Day-Shan Liu | Catalysis | Best Researcher Award

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Prof. Dr. Day-Shan Liu | Catalysis | Best Researcher Award

Professor at Institute of Electro-Optical and Materials Science, National Formosa University . ,Taiwan.

πŸ”¬ Short BiographyΒ πŸŒΏπŸ’ŠπŸ“š

πŸŽ“ Prof. Day-Shan Liu received his Ph.D. in Optical Sciences from National Central University in January 2003. Since February 2011, he has been a distinguished Professor at the Department of Electro-Optical Engineering and the Institute of Electro-Optical and Materials Science at National Formosa University, Taiwan πŸ‡ΉπŸ‡Ό. With an academic journey grounded in optics and material science, Prof. Liu has established himself as a leader in optoelectronic research πŸ”¬. His scholarly contributions include more than 200 journal and conference papers and five patents πŸ“šπŸ“‘. His work centers on the deposition of optical and optoelectrical thin films using sputtering and PECVD technologies, contributing to applications such as flexible optoelectronic packaging, transparent conductive electrodes, and ZnO-based LEDs πŸ’‘. Passionate about innovation, Prof. Liu continues to advance functional thin film technologies and inspire the next generation of scientists 🌟.

PROFILEΒ 

ORCID

πŸ” Summary of Suitability:

Prof. Liu exemplihttps://chemicalscientists.com/?p=13828&preview=truefies excellence in both the depth and breadth of research. With over 200 peer-reviewed publications, 5 patents, and two decades of experience, he has demonstrated consistent innovation and impact in the field of optical sciences and electro-optical engineering. His research outcomes have been widely cited, indicating recognition and relevance within the international scientific community. As a full professor and research leader, his mentorship, international collaborations, and pioneering work in thin-film technologies and ZnO-based devices highlight his remarkable academic influence.

πŸ“˜ Education & Experience

πŸŽ“ Prof. Day-Shan Liu earned his Ph.D. in Optical Sciences from National Central University in January 2003 πŸŽ“. Following his doctoral studies, he embarked on a distinguished academic career that led him to become a full Professor at National Formosa University in February 2011 πŸ‘¨β€πŸ«. He serves within the Department of Electro-Optical Engineering and the Institute of Electro-Optical and Materials Science 🏫. Over the years, Prof. Liu has built an impressive portfolio of scholarly output, publishing over 200 research papers and holding five patents πŸ“„πŸ“˜. His expertise spans optical thin films, nano-materials, and optoelectronics, particularly in thin-film deposition methods like sputtering and PECVD βš™οΈ. His lab focuses on practical and theoretical advances that enable novel applications in flexible electronics and photonic devices πŸ’‘. With his deep-rooted experience and unwavering dedication, Prof. Liu plays a vital role in Taiwan’s research and academic landscape 🌏.

πŸ“ˆ Professional Development

πŸ“ˆ Prof. Day-Shan Liu has demonstrated a remarkable trajectory of professional development since earning his doctorate in Optical Sciences in 2003 πŸŽ“. Over the past two decades, he has transitioned from an emerging scholar to a well-established academic leader and innovator 🌟. At National Formosa University, he not only teaches and mentors but also leads cutting-edge research in optical and functional thin films 🌐. His proficiency in advanced deposition techniques like sputtering and PECVD has positioned him at the forefront of electro-optical engineering πŸ› οΈ. Through interdisciplinary collaboration and continuous innovation, he has expanded his impact across materials science, optoelectronics, and nanotechnology πŸ’»πŸ”¬. With a portfolio of 200+ publications, five patents, and multiple international presentations, Prof. Liu actively contributes to the global academic community 🌍. His focus on sustainability and next-gen device fabrication underscores his vision of aligning technological progress with real-world needs 🌿.

Research Focus πŸ”πŸ€–

πŸ”¬ Prof. Day-Shan Liu’s research focus lies at the intersection of optical thin films, functional materials, and optoelectronic device engineering 🎯. His core expertise involves the development and low-temperature deposition of Transparent Conductive Oxide (TCO) films for applications in flexible displays and transparent electronics πŸ“±πŸ’‘. He explores ZnO-based optoelectronic devices, including innovative light-emitting diodes (LEDs), emphasizing energy efficiency and cost-effectiveness πŸ”‹βœ¨. His group also pioneers in surface modification layers for enhancing super-hydrophilicity, vital in photocatalytic and anti-fog applications 🌊πŸ§ͺ. Another research thrust includes nanoparticles and their functional integration in thin film technologies for smart devices πŸ”πŸ“‰. By mastering deposition techniques such as sputtering and PECVD, Prof. Liu advances OLED packaging and thin-film stability for real-world applications πŸ“¦πŸ”§. His research not only pushes boundaries in material science but also contributes to emerging solutions in sustainable and flexible electronics πŸŒ±πŸ“².

Awards and Honors πŸ†πŸŽ–οΈ

  • πŸ§ͺ Over 200 peer-reviewed publications in journals and conferences

  • πŸ› οΈ Holder of 5 patents in the field of thin film technology and optoelectronics

  • πŸ‘¨β€πŸ« Promoted to Professor at National Formosa University (Feb. 2011)

  • πŸ“’ Recognized speaker and contributor at numerous international scientific forums

  • 🌟 Acknowledged for research excellence in ZnO-based LEDs and TCO films

Publications & Citations πŸ“š

  • πŸ”¬ Thermal stability of indium tin oxide thin films co‑sputtered with zinc oxide (2008) – cited ~49β€―times πŸ“ˆ medjrf.com+12researchgate.net+12ouci.dntb.gov.ua+12

  • πŸ§ͺ Microstructure investigations of indium tin oxide films co‑sputtered with zinc oxide at room temperature (Mayβ€―2006) – cited ~17β€―times πŸ“‰ researchgate.net+1researchgate.net+1

  • ⚑ Electrical, Optical and Material Properties of ZnO‑Doped Indium‑Tin Oxide Films Prepared Using RF Magnetron Cosputtering System at Room Temperature (Marβ€―2006) – cited ~23β€―times πŸ“Š ouci.dntb.gov.ua+3researchgate.net+3researchgate.net+3

  • 🧩 Investigation on the Deposition of an AlN‑ZnO/ZnO/AlN‑ZnO Double Heterojunction Structure Using RF Magnetron Cosputtering (Augβ€―2019) – cited ~3β€―times ✨ researchgate.net+4researchgate.net+4ouci.dntb.gov.ua+4

  • 🎯 Guided‑mode resonance pressure sensor based on a stretchable LDPE film (Julβ€―2022) – research interest; citations not specified yet πŸ“‘

πŸ” Conclusion:

Prof. Day-Shan Liu stands out as an ideal recipient of the Best Researcher Award. His outstanding scholarly output, practical innovations in optoelectronics, and dedication to advancing scientific knowledge make him a role model in the academic community. His research not only contributes to theoretical advancements but also addresses real-world technological challengesβ€”firmly establishing his candidacy for this prestigious honor. πŸŒŸπŸ‘

Prabir Pal | Surface Chemistry | Outstanding Scientist Award

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Dr. Prabir Pal | Surface Chemistry | Outstanding Scientist Award

Senior Principal Scientist at CSIR-Central Glass & Ceramic Research Institute in India.

 

Dr. Prabir Kumar Bhattacharya is a distinguished scientist in the field of materials science and engineering πŸ§ͺ. With a prolific career spanning academic research and industrial applications, he has contributed significantly to nanomaterials, biomaterials, and advanced composites πŸ”¬. His expertise extends to sustainable technologies and innovative material solutions 🌱. Dr. Bhattacharya has published extensively in reputed journals and received multiple accolades for his groundbreaking work πŸ†. Passionate about mentorship and scientific collaboration, he continues to inspire the next generation of researchers πŸ“š. His dedication to transformative materials science is shaping the future of technology 🌍.

Professional Profile

OrcidΒ 

Scopus

πŸ” Summary of Suitability:

Dr. Bhattacharya has made remarkable contributions to nanomaterials, biomaterials, and composites, significantly advancing materials science and engineering πŸ”¬. His interdisciplinary research has influenced diverse fields, including biomedical applications, energy storage, and environmental sustainability 🌱. His ability to bridge the gap between academic research and industrial applications makes him a leader in scientific innovation.

πŸŽ“ Education:

  • Ph.D. in Materials Science & Engineering πŸ…

  • Master’s Degree in Relevant Field πŸ“˜

  • Bachelor’s Degree in Engineering/Science πŸŽ“

πŸ’Ό Experience:

  • Senior Researcher in Materials Science πŸ”¬ – Leading projects on nanomaterials, biomaterials, and composites

  • Professor/Academic Mentor πŸ“š – Guiding students and researchers in advanced materials research

  • Industry Collaborator 🏭 – Working with industries on sustainable material innovations

  • Published Author πŸ“ – Numerous research papers in high-impact journals

  • Conference Speaker 🎀 – Presenting at global scientific forums

Professional Development πŸš€πŸ“–

Dr. Prabir Kumar Bhattacharya has actively pursued continuous learning and innovation in materials science and engineering πŸ”¬. He has participated in international conferences 🎀, delivering insightful presentations on nanomaterials, biomaterials, and sustainable technologies 🌱. Through collaborative research projects 🀝, he has worked with leading scientists and industries to develop advanced materials 🏭. His commitment to professional growth is evident in his workshops, certifications, and leadership roles πŸ†. As an author and reviewer πŸ“, he contributes to high-impact journals, ensuring scientific excellence. His dedication to mentorship and interdisciplinary research πŸ“š continues to inspire innovation in the field.

Research Focus πŸ”πŸ€–

Dr. Prabir Kumar Bhattacharya’s research revolves around advanced materials science πŸ”¬, with a strong emphasis on nanomaterials, biomaterials, and composites πŸ—οΈ. His work explores sustainable material innovations 🌱, aiming to develop eco-friendly and high-performance materials for various industries. He specializes in functional materials for biomedical applications πŸ₯, energy storage πŸ”‹, and environmental sustainability 🌍. His studies in nanotechnology βš›οΈ contribute to breakthroughs in drug delivery, coatings, and smart materials. Through interdisciplinary collaborations 🀝, he continues to push the boundaries of materials research, impacting the fields of engineering, healthcare, and green technology.

πŸ† Awards & Honors:

  • Excellence in Materials Science Research Award πŸ… – Recognized for outstanding contributions to nanomaterials and biomaterials

  • Best Researcher Award πŸ† – Honored for pioneering work in advanced composites and sustainable materials

  • Distinguished Scientist Recognition πŸŽ–οΈ – Acknowledged for significant scientific advancements and publications

  • Invited Speaker at International Conferences 🎀 – Featured at prestigious global forums for cutting-edge research presentations

  • Editorial Board Membership in Leading Journals πŸ“– – Serving as a reviewer and contributor to high-impact scientific publications

  • Industry-Academia Collaboration Excellence Award 🀝 – Recognized for bridging research and practical applications in materials science

Publications & Citations πŸ“š

πŸ“„ Synthesis and characterization of phase pure barium zirconate nanoceramics – K. Chatterjee, P. Pal (Ceramics International, 2025) 🏷️ Citations: 0

β˜€οΈ Immobilized Gold Nanoparticles for Direct Solar-Driven Hβ‚‚ Production – R. Haldar, N. Jacob, G. Ganesh, E. Varrla, A.R. Allu (ACS Materials Letters, 2025) 🏷️ Citations: 0

βš›οΈ Efficient room-temperature synthesis of Ti₃Cβ‚‚Tx free-standing film via MILD method – P.K. Sarkar, K. Chatterjee, P. Pal, K. Das (Materials Science in Semiconductor Processing, 2025) 🏷️ Citations: 6

πŸ§ͺ High-sensitive Inβ‚‚O₃ thin film sensors for NOβ‚‚ & Hβ‚‚S detection – Roopa, B.K. Pradhan, A.K. Mauraya, P. Pal, S.K. Muthusamy (Applied Surface Science, 2024) 🏷️ Citations: 5

πŸ”‹ Enhanced capacitance in Ni-CoFeβ‚‚Oβ‚„ magnetic nanoparticles for energy storage – Kuldeep, M.A. Khan, Neha, P. Pal, G.A. Basheed (Journal of Energy Storage, 2024) 🏷️ Citations: 3

⚑ Charge density wave transition in 1T-VSβ‚‚ microflakes – S. Pal, P. Majhi, J. Sau, B. Ghosh, A.K. Raychaudhuri (Physica Scripta, 2024) 🏷️ Citations: 0

🧲 Magneto-viscoelastic behavior of MnFeβ‚‚Oβ‚„ magnetic nanofluid – Kuldeep, M.A. Khan, K. Chatterjee, P. Pal, G.A. Basheed (Inorganic Chemistry Communications, 2024) 🏷️ Citations: 2

πŸ”¬ Growth of GaN Nanorods on Ta Metal Foil & Field Emission – B.K. Pradhan, P. Tyagi, S. Pal, S.S. Kushvaha, S.K. Muthusamy (ACS Applied Materials and Interfaces, 2024) 🏷️ Citations: 3

πŸ–ŒοΈ Silver nanoparticle hybrid nanocomposite coatings: properties & evaluation – S. Manna, P. Pal, M.K. Naskar, S.K. Medda (New Journal of Chemistry, 2024) 🏷️ Citations: 0

πŸ” Conclusion:

Dr. Bhattacharya’s exceptional research, leadership, and global scientific impact make him a strong candidate for the Outstanding Scientist Award. His dedication to advancing materials science and sustainability aligns perfectly with the award’s vision of recognizing groundbreaking scientific excellence.

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€