research experience, with a strong focus on remote sensing and geospatial data analytics:

  • Assistant Professor-II (Research) at Galgotias University (Dec 2024–Present), where he leads research in environmental monitoring and agriculture.

  • Dr. DS Kothari Post-Doctoral Fellow, Department of Physics, BHU (Sept 2021–Oct 2024), specializing in climate change impacts, soil moisture modeling, and satellite data processing.

  • Research Associate, Institute of Environment and Sustainable Development, BHU (Feb 2018–Nov 2020), where he collaborated on projects involving SAR and optical satellite data for agricultural monitoring.

  • Guest Lecturer, Department of Electronics, Sri Aurobindo College, Delhi University (Jan 2017–June 2017), focusing on electronics and remote sensing courses.

  • Lecturer, Department of Electronics, DAV College, CSJM University, Kanpur (Aug 2009–April 2011), teaching undergraduate courses in electronics and communication engineering.

Research Timeline

  • Dec 2024–Present: Assistant Professor-II (Research), Galgotias University

  • Sept 2021–Oct 2024: Dr. DS Kothari Post-Doctoral Fellow, BHU, focusing on microwave remote sensing for environmental monitoring.

  • Feb 2018–Nov 2020: Research Associate, IESD, BHU, conducting research on multi-sensor data integration for agriculture.

  • Jan 2017–June 2017: Guest Lecturer, Sri Aurobindo College, Delhi University, where he contributed to courses in remote sensing and electronics.

  • Aug 2009–April 2011: Lecturer, DAV College, CSJM University, Kanpur, where he taught courses in electronics and communication.

Awards & Honors

  • UGC Research Fellowship (2011) – Awarded to outstanding researchers in the field of electronics and remote sensing.

  • National Fellowship by ISRO (2015) – For research on satellite remote sensing applications in soil moisture estimation.

  • International Travel Support (2014) – Department of Science and Technology, India, to attend conferences in Japan.

  • Life Member of several prestigious organizations:

    • Indian Association of Physics Teachers

    • Indian Society of Remote Sensing

    • Indian Society of Geomatics

  • Qualified National Eligibility Test (NET) in Electronic Science (2011)

  • GATE Qualified in Electronics (2011)

Recent Publications

Dr. Dileep Kumar Gupta’s recent contributions highlight the intersection of remote sensing, machine learning, and GNSS technologies. Some of his notable upcoming publications include:

  1. “Application of GNSS in Earth”, B. Sharma, L. Ray, D. Murmu, A. Gupta, D.K. Gupta, GNSS Applications in Earth and Space Observations: Challenges and Opportunities, 2025.

  2. “Implementation of QKD-based System Using Nano PCF for Healthcare Applications”, VS Ajay Kumar Vyas, Achyutesh Dixit, Subhashish Tiwari, Prem Shankar Mishra, Sensing and Bio-Sensing Research, 2025.

  3. “Introduction to Google Earth Engine: A Comprehensive Workflow”, D.K. Gupta, Nitin Arora, Sakshi, Sartajvir Singh, Vishakha Sood, Google Earth Engine and Artificial Intelligence for Earth Observation: Algorithms and Sustainable Applications, 2025.

  4. “Google Earth Engine and Artificial Intelligence for Earth Observation: Algorithms and Sustainable Applications”, BP Vishakha Sood, Dileep Kumar Gupta, Sartajvir Singh, ScienceDirect, 2025.

  5. “GNSS-enabled Precision Agriculture”, A. Gupta, D. Murmu, D.K. Gupta, PS Thenkabail, GNSS Applications in Earth and Space Observations, 210-230, 2025.

  6. “Tracking Land Use and Land Cover Changes in Ghaziabad District of India Using Machine Learning and Google Earth Engine”, PK Rai, VN Mishra, D. Kumar, D.K. Gupta, M. Kumari, Google Earth Engine and Artificial Intelligence for Earth Observation, 489-509, 2025.

  7. “Machine Learning Algorithms for Air Quality and Air Pollution Monitoring Using GEE”, P. Prakriti, M. Karuppaiyan, A. Siddiqui, D.K. Gupta, Google Earth Engine and Artificial Intelligence for Earth Observation, 135-175, 2025.

  8. “Cloud Computing Platforms–based Remote Sensing Big Data Applications”, S. Suman, S. Maurya, V. Pandey, PK Srivastava, D.K. Gupta, Google Earth Engine and Artificial Intelligence for Earth Observation, 77-88, 2025.

These papers focus on the integration of GNSS, AI, and Google Earth Engine (GEE) with applications in precision agriculture, environmental monitoring, and healthcare, showcasing Dr. Gupta’s leadership in advancing remote sensing technologies and applications.

Hairch Youssef, Physics, Best Researcher Award

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Doctorate Hairch Youssef: Research doctor at University of Chouaib Doukkali, Science Engineering Laboratory for Energy, National School of Applied Sciences, Morocco

Youssef Hairch is an experienced academic and researcher in the fields of physics, mechanics, and material science. With a focus on mechanical dynamics, fluid systems, and polymer membranes, he has made significant contributions to understanding the behavior of materials under various physical conditions. Dr. Hairch completed his Ph.D. in Physics, Mechanics, and Materials Science from the University of Chouaib Doukkali, where he continues to contribute as a faculty member. His research interests extend into renewable energy solutions, including hydrogen production via membrane technology, and environmental sustainability. Throughout his career, he has actively contributed to both theoretical research and practical applications, driving forward innovation in areas such as wastewater treatment, energy systems, and material engineering.

Online Profiles

Education

Dr. Youssef Hairch’s academic journey began at the Polydisciplinary Faculty of Safi, where he earned his Bachelor’s degree in Physics in 2007. His pursuit of advanced knowledge led him to the Faculty of Science and Technology of Settat, where he obtained a Master’s degree in Mechanical Engineering and System Modeling (2010), specializing in mechanical systems and computational modeling. He furthered his academic excellence by completing his Ph.D. in Physics, Mechanics, and Materials Science at the University of Chouaib Doukkali in El Jadida (2020), where he conducted pioneering research on polymer membranes, mass transport phenomena, and renewable energy technologies. Dr. Hairch’s education reflects his commitment to both deep theoretical understanding and practical application in the field of physical sciences.

Research Focus

Dr. Hairch’s research spans a diverse range of topics within the realm of material science, fluid mechanics, and renewable energy. His primary focus lies in understanding the behavior of polymeric membranes in various applications, particularly in hydrogen production, water desalination, and membrane separation technologies. He also explores viscoelastic materials, their mass transport properties, and how phase separation influences their performance in industrial applications. A key area of his work includes the design of sustainable systems that address critical environmental challenges, such as wastewater treatment and energy-efficient filtration systems. In addition to his work on polymers, Dr. Hairch is investigating the dynamic properties of droplets and fluid interface dynamics, particularly in the context of respiratory aerosols and pandemic control.

Experience

Dr. Hairch has a rich teaching background, having worked at various educational institutions including the National School of Applied Sciences of El Jadida (ENSAJ) and the National School of Applied Sciences of Safi (ENSAS). His pedagogical experience encompasses a wide range of courses, from fluid mechanics and thermodynamics to material science and optical physics. He has taught numerous practical and theoretical courses, including mechanics of solids, fluid dynamics, and thermodynamic systems, providing hands-on learning experiences to students. Additionally, Dr. Hairch has co-supervised several Master’s thesis projects, contributing to advancements in fields such as membrane technology and energy systems. His role in mentoring students extends beyond academic instruction to practical problem-solving in applied engineering contexts.

Research Timeline

  • 2015–2020: Dr. Hairch completed his Ph.D. in Physics and Mechanical Engineering, where he developed advanced models of mass transport and phase-separated polymeric membranes.

  • 2020–2023: Focus shifted to fluid dynamics, polymer mechanics, and membrane separation technologies. Dr. Hairch investigated hydrogen permeation and membrane stability in hydrogen production processes. His work also encompassed modeling the interfacial dynamics of complex materials in fluid systems.

  • 2023–Present: Currently exploring innovative solutions for sustainable water treatment systems, including electromagnetic applications in desalination technologies and environmental engineering. His most recent research also delves into energy-efficient systems and green hydrogen technologies for industrial applications.

Awards & Honors

Dr. Hairch’s contributions to science and technology have been recognized through various awards and accolades:

  • 2024: Dr. Hairch was awarded multiple patents related to water desalination and wastewater treatment, with the aim to revolutionize environmental engineering technologies.

  • 2020: Awarded the Highly Commended Paper Award for his publication on polymeric membranes in the Journal of Membrane Science, underscoring his significant impact on the field of membrane technology.

  • 2019: Best Paper Award at the International Conference on Polymer Science, recognizing his pioneering work on phase-separated polymeric membranes for industrial applications.

  • 2018: Recognized by the Scientific Society of Material Science for innovative research in mechanical properties of polymeric membranes.

Top-Noted Publication

  • “Exploring the Mechanical Dynamics and Physical Characteristics of Droplets Using Face Mask Materials”
    Euro-Mediterranean Journal for Environmental Integration, 2025.
    DOI: 10.1007/s41207-024-00634-9
    This study explores the mechanical dynamics of droplets and their physical characteristics in the context of face mask materials, focusing on applications for aerosol transmission and pandemic control.

  • “A Numerical Study of Interface Dynamics in Fluid Materials”
    Matériaux & Techniques, 2024.
    DOI: 10.1051/mattech/2024018
    This paper provides a numerical study of the interface dynamics in fluid materials, aiming to better understand material behavior in real-world fluid-based applications.

  • “Assessment of Sand and Hearth Ash Filtration for Wastewater Treatment and Novel Monitoring via Complex Conductivity”
    Euro-Mediterranean Journal for Environmental Integration, 2024.
    DOI: 10.1007/s41207-024-00535-x
    This publication investigates the use of sand and hearth ash for wastewater treatment, introducing a novel monitoring approach based on complex conductivity for efficient filtration in environmental systems.
    EID: 2-s2.0-85192511893
    Source: Scopus – Elsevier

  • “First-Principles Study of Olivine AFePO₄ (A = Li, Na) as a Positive Electrode for Lithium-Ion and Sodium-Ion Batteries”
    Euro-Mediterranean Journal for Environmental Integration, 2024.
    DOI: 10.1007/s41207-024-00639-4
    This article presents a first-principles study of olivine-based materials for use as positive electrodes in lithium-ion and sodium-ion batteries, contributing to advancements in energy storage technologies.
    EID: 2-s2.0-85203281746
    Source: Scopus – Elsevier

  • “Mathematical Modeling of Mechanical Properties in the Permeation of Green Hydrogen Through Membrane Separation Materials”
    Mathematical Modeling and Computing, 2024.
    DOI: 10.23939/mmc2024.02.359
    This research delves into mathematical modeling of the mechanical properties involved in the permeation of green hydrogen through membrane separation materials, offering insights for sustainable energy applications.
    EID: 2-s2.0-85191316249
    Source: Scopus – Elsevier

Ruby Saha, Physics, Best Researcher Award

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Doctorate Ruby Saha: Researcher at IIT Madras, India

Dr. Ruby Saha is a dedicated Ph.D. candidate at the Department of Physics, Indian Institute of Technology (IIT) Madras, with a focus on understanding the El Niño Southern Oscillation (ENSO) through the lens of complex network theory. Her research delves into the study of global climate phenomena and their interconnections using advanced statistical physics techniques. By modeling climate systems as complex networks, she investigates how phenomena like ENSO manifest in network topologies and how these structures can be utilized to predict the strength and duration of future climate events. Her work is an interdisciplinary intersection of climatology, physics, and data science, contributing to more accurate climate forecasting and understanding of long-range climate dynamics. Ruby is passionate about environmental sustainability and advancing our knowledge of how global weather systems interact and evolve over time.

Online Profiles

Education

  • Ph.D. in Physics (January 2016 – March 2024)
    Indian Institute of Technology (IIT) Madras, Chennai, India
    Ruby’s doctoral research focuses on studying the El Niño Southern Oscillation (ENSO) using complex network analysis. By constructing climate networks based on temperature reanalysis data, she investigates the spatial and temporal correlations within the network, aiming to improve predictions of ENSO events. Her work is crucial for understanding the dynamics of global climate systems and refining long-term climate models.

  • M.Tech. in Earth Science (2013 – 2015)
    Indian Institute of Science (IISc), Bangalore, India
    Her M.Tech. thesis centered on first-principles methods in geochemistry, exploring advanced computational techniques to model the properties of materials at the atomic level. This work laid a solid foundation in applying theoretical models to real-world scientific problems, which later influenced her research in climate science.

  • M.Sc. in Physics (2009 – 2011)
    Indian Institute of Technology (IIT) Kharagpur, India
    Ruby’s master’s research involved Many-Body Perturbation Theory, focusing on the hyperfine structures of alkali atoms. This fundamental work deepened her understanding of quantum mechanics and the interactions between particles, which later enriched her approach to studying large-scale systems like climate networks.

  • B.Sc. (Honors) in Physics (2006 – 2009)
    University of North Bengal, Darjeeling, India
    Ruby earned her undergraduate degree with honors in Physics, furthering her interest in mathematical methods and their applications in physical sciences. Her studies also included a minor in Mathematics and Chemistry, broadening her academic perspective and equipping her with diverse scientific knowledge.

Research Focus

Ruby’s research investigates the behavior of climate phenomena, especially the El Niño Southern Oscillation (ENSO), by applying complex network theory to large-scale climate data. She constructs networks from temperature reanalysis data, where geographical sites act as nodes, and their correlations form the links. Through this approach, she uncovers patterns of teleconnections that reveal underlying dynamics of ENSO and other climatic phenomena. By studying network topology, such as small-world characteristics, she has been able to forecast the onset and intensity of ENSO events with greater precision. Her work aims to create a better understanding of how climate systems are interconnected and to predict future weather patterns with improved accuracy, which has profound implications for environmental management and disaster preparedness.

Experience

Ruby has been involved in both teaching and research throughout her academic career. As a course instructor, she has taught and mentored students in various laboratory courses at IIT Madras, including PH5210, PH1030, and PH5060, fostering their understanding of advanced physics concepts and experimental methods. Additionally, she has participated in multiple international conferences, such as the AGU Fall Meeting and EGU, where she presented her research findings and engaged with the global scientific community. Her role as a mentor for the AGU Mentoring365 program (2022-2023) further reflects her commitment to nurturing young scientists. She also attended specialized workshops like the ICTP Workshop on Climate Data and Seasonal Forecast Analysis Techniques, expanding her expertise in climate data analysis and predictive modeling.

Research Timeline

  • 2016 – 2024: Ph.D. in Physics, IIT Madras
    Ruby’s doctoral research focuses on the complex network analysis of ENSO and other climate events, with an emphasis on predicting climate behavior based on network topologies.

  • 2014 – 2015: M.Tech. in Earth Science, IISc Bangalore
    Conducted research in geochemistry, focusing on first-principles methods to model material properties at the atomic scale.

  • 2010 – 2011: M.Sc. in Physics, IIT Kharagpur
    Worked on Many-Body Perturbation Theory, specifically examining the hyperfine structures of alkali atoms and gaining a deeper understanding of quantum systems.

  • 2006 – 2009: B.Sc. (Honors) in Physics, University of North Bengal
    Developed a strong foundation in Physics, Mathematics, and Chemistry, which laid the groundwork for Ruby’s interdisciplinary approach to complex scientific problems.

Awards & Honors

  • Dynamical Days 2023: Financial Support for conference participation

  • Women Leading IIT M Grants (2021-22): Recognition for outstanding research contributions

  • AGU Students Virtual Travel Grant (2020): Awarded for the AGU Fall Meeting presentation

  • GATE SRF (Ph.D. Fellowship) in Physical Sciences (2018): For exceptional performance in graduate studies

  • CSIR-UGC NET JRF (Ph.D. Fellowship) in Physical Sciences (2010): National-level fellowship for research excellence

  • MCM Award (2011): Recognized by IIT Kharagpur for academic excellence

  • JAM Physics Fellowship (2009): Fellowship for outstanding performance in the Joint Admission Test for M.Sc. in IITs

Top-Noted Publications

Journal Articles

  1. Saha, R., Ghosh, D. (2025). Analysis of pre-El Niño and La Niña events using climate network approach. Chaos, Solitons & Fractals, 191, 115781.

  2. Saha, R., Gupte, N. (2023). Signatures of climatic phenomena in climate networks: El Niño and La Niña. Physical Review E, 107(6), 064306.

  3. Sonone, R., Saha, R., Gupte, N. (2020). Signatures of climatic phenomena in climate networks: Cyclones, El Niño and La Niña. Indian Academy of Sciences Conference Series, 3(3).

Conference Presentations and Abstracts

Saha, R. (2023). Prognosis of ENSO episodes: A complex climate network approach. Dynamics Days Europe 2023.

Saha, R. (2022). The role of teleconnections in complex climate network. EGU General Assembly Conference Abstracts, EGU22-91.

Saha, R., Gupte, N. (2021). Signatures and predictors of the El Niño and La Niña phenomena in climate networks. AGU Fall Meeting Abstracts, NG52A-05.

Saha, R., Gupte, N. (2020). Signatures of Climatic Phenomena in Climate Networks: El Niño and La Niña events. AGU Fall Meeting Abstracts, OS015-0015.