Tatiana Itina | nanotechnology | Best Researcher Award

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Prof. Dr. Tatiana Itina | nanotechnology | Best Researcher Award

Research Director at CNRS, Lab. Hubert Curien UMR 5516/UJM, France.

Dr. Tatiana E. Itina is a renowned physicist and research director at CNRS, based at the Hubert Curien Laboratory in France. 🌍 She is globally recognized for her pioneering work in laser–matter interactions, nanomaterial modeling, and femtosecond laser synthesis. πŸ”¬ With over 130 publications and leadership in international projects, she founded the LASERMODE and PREDICT teams, contributing significantly to sustainable nanotechnology, photonics, and medical applications. πŸ’‘ Her theoretical frameworks and simulations have shaped modern approaches in nanoparticle formation and surface chemistry. As a frequent keynote speaker and mentor, she actively shapes the next generation of materials scientists. πŸ‘©β€πŸ”¬βœ¨

PROFILEΒ 

GOOGLE SCHOLAR

SCOPUSΒ 

ORCIDΒ 

πŸ” Summary of Suitability:

Dr. Tatiana E. Itina exemplifies excellence in scientific innovation, global impact, and leadership in laser–matter interactions and nanomaterial science. With over 130 high-impact publications and pioneering theoretical frameworks, she has significantly advanced femtosecond laser processing, nanoparticle synthesis, and surface chemistry. As a CNRS Research Director and founder of renowned teams (LASERMODE & PREDICT), her influence extends across academia, industry, and international research collaborations. She leads cutting-edge projects like PEPR SUNRISE and contributes to global science governance, mentoring, and education. Her broad citation footprint and frequent invited keynotes underscore her global recognition and scholarly authority. πŸŒπŸ“š

Education & ExperienceΒ  πŸ“˜

  • πŸ“˜ HDR (Habilitation): UniversitΓ© de la MΓ©diterranΓ©e, France – 2008

  • πŸŽ“ PhD in Physics: Aix-Marseille University & MIPT (cotutelle) – 1999

  • πŸ§‘β€πŸŽ“ MSc in Physics/Engineering: MIPT, Moscow Institute of Physics and Technology – 1994 (with honors)

  • πŸ‘©β€πŸ”¬ Director of Research, CNRS – 2010–present

  • πŸ§ͺ Team Leader, LASERMODE & PREDICT research groups

  • 🧭 Scientific Secretary, CNRS Section 10 (2021–2025)

Professional Development πŸš€πŸ“–

Dr. Itina has continuously advanced her career through dynamic leadership and global collaboration. 🀝 She leads strategic initiatives like PEPR SUNRISE and ANR LAMORSIM, focusing on ultrafast laser synthesis and nanomaterials modeling. ⚑ Her roles span EU consortia, bilateral research alliances, and editorial boards, demonstrating her impact in shaping scientific discourse. πŸ“š She mentors PhD students and postdocs across Europe and Africa and actively participates in curriculum development and international schools. 🌐 Recognized as a top invited speaker and panel expert, she also contributes to evaluation committees like ANR, NSF, and ERC, influencing science policy and innovation worldwide. πŸ†πŸ§¬

Research Focus πŸ”πŸ€–

Dr. Itina’s research primarily focuses on laser-induced nanomaterial synthesis and modeling. πŸ’₯ Her work delves into femtosecond and picosecond laser interactions with matter, exploring ultrafast processes like melting, ablation, and alloying. 🧫 She specializes in designing multifunctional nanohybrids, controlling surface wettability, and understanding nanoparticle transformations. 🌑️ With atomistic simulations and machine learning, she pioneers predictive approaches to optimize laser processing and material performance. πŸ€– Her findings advance applications in biomedicine, photonics, catalysis, and energy. 🌍 From theoretical frameworks to real-world innovations, Dr. Itina’s interdisciplinary research bridges physics, chemistry, and engineering in transformative ways. πŸ”§πŸ§ͺ

Awards and Honors πŸ†πŸŽ–οΈ

  • πŸ₯‡ IAAM Fellow Medal – International Association of Advanced Materials (2024)

  • πŸ† Outstanding Referee Award – Springer-Nature Journals

  • 🎀 Top Invited Speaker – SPIE Photonics West, HPLA, ICPEPA, SMS, LPHYS

  • πŸ‘©β€πŸ’Ό Scientific Board Member – SPIE, ALT, CECAM, E-MRS, Photonics West LASE

  • πŸ”¬ Founder – LASERMODE & PREDICT Research Teams (CNRS-recognized)

Publications & Citations πŸ“š

  1. πŸ“„ Investigation of nanoparticle generation during femtosecond laser ablation of metals (2007) – Cited by 1,000+ πŸ“ˆ
    πŸ”— Applied Surface Science

  2. πŸ“„ Spontaneous periodic ordering on the surface and in the bulk of dielectrics irradiated by ultrafast laser: a shared electromagnetic origin (2017) – Cited by 200+ πŸ“ˆ
    πŸ”— Scientific Reports

  3. πŸ“„ On nanoparticle formation by laser ablation in liquids (2010) – Cited by 500+ πŸ“ˆ
    πŸ”— The Journal of Physical Chemistry C

  4. πŸ“„ Understanding mono- and bi-metallic Au and Ni nanoparticle responses to fast heating (2024) – Cited by 50+ πŸ“ˆ
    πŸ”— Nanoscale Advances

  5. πŸ“„ Mechanisms of laser-based synthesis and modifications of nanomaterials (2023) – Cited by 100+ πŸ“ˆ
    πŸ”— SPIE Proceedings

πŸ” Conclusion:

Dr. Itina’s groundbreaking contributions, sustained research excellence, and scientific leadership make her an outstanding candidate for the Best Researcher Award. Her innovative modeling work and global impact align perfectly with the values this award aims to celebrate. She not only advances science but also empowers the next generation of researchers. πŸ…πŸ”

 

 

Venkatesan Srinivasan| Nanomaterials | Young Scientist Award

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Dr. Venkatesan Srinivasan| Nanomaterials | Young Scientist Award

Assistant Professor at Vel Tech Rangarajan Dr.Sagunthala R&D Institute of Science and Technologyin India.

Dr. V. Srinivasan πŸŽ“ is an Assistant Professor of Chemistry at Vel Tech Rangarajan Dr. Sagunthala R&D Institute of Science and Technology, Chennai, India. His research focuses on the synthesis, characterization, and optimization of nanoprobes and small organic probes for applications in sensors, biological systems, and solar cells 🌞πŸ§ͺ. He has published 27 articles in reputed international journals, with a total impact factor of 106.9 πŸ“–βœ¨. His work also includes the fabrication of dye-sensitized solar cells and the development of bioactive organic molecules. With 562 citations πŸ“Š and an H-index of 13, Dr. Srinivasan is making significant contributions to photochemistry and nanomaterials research.

Professional Profile

Google ScholarΒ 

πŸ” Summary of Suitability:

Dr. V. Srinivasan is an ideal candidate for the Young Scientist Award due to his exceptional contributions to a, photochemistry, and energy research πŸ”¬πŸŒž. As an Assistant Professor, he has demonstrated remarkable scientific innovation, impactful research, and a strong commitment to advancing sustainable chemistry. His work focuses on fluorescent nanoprobes, bioactive molecules, and dye-sensitized solar cells, addressing critical challenges in biosensing, environmental monitoring, and renewable energy.

πŸŽ“ Education:

  • Ph.D. in Chemistry πŸ§ͺ – Specialized in nanomaterials and photochemistry.

  • Master’s in Chemistry (M.Sc.) πŸ“š – Advanced studies in chemical sciences.

  • Bachelor’s in Chemistry (B.Sc.) 🏫 – Foundation in fundamental chemistry concepts.

πŸ’Ό Experience:

  • Assistant Professor πŸ‘¨β€πŸ« – Vel Tech Rangarajan Dr. Sagunthala R&D Institute of Science and Technology, Chennai.

  • Researcher in Nanomaterials πŸ”¬ – Expertise in synthesizing and characterizing nanoprobes for diverse applications.

  • Scientific Author ✍️ – Published 27 papers in international journals with an impact factor of 106.9.

  • Photochemistry Specialist 🌞 – Worked on dye-sensitized solar cells and organic sensitizers for improved efficiency.

  • Reviewer & Collaborator 🀝 – Engaged in 5 research collaborations and contributed to journal revisions.

 

Professional Development πŸš€πŸ“–

Dr. V. Srinivasan πŸŽ“ has continuously enhanced his expertise through extensive research and collaborations 🀝. As an Assistant Professor πŸ‘¨β€πŸ«, he has contributed to the advancement of nanoprobes, bioactive molecules, and photochemistry 🌞. His professional growth includes publishing 27 high-impact journal articles πŸ“–, achieving an H-index of 13 πŸ“Š, and securing 562 research citations. He actively engages in interdisciplinary collaborations, refining innovative methodologies in nanotechnology πŸ”¬. A dedicated member of IAENG (504612) πŸ…, he stays updated with emerging trends. His work in fluorescent nanomhttps://chemicalscientists.com/venkatesan-srinivasan-nanomaterials-young-scientist-award-2180/aterials and solar energy conversion reflects his commitment to scientific innovation and sustainability 🌱.

Research Focus πŸ”πŸ€–

Dr. V. Srinivasan’s research revolves around nanomaterials and photochemistry πŸ”¬πŸŒž, focusing on the synthesis and characterization of fluorescent nanoprobes for applications in biosensors, solar cells, and environmental monitoring πŸ§ͺ🌍. His work includes developing aggregation-induced emissive (AIE) nanodots for bioimaging 🧬, graphene oxide dots (GO dots) for explosive detection πŸ’₯, and carbon nanocubes (CNCs) for antibiotic sensing πŸ’Š. Additionally, he explores dye-sensitized solar cells (DSSC) with novel organic sensitizers to enhance efficiency ⚑. His recent focus is on synthesizing bioactive organic molecules and nanomaterials for biomedical applications, making significant contributions to sustainable and innovative chemistry πŸŒ±πŸ§‘β€πŸ”¬.

πŸ† Awards & Honors:

  • Young Scientist Award Nominee πŸ… – Recognized for contributions in nanomaterials and photochemistry.

  • Published in High-Impact Journals πŸ“– – 27 research papers with a total impact factor of 106.9.

  • Research Citations Achievement πŸ“Š – 562 citations, H-index: 13, and i10-index: 14.

  • Active Research Collaborator 🀝 – Engaged in 5 interdisciplinary collaborations.

  • Professional Membership πŸŽ“ – Member of IAENG (504612) for engineering and research excellence.

  • Expert Reviewer πŸ“ – Contributed to 23 journal revisions in reputed international publications.

Publication Top Notes:

πŸ“— Green synthesis of zinc oxide nanoparticles using Brassica oleracea var. botrytis leaf extract: Photocatalytic, antimicrobial and larvicidal activity – 111 citations, 2023 (Chemosphere 323, 138263)

πŸ’‘ Unravelling the effect of anchoring groups on the ground and excited state properties of pyrene using computational and spectroscopic methods – 58 citations, 2016 (PCCP 18(19), 13332-13345)

πŸ”¬ A simple and ubiquitous device for picric acid detection in latent fingerprints using carbon dots – 48 citations, 2020 (Analyst 145(13), 4532-4539)

🦠 Pyrene based Schiff bases: Synthesis, crystal structure, antibacterial and BSA binding studies – 46 citations, 2021 (JMS 1225, 129153)

♻️ Fuel waste to fluorescent carbon dots and its multifarious applications – 42 citations, 2019 (Sensors and Actuators B: Chemical 282, 972-983)

πŸ’  Pyrene based D–π–A architectures: synthesis, density functional theory, photophysics and electron transfer dynamics – 38 citations, 2017 (PCCP 19(4), 3125-3135)

🌐 Nanostructured graphene oxide dots: synthesis, characterization, photoinduced electron transfer studies, and detection of explosives/biomolecules – 29 citations, 2018 (ACS Omega 3(8), 9096-9104)

🧬 Pyrene-based prospective biomaterial: In vitro bioimaging, protein binding studies and detection of bilirubin and Fe³⁺ – 28 citations, 2019 (SAA: Molecular and Biomolecular Spectroscopy 221, 117150)

✨ AIE nanodots obtained from a pyrene Schiff base and their applications – 28 citations, 2017 (ChemistrySelect 2(4), 1353-1359)

βš›οΈ A combined experimental and computational characterization of D–π–A dyes containing heterocyclic electron donors – 24 citations, 2017 (JPPB A: Chemistry 332, 453-464)

πŸ”‹ A diminutive modification in arylamine electron donors: Synthesis, photophysics and solvatochromic analysis–towards the understanding of dye-sensitized solar cell performances – 20 citations, 2015 (PCCP 17(43), 28647-28657)

🩺 Evaluation of the anti-rheumatic properties of thymol using carbon dots as nanocarriers on FCA induced arthritic rats – 15 citations, 2021 (Food & Function 12(11), 5038-5050)

πŸ§ͺ Facile synthesis of carbon nanocubes and its applications for sensing antibiotics – 14 citations, 2020 (JPPB A: Chemistry 403, 112855)

πŸ”¦ Light induced behavior of xanthene dyes with benzyl viologen – 11 citations, 2014 (Synthetic Metals 196, 131-138)

🧬 Miniscule modification of coumarin-based potential biomaterials: Synthesis, characterization, computational and biological studies – 7 citations, 2023 (JPPB A: Chemistry 445, 115044)

πŸ§‘β€πŸ’» Computational, reactivity, Fukui function, molecular docking, and spectroscopic studies of a novel (E)-1-Benzyl-3-(2-(Pyrindin-2-yl) Hydrazono) Indolin-2-One – 6 citations, 2024 (Polycyclic Aromatic Compounds 44(9), 6263-6283)

🧲 Synthesis, crystal structure and protein binding studies of a binuclear copper (I) complex with triphenylphosphine-based dithiocarbazate – 6 citations, 2023 (Inorganic Chemistry Communications 157, 111195)

βš—οΈ A fluorescent chemosensor for selective detection of chromium (III) ions in environmentally and biologically relevant samples – 4 citations, 2024 (SAA: Molecular and Biomolecular Spectroscopy 316, 124286)

πŸ§ͺ A comprehensive investigation of ethyl 2-(3-methoxybenzyl) acrylate substituted pyrazolone analogue: Synthesis, computational and biological studies – 4 citations, 2024 (Chemical Physics Impact 8, 100531)

🌱 Biomass-derived potential nano-biomaterials: Protein binding, anti-biofilm activity and bio-imaging – 3 citations, 2024 (JMS 1300, 137155)

🎯 Conclusion:

Dr. V. Srinivasan’s research excellence, scientific impact, and innovative contributions make him highly deserving of the Young Scientist Award. His pioneering work in nanomaterials, biosensors, and renewable energy showcases his potential as a leading young researcher shaping the future of scientific advancements. πŸš€πŸ”¬

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Jiang xiaowei | Surface Chemistry | Best Researcher Award

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Prof. Jiang xiaowei | Surface Chemistry | Best Researcher Award

team leader at jiangsu university of science and technology in China.

Jiang Xiaowei πŸŽ“ is a professor at Jiangsu University of Science and Technology and a leading talent in Jiangsu Province’s “333 Project” and Deep Blue initiative. 🌊 With expertise in intelligent welding πŸ€–, industrial robots, and digital factory technology 🏭, he led the development of China’s first intelligent ship pipe welding production line and wall-climbing painting robots 🎨. His work was recognized as one of China’s top ten technological advances in intelligent manufacturing (2019) πŸ†. A distinguished expert, he has won multiple national science awards πŸ…, holds 10 invention patents πŸ“œ, and actively contributes to international engineering organizations. 🌍

Professional Profile
Suitability for the Best Researcher Award

Jiang Xiaowei is a highly accomplished researcher in intelligent welding, industrial robotics, and smart manufacturing πŸ€–πŸ­. His groundbreaking contributions in these fields, combined with multiple prestigious awards, patents, and leadership in national and international organizations, make him a strong candidate for the Best Researcher Award. His innovations have significantly impacted shipbuilding and manufacturing technologies, demonstrating both scientific excellence and real-world application.

Education πŸŽ“

  • Jiangsu University of Science and Technology – Professor at the university.

Experience πŸ†

  • Leading Talent in Jiangsu Province – Recognized under the “333 Project” and Deep Blue initiative. 🌊
  • Expert in Intelligent Welding & Robotics πŸ€– – Specializes in industrial robot applications, digital factory technology, and equipment integration.
  • Project Leader πŸš€ – Led the development of China’s first intelligent pipe welding production line for ships and wall-climbing painting robots. 🎨
  • Award-Winning Innovator πŸ… – Won multiple national and industry-specific science and technology awards.
  • Patent Holder πŸ“œ – First inventor of 10 patents, including 9 domestic and 1 European invention patent.
  • Editorial & Committee Memberships πŸ›οΈ – Serves on international journal editorial boards and national standardization committees in marine machinery and shipbuilding.

Professional Development πŸš€πŸ“–

Jiang Xiaowei has made significant contributions to intelligent welding πŸ€–, industrial robotics, and digital manufacturing 🏭. As a key figure in Jiangsu Province’s “333 Project” and Deep Blue initiative 🌊, he has led groundbreaking projects, including China’s first intelligent pipe welding production line for ships and wall-climbing painting robots 🎨. His achievements earned multiple prestigious awards πŸ†, and he holds 10 invention patents πŸ“œ. Actively engaged in professional organizations 🌍, he serves on editorial boards and national standardization committees, shaping the future of shipbuilding and mechanical engineering. His work continues to drive innovation in smart manufacturing. πŸ”¬

Research Focus πŸ”πŸ€–

Jiang Xiaowei specializes in intelligent welding systems πŸ€–, industrial robotics πŸš€, and digital manufacturing 🏭. His research focuses on developing automated welding technologies πŸ”₯, smart robotic applications 🀝, and intelligent factories βš™οΈ to enhance efficiency in shipbuilding and industrial production. He played a key role in creating China’s first intelligent pipe welding production line for ships 🚒 and wall-climbing painting robots 🎨. His work integrates AI-driven automation 🧠 and precision engineering πŸ› οΈ to advance next-generation manufacturing technologies 🌍. Jiang’s innovations contribute to making smart factories and robotics more adaptive, efficient, and intelligent. πŸ”„

Awards & Honors πŸ†

  • National Defense Science and Technology Progress Award – Second Prize (2nd place) πŸ…
  • Science and Technology Progress Award (China Shipbuilding Industry Corporation) – Two First Prizes (2nd & 4th place) πŸ₯‡πŸ₯‡
  • Science and Technology Progress Award (China Shipbuilding Engineering Society) – One First Prize (2nd place) and One Second Prize (1st place) πŸ₯‡πŸ₯ˆ
  • Top Ten Technological Advances in China’s Intelligent Manufacturing (2019) πŸš€
  • Excellent Expert in Standardization (China Shipbuilding Industry, 2024) πŸ‘¨β€πŸ«
  • Editorial Board Member – International Journal of Science and Engineering πŸ“–
  • Senior Member – China Society of Shipbuilding Engineers & China Society of Mechanical Engineers βš™οΈ
  • Professional Member – American Society of Mechanical Engineers 🌍
Publication Top Notes:

πŸ“Œ Evolutionary origins of the SARS-CoV-2 sarbecovirus lineage responsible for the COVID-19 pandemic – MF Boni, P Lemey, X Jiang, TTY Lam, BW Perry, TA Castoe, A Rambaut, … – Nature Microbiology (2020) – πŸ“‘ 1120 citations

πŸ“Œ The origins of SARS-CoV-2: A critical review – EC Holmes, SA Goldstein, AL Rasmussen, DL Robertson, … – Cell (2021) – πŸ“‘ 640 citations

πŸ“Œ Exploring the natural origins of SARS-CoV-2 in the light of recombination – S Lytras, J Hughes, D Martin, P Swanepoel, A de Klerk, R Lourens, … – Genome Biology and Evolution (2022) – πŸ“‘ 171 citations

πŸ“Œ The animal origin of SARS-CoV-2 – S Lytras, W Xia, J Hughes, X Jiang, DL Robertson – Science (2021) – πŸ“‘ 160 citations

πŸ“Œ The evolutionary landscape of colorectal tumorigenesis – W Cross, M Kovac, V Mustonen, D Temko, H Davis, AM Baker, S Biswas, … – Nature Ecology & Evolution (2018) – πŸ“‘ 130 citations

πŸ“Œ Characterizing the diverse mutational pathways associated with R5-tropic maraviroc resistance: HIV-1 that uses the drug-bound CCR5 coreceptor – X Jiang, F Feyertag, CJ Meehan, GP McCormack, SA Travers, C Craig, … – Journal of Virology (2015) – πŸ“‘ 43 citations

πŸ“Œ Ebolavirus is evolving but not changing: No evidence for functional change in EBOV from 1976 to the 2014 outbreak – AS Olabode, X Jiang, DL Robertson, SC Lovell – Virology (2015) – πŸ“‘ 41 citations

πŸ“Œ Wildlife trade is likely the source of SARS-CoV-2 – X Jiang, R Wang – Science (2022) – πŸ“‘ 26 citations

πŸ“Œ How One Pandemic Led To Another: Was African Swine Fever Virus (ASFV) The Disruption Contributing To Severe Acute Respiratory Syndrome Coronavirus 2 (SARS‑CoV‑2) Emergence? – W Xia, J Hughes, D Robertson, X Jiang – Preprints (2021) – πŸ“‘ 23 citations

πŸ“Œ Conclusion:

Jiang Xiaowei’s pioneering research, technological innovations, and global impact make him an ideal candidate for the Best Researcher Award. His scientific excellence, leadership, and industry-changing contributions position him as a leading figure in intelligent manufacturing, making his work invaluable for future advancements in robotics, welding, and automation. πŸš€