Prof. Gérard Gouesbet | Interaction light | Lifetime achievement Award

Prof.Emeritus at Interaction light/particles, France

Gérard Gouesbet (b. 1947) is a Professor Emeritus at INSA Rouen, France, known for his pioneering work in generalized Lorenz-Mie theory (GLMT) and laser-light interactions with particles. He has contributed extensively to optics, scattering theory, and computational physics, with over five decades of research and academic excellence. Gouesbet has held prestigious positions in French and international universities, authored influential publications, and played a key role in advancing particle-scattering methodologies. His work has gained global recognition, making him a highly cited researcher in applied optics and aerosol physics.

Publication Profile

scopus

🎓 Education

1977 – State Doctorate in Physics, Rouen University 1973 – PhD in Physics, Rouen University 1971 – Master’s in Physics, Rouen University 1970 – Bachelor in Physics, Rouen University 1969 – Licence in Physics & Physico-Chemistry, Rouen University 🏫

👨‍🏫 Experience

2007-Present – Professor Emeritus, INSA Rouen 2001-2007 – Exceptional Class Professor (2nd Level), Rouen University 1997-2001 – Exceptional Class Professor (1st Level), Rouen University 1983-2003 – Founder & Director, LESP Laboratory 1975-1983 – CNRS Researcher & Postdoc at Imperial College & Sheffield University 1968-1971 – Boarding-School Master, Rouen University 🏫

🏆 Awards & Honors

Top 2% Most Cited Researchers (Stanford/Elsevier) Knight of Academic Palms (France) Gold Medallion – Wroclaw University (1995) Van de Hulst Award (2020) IAAM Award Lecture (2019) Honorary Professor – China 🇨🇳 Best Paper Awards – JOSA, Xidian University, Applied Optics 🏅 Outstanding Reviewer – Optics Communications, JQSRT (2016-2018)

🔬 Research Focus

Generalized Lorenz-Mie Theory (GLMT) for light scattering Laser-light interactions with particles in fluid and aerosol systems 🔬 Computational physics & wave scattering simulations Optical particle characterization for biomedical & atmospheric sciences Non-spherical particle behavior in electromagnetic fields 📡 Advancement of theoretical optics and experimental validation ⚛️

Publications 📖

Eliminating blowing-ups and evanescent waves when using the finite series technique in evaluating beam shape coefficients for some T-matrix approaches, with the example of Gaussian beams

Citations 1

Finite series approach for the calculation of beam shape coefficients in ultrasonic and other acoustic scattering

Citations 3

Conclusion

Prof. Gérard Gouesbet is a highly deserving candidate for the Best Researcher Award, given his decades of contributions, international recognition, and leadership in photonics and optical science. His research has transformed the field of laser-light interactions, making him a strong contender for this prestigious honor.

Dr. Avijit Saha | Biomedical Imaging | Best Researcher Award

Dr. Technical university of Dresden , Germany

Avijit Saha is a Materials Scientist with extensive expertise in semiconductor quantum dots (QDs), focusing on their optical, electronic, and magnetic properties for optoelectronic applications. His research includes developing RoHS-compliant QDs and innovative UV/NIR sensors. Saha has worked as a Marie Curie Fellow at TU Dresden, and previously at ICFO-Barcelona and IRIG CEA Grenoble, achieving breakthroughs in QD-based devices and sustainability. He holds a PhD from JNCASR, India, and has received numerous awards, including the Marie Skłodowska-Curie Fellowship and ‘SEAL of Excellence’ from the European Commission. Saha also mentors students and has experience in teaching and supervising research projects.

Professional Profiles:

Google scholar

Education 🎓

PhD in Materials Science, Quantum Dot Lab, Jawaharlal Nehru Centre for Advanced Scientific Research (JNCASR), India (Jan 2012-May 2017)
Thesis: Interface Engineering of Quantum Dot Heterostructures for Optoelectronic Applications and/or Magnetic PropertiesMaster’s Degree in Physics, Department of Physics, Indian Institute of Technology (IIT), Madras, India (2011)
Thesis: Synthesis, Optical and Magnetic Properties of Ni Doped and (Na, Ni) Co-doped ZnO NanoparticlesBachelor’s Degree in Physics (Honors), Burdwan Raj College, The University of Burdwan, India (2009)

Research Experience & Key Achievements 🔬

Marie Curie Fellow (June 2023-Present), TU Dresden, Germany
Leading research on SWIR technology advancements using low-toxic semiconductor QDs, developing record PLQY (>50%) SWIR emitting Cd/Pb-free QDs with very low FWHM (102meV), and exploring PbS QDs in SWIR photodetectors.
Postdoctoral Researcher (Dec 2021-May 2023), STEP Group, IRIG, CEA Grenoble, France
Developed UV, blue, and NIR-emitting QDs for LED applications in collaboration with SAMSUNG, prepared grant proposals, and provided monthly research updates.
Postdoctoral Researcher (July 2017-Oct 2021), Functional Optoelectronic Nanomaterials Group, ICFO-Barcelona, Spain
Led the design of QD-based UV enhanced Si-CMOS sensors and QD-based UV band discriminators, synthesized NIR-efficient kesterite-based quaternary QDs, and PbS QDs for amplified spontaneous emission applications.
Doctoral Student (Jan 2012-May 2017), Quantum Dot Lab, JNCASR, India
Engineered QD interfaces for efficient light emission from CdSe/CdS and CdTe/CdS heterostructures, demonstrated anomalous exchange bias effects in magnetic/semiconductor heterostructures, and synthesized uniform doped QDs using controlled diffusion mechanisms.

Scientific and Technical Skills 🛠️

Material Synthesis: RoHS compliant QDs (InP, Ga2S3, CuInZn(S/Se), AgInTe2, etc.), Pb/Cd-based QDs, diluted magnetic semiconductors, and hybrid magnetic/semiconductor heterostructures.Device Fabrication: Semiconductor processing cleanroom, fabrication of LEDs, photodetectors, FETs, solar cells, sensors, and measurement of electrical and optoelectronic properties.Characterizations: XRD, SEM, XPS, TEM, HRTEM, STEM-EDAX, ICP-OES, TGA, UV-VIS absorption, PL-spectroscopy, TRPL, Raman spectroscopy, FTIR, NMR, XAFS, and UPS.

Awards and Fellowships 🏆

Marie Skłodowska-Curie Actions (MSCA) Postdoctoral Fellowship (2022)‘SEAL of Excellence’ from European Commission (Horizon Europe, 2022)Junior Research Fellowship in Physical Sciences under CSIR fellowship scheme (2012)Eligibility for Lectureship (NET) in Physical Science (CSIR-UGC NET, 2013)

Supervising and Mentoring Activities 👩‍🏫

Instructed a course on ‘Efficiency of Photovoltaic Solar Cells’ at ICFO-Barcelona.Co-instructed practical classes for Masters Students at TU Dresden.Teaching Assistant for Quantum Chemistry and Chemical Bonding at JNCASR.Mentored one PhD, one Master’s, and six visiting students in research projects.Lab Mentor for Integrated PhD Students at JNCASR, Bangalore, India.

Strengths for the Award:

Innovative Research in Sustainable Technologies:
- Saha has worked on RoHS compliant, non-toxic quantum dots (QDs), emphasizing sustainable and environmentally friendly materials. This aligns well with community-focused research impacting public health and safety.
- His work on enhancing UV sensitivity for CMOS sensors and developing environmentally friendly UV-Blue emitting QDs for LEDs demonstrates a commitment to improving technology in a sustainable manner.
Extensive Research and Development Experience:
- His roles span from doctoral research to postdoctoral positions across prestigious institutions and industries, including collaborations with major companies like SAMSUNG.
- His research has led to breakthroughs in various optoelectronic applications, showcasing a deep understanding and innovative approach to materials science.
Notable Achievements and Recognition:
- Receipt of the Marie Skłodowska-Curie fellowship, SEAL of Excellence, and other awards highlights his exceptional contributions and recognition in the field.
- His research outputs, including the development of high-performance QDs and advancements in optoelectronic devices, reflect a high impact in the scientific community.
Leadership and Mentoring:
- Saha has demonstrated leadership through mentoring students and instructing courses, contributing to the academic and professional growth of the next generation of researchers.
Diverse Technical Skills:
- Proficient in a wide range of materials synthesis, device fabrication, and characterization techniques, which indicates a comprehensive skill set that supports impactful research.

Areas for Improvement:

Community Engagement:
- While his research is innovative and impactful, additional emphasis on direct community engagement or outreach activities would strengthen his application for a community-focused award. Demonstrating how his research directly benefits or involves the community could be beneficial.
Documentation of Community Impact:
- Providing concrete examples or case studies where his work has led to tangible community benefits or collaborations with community-based organizations would strengthen his case.

Conclusion:

Avijit Saha’s extensive research achievements, particularly in developing sustainable and environmentally friendly technologies, make him a strong candidate for the Research for Community Impact Award. His innovative work aligns well with the goals of impacting communities positively through scientific advancement. Emphasizing direct community engagement and providing more detailed examples of how his research has benefited or involved the community could further enhance his suitability for the award.

✍️Publications Top Note :

Near-unity quantum yield in semiconducting nanostructures: Structural understanding leading to energy efficient applications
Authors: A Saha, KV Chellappan, KS Narayan, J Ghatak, R Datta, R Viswanatha
Journal: The Journal of Physical Chemistry Letters
Volume: 4(20), Pages: 3544-3549
Citations: 72
Year: 2013

Uniform doping in quantum-dots-based dilute magnetic semiconductor
Authors: A Saha, A Shetty, AR Pavan, S Chattopadhyay, T Shibata, R Viswanatha
Journal: The Journal of Physical Chemistry Letters
Volume: 7(13), Pages: 2420-2428
Citations: 50
Year: 2016

Ag2ZnSnS4 Nanocrystals Expand the Availability of RoHS Compliant Colloidal Quantum Dots
Authors: A Saha, A Figueroba, G Konstantatos
Journal: Chemistry of Materials
Volume: 32, Pages: 2148-2155
Citations: 30
Year: 2020

Diffusion doping in quantum dots: bond strength and diffusivity
Authors: A Saha, M Makkar, A Shetty, K Gahlot, AR Pavan, R Viswanatha
Journal: Nanoscale
Volume: 9(8), Pages: 2806-2813
Citations: 30
Year: 2017

Visible‐blind ZnMgO Colloidal Quantum Dot Downconverters expand Silicon CMOS Sensors Spectral Coverage into Ultraviolet and enable UV Band Discrimination
Authors: A Saha, G Kumar, S Pradhan, G Dash, R Viswanatha, G Konstantatos
Journal: Advanced Materials
DOI: 10.1002/adma.202109498
Citations: 23
Year: 2022

Magnetism at the Interface of Magnetic Oxide and Nonmagnetic Semiconductor Quantum Dots
Authors: A Saha, R Viswanatha
Journal: ACS Nano
Volume: 11(3), Pages: 3347-3354
Citations: 23
Year: 2017

Ligand assisted digestion and formation of monodisperse FeCoS2 nanocrystals
Authors: A Shetty, A Saha, M Makkar, R Viswanatha
Journal: Physical Chemistry Chemical Physics
Volume: 18(37), Pages: 25887-25892
Citations: 18
Year: 2016

Ag2ZnSnS4-ZnS core-shell colloidal quantum dots: a near-infrared luminescent material based on environmentally-friendly elements
Authors: A Saha, G Konstantatos
Journal: Journal of Materials Chemistry C
DOI: 10.1039/D1TC00421B
Citations: 14
Year: 2021

Interface Modeling Leading to Giant Exchange Bias from the CoO/CoFe2O4 Quantum Dot Heterostructure
Authors: A Saha, S Sohoni, R Viswanatha
Journal: The Journal of Physical Chemistry C
DOI: 10.1021/acs.jpcc.8b11124
Citations: 13
Year: 2019

Ultra-Thin Infrared Optical Gain Medium and Optically-Pumped Stimulated Emission in PbS Colloidal Quantum Dot LEDs
Authors: N Taghipour, I Tanriover, M Dalmases, GL Whitworth, C Graham, A Saha, …
Journal: Advanced Functional Materials
DOI: 10.1002/adfm.202200832
Citations: 12
Year: 2022

Volume and concentration scaling of magnetism in dilute magnetic semiconductor quantum dots
Authors: A Saha, R Viswanatha
Journal: The Journal of Physical Chemistry C
Volume: 121(39), Pages: 21790-21796
Citations: 11
Year: 2017

Core–Shell to Doped Quantum Dots: Evolution of the Local Environment Using XAFS
Authors: A Saha, S Chattopadhyay, T Shibata, R Viswanatha
Journal: The Journal of Physical Chemistry C
Volume: 120(33), Pages: 18945-18951
Citations: 11
Year: 2016

The curious case of CdTe/CdS: photoabsorption versus photoemission
Authors: A Saha, S Chattopadhyay, T Shibata, R Viswanatha
Journal: Journal of Materials Chemistry C
Volume: 2(20), Pages: 3868-3872
Citations: 10
Year: 2014

Thermodynamics of Dual Doping in Quantum Dots
Authors: M Makkar, A Saha, S Khalid, R Viswanatha
Journal: The Journal of Physical Chemistry Letters
Volume: 10, Pages: 1992-1998
Citations: 7
Year: 2019

Gallium Sulfide Quantum Dots with Zinc Sulfide and Alumina Shells Showing Efficient Deep Blue Emission
Authors: A Saha, R Yadav, D Aldakov, P Reiss
Journal: Angewandte Chemie International Edition
Volume: 62(45), Article: e202311317
Citations: 2
Year: 2023

Water‐Soluble Alumina‐Coated Indium Phosphide Core–Shell Quantum Dots with Efficient Deep‐Red Emission Beyond 700 nm
Authors: A Saha, R Yadav, C Rivaux, D Aldakov, P Reiss
Journal: Small
Article: 2404426
Year: 2024

Exciton Dynamics in Mn/Ni Dual‐doped Semiconductor Quantum Dots
Authors: A Saha, K Gahlot, R Viswanatha
Journal: ChemNanoMat
Article: e202100457
Year: 2022

Interface engineering of quantum dot heterostructures for optoelectronic applications and/or magnetic properties
Author: A Saha
Institution: Jawaharlal Nehru Centre for Advanced Scientific Research
Year: 2016

Cd-based-chalcogenide/CdS core-shell nanomaterial, defective/defect-free core nanocrystal, methods and applications thereof
Authors: Ranjani Viswanatha, Avijit Saha, Kavassery Sureswaran Narayan, Kishore …
Patent Number: WO2014147555 A2
Year: 2015

Gérard Gouesbet | Interaction light | Lifetime achievement Award