Shiquan Lin | liquid-solid contact electrification | Best Researcher Award

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Assoc Prof Dr. Shiquan Lin | liquid-solid contact electrification | Best Researcher Award

Professor at NBeijing Institute of Technology,  china

Assoc Prof Dr. Shiquan Lin, an Associate Research Fellow at the Beijing Institute of Nanoenergy and Nanosystems, CAS, is a distinguished researcher in contact electrification, triboelectric sensors, and nanoenergy devices. With over 30 papers published in high-impact journals and citations exceeding 3,000, he is making significant contributions to the fields of nanotechnology and energy harvesting. He earned his Ph.D. from Tsinghua University and completed postdoctoral research at the National Center for Nanoscience and Technology, China. His research focuses on designing sensors and devices using contact electrification principles for advanced applications.

Publication Profile

Scholar

Education 🎓

Ph.D. in Mechanical Engineering from Tsinghua University (2013.09–2018.07). During his doctoral studies, Assoc Prof Dr. Shiquan Lin focused on advanced mechanical systems, tribology, and nanotechnology, publishing research in top journals and developing expertise in contact electrification and smart sensing technologies. B.S. in Mechanical Engineering from the University of Science and Technology Beijing (2009.09–2013.07). His undergraduate experience laid the groundwork for his passion in engineering mechanics and materials science, sparking an interest in nanotechnology and energy devices that led to his graduate research.

Experience💼 

Associate Research Fellow at the Beijing Institute of Nanoenergy and Nanosystems, CAS (2020.10–present): Assoc Prof Dr. Shiquan Linleads research in contact electrification, smart sensors, and micro-actuators, contributing to groundbreaking technologies in nanoenergy. Postdoctoral Researcher at the National Center for Nanoscience and Technology, China (2018.07–2020.10): Assoc Prof Dr. Shiquan Lin deepened his research into triboelectric nanogenerators and semiconductor interfaces, publishing extensively and collaborating on advanced projects. Guest editor and young editorial board member of prestigious journals such as Friction and China Surface Engineering, contributing to the academic community.

Awards and Honors🏆

National Natural Science Foundation of China Grant No. 52375213 (2024.01–2027.12) National Natural Science Foundation of China Grant No. 52005044 (2021.01–2023.12)  Tribology Science Fund of the State Key Laboratory of Tribology in Advanced Equipment: No. SKLTKF23A02 (2024.01–2026.12) Recognized as a young editorial board member for Friction and China Surface Engineering, showcasing his leadership in the field of tribology and surface engineering.

Research Focus🔬

Assoc Prof Dr. Shiquan Lin specializes in the study of contact electrification and its applications in smart sensors and nanoenergy. His research explores charge transfer at solid-solid, liquid-solid, and semiconductor interfaces, with a focus on high-voltage, highly sensitive devices. He designs micro-actuators and liquid component analysis devices based on contact electrification principles, contributing to innovations in triboelectric nanogenerators and energy harvesting systems. His work has been published in leading journals, advancing the field of nanoscience

Publication  Top Notes

  • Quantifying electron-transfer in liquid-solid contact electrification and the formation of electric double-layer
    S. Lin, L. Xu, A. Chi Wang, Z.L. Wang, Nature Communications, 11 (1), 399 – 445 citations, 2020
  • Probing contact‐electrification‐induced electron and ion transfers at a liquid–solid interface
    J. Nie, Z. Ren, L. Xu, S. Lin, F. Zhan, X. Chen, Z.L. Wang, Advanced Materials, 32 (2), 1905696 – 411 citations, 2020
  • Contact electrification at the liquid–solid interface
    S. Lin, X. Chen, Z.L. Wang, Chemical Reviews, 122 (5), 5209-5232 – 331 citations, 2021
  • Contributions of different functional groups to contact electrification of polymers
    S. Li, J. Nie, Y. Shi, X. Tao, F. Wang, J. Tian, S. Lin, X. Chen, Z.L. Wang, Advanced Materials, 32 (25), 2001307 – 280 citations, 2020
  • Electron transfer in nanoscale contact electrification: effect of temperature in the metal–dielectric case
    S. Lin, L. Xu, C. Xu, X. Chen, A.C. Wang, B. Zhang, P. Lin, Y. Yang, H. Zhao, Advanced Materials, 31 (17), 1808197 – 237 citations, 2019
  • Electron transfer as a liquid droplet contacting a polymer surface
    F. Zhan, A.C. Wang, L. Xu, S. Lin, J. Shao, X. Chen, Z.L. Wang, ACS Nano, 14 (12), 17565-17573 – 188 citations, 2020
  • Charge pumping strategy for rotation and sliding type triboelectric nanogenerators
    Y. Bai, L. Xu, S. Lin, J. Luo, H. Qin, K. Han, Z.L. Wang, Advanced Energy Materials, 10 (21), 2000605 – 148 citations, 2020
  • The tribovoltaic effect and electron transfer at a liquid-semiconductor interface
    S. Lin, X. Chen, Z.L. Wang, Nano Energy, 76, 105070 – 123 citations, 2020
  • Electron transfer in nanoscale contact electrification: photon excitation effect
    S. Lin, L. Xu, L. Zhu, X. Chen, Z.L. Wang, Advanced Materials, 31 (27), 1901418 – 121 citations, 2019
  • Scanning probing of the tribovoltaic effect at the sliding interface of two semiconductors
    M. Zheng, S. Lin, L. Xu, L. Zhu, Z.L. Wang, Advanced Materials, 32 (21), 2000928 – 110 citations, 2020
  • Effects of surface functional groups on electron transfer at liquid–solid interfacial contact electrification
    S. Lin, M. Zheng, J. Luo, Z.L. Wang, ACS Nano, 14 (8), 10733-10741 – 107 citations, 2020
  • Triboelectric nanogenerator as a probe for measuring the charge transfer between liquid and solid surfaces
    J. Zhang, S. Lin, M. Zheng, Z.L. Wang, ACS Nano, 15 (9), 14830-14837 – 88 citations, 2021
  • Photovoltaic effect and tribovoltaic effect at liquid-semiconductor interface
    M. Zheng, S. Lin, Z. Tang, Y. Feng, Z.L. Wang, Nano Energy, 83, 105810 – 86 citations, 2021
  • Environmental energy harvesting adapting to different weather conditions and self-powered vapor sensor based on humidity-responsive triboelectric nanogenerators
    Z. Ren, Y. Ding, J. Nie, F. Wang, L. Xu, S. Lin, X. Chen, Z.L. Wang, ACS Applied Materials & Interfaces, 11 (6), 6143-6153 – 85 citations, 2019
  • Piezo-phototronic Effect Enhanced Photodetector Based on CH3NH3PbI3 Single Crystals
    Q. Lai, L. Zhu, Y. Pang, L. Xu, J. Chen, Z. Ren, J. Luo, L. Wang, L. Chen, K. Han, ACS Nano, 12 (10), 10501-10508 – 79 citations, 2018
  • The overlapped electron‐cloud model for electron transfer in contact electrification
    S. Lin, C. Xu, L. Xu, Z.L. Wang, Advanced Functional Materials, 30 (11), 1909724 – 77 citations, 2020
  • A droplet-based electricity generator for large-scale raindrop energy harvesting
    Z. Li, D. Yang, Z. Zhang, S. Lin, B. Cao, L. Wang, Z.L. Wang, F. Yin, Nano Energy, 100, 107443 – 66 citations, 2022
  • Quantifying contact‐electrification induced charge transfer on a liquid droplet after contacting with a liquid or solid
    Z. Tang, S. Lin, Z.L. Wang, Advanced Materials, 33 (42), 2102886 – 58 citations, 2021
  • Bipolar charge transfer induced by water: experimental and first-principles studies
    S. Lin, T. Shao, Physical Chemistry Chemical Physics, 19 (43), 29418-29423 – 47 citations, 2017
  • Triboelectric nanogenerator array as a probe for in situ dynamic mapping of interface charge transfer at a liquid–solid contacting
    J. Zhang, S. Lin, Z.L. Wang, ACS Nano, 17 (2), 1646-1652 – 45 citations, 2023

Conclusion

Overall, this candidate demonstrates excellence in research, publication, and academic leadership. Their contributions to contact electrification and nanotechnology are impactful, and their work has gained significant attention in the scientific community. By enhancing their international collaborations and expanding the practical applications of their research, they could further solidify their status as a top candidate for the Best Researcher Award. Their strong funding track record, combined with their editorial roles, makes them a highly competitive nominee for this prestigious recognition.

Raymond Turner | nano-materials | Best Researcher Award

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Prof. Raymond Turner | nano-materials | Best Researcher Award

Faculty Professor , University of Calgary, Canada

Raymond J. Turner is a Professor of Biochemistry & Microbiology at the University of Calgary with a focus on microbial interactions with metals, biofilms, and biogenic nanomaterials. He holds adjunct professorships in Pharmacy and Biotechnology at the University of Bologna and the University of Verona. Turner has contributed extensively to biochemistry, microbiology, and biotechnology, publishing over 237 papers and securing numerous patents. He has served in key advisory roles, including the restructuring of the University of Calgary’s research offices. His research bridges scientific discovery and industrial applications, particularly in addressing antimicrobial resistance through metal-based nanotechnologies. Turner’s career spans several continents, fostering collaborations in over 45 research and academic partnerships. His diverse expertise in bio-nanotechnology, metallo-antimicrobials, and biofilms makes him a leading figure in the field.

Publication Profile

Google Scholar

Education  🎓

Turner obtained his BSc in Biochemistry (1981-1985), with a minor in chemistry. He pursued his Ph.D. in Biophysical Chemistry (1985-1990), specializing in nanosecond time-resolved fluorescence. His post-doctoral research at the University of Alberta (1990-1994) focused on Medical Microbiology and energetics. He later advanced to Assistant Professor at the University of Calgary in 1998, where he became an Associate Professor with tenure in 2002. Turner has since held various academic positions, including Professor a contratto at the University of Verona in Italy (2017). His academic journey reflects a strong focus on interdisciplinary sciences, ranging from biochemistry to microbiology. Turner’s educational background underpins his innovations in biotechnology, microbiological research, and biophysical chemistry, blending theory and practical applications in both environmental and medical sciences.

Experience  🏆

Raymond Turner’s career trajectory includes key academic and research roles. From 1998 to 2001, he served as Assistant Professor of Biochemistry at the University of Calgary, progressing to Associate Professor with tenure (2002-2007) and later full Professor (2007-2019). He contributed advisory services to the Vice-President of Research and Finance (2010-2012) during the university’s restructuring phase. In 2017, he became Professor a contratto at the University of Verona, Italy. Turner’s research contributions span across environmental microbiology, antimicrobial resistance, and bio-nanotechnology. His research has led to more than 45 academic collaborations, 237 published papers, and several patented innovations. Since 2019, he has also been an Adjunct Professor at the University of Bologna, Italy, strengthening his international collaborations and research influence.

Awards and Honors 

Turner has received numerous awards for his innovative research in biochemistry, microbiology, and nanotechnology. Among his accolades are industry and academic honors for his pioneering work on metallo-antimicrobials and biofilms. His advisory contributions to the restructuring of the University of Calgary’s research offices earned him commendations for excellence in leadership. Turner’s prolific output of over 237 publications has been recognized by the scientific community, with several awards for his contributions to microbiology and nanotechnology. He has secured over 12 patents, reflecting his ability to translate research discoveries into practical applications. Turner has also been invited to serve in editorial appointments for over 15 scientific journals, further underlining his influence in the field.

Research Focus🔬

Turner’s research is primarily focused on microbial interactions with metals, exploring metallo-antimicrobials to combat antibiotic resistance. His team investigates metal formulations ranging from simple salts to complex nanomaterials, targeting environmental and medical microbes. Turner’s extensive work in the biotechnology of biogenic nanomaterials has led to breakthroughs in eco-friendly synthesis using bacteria and fungi. His current research explores heteroatom nanomaterials involving selenium, tellurium, cadmium, and copper, synthesized by a unique Rhodococcus strain. Another area of focus is microbial biofilms, specifically their resistance to antimicrobials and novel biocides to control biofouling and corrosion on various surfaces. Turner’s contributions to bio-nanotechnology, biofilms, and antimicrobial research position him at the forefront of the field, addressing global challenges related to infection control and bioremediation.

Publication Top Notes

ntimicrobial Activity of Metals: Mechanisms, Molecular Targets, and Applications (2013)
This review explores how metals like silver, copper, and zinc exert antimicrobial effects, targeting microbial membranes, proteins, and DNA. It highlights the potential for metals to combat biofilms and resistant bacteria.

Multimetal Resistance and Tolerance in Microbial Biofilms (2007)
The authors discuss biofilm-forming bacteria’s ability to resist multiple metals, which is a growing problem in medical and industrial contexts. Biofilm structure and metal detoxification mechanisms are key to their survival.

A Novel and Ubiquitous System for Membrane Targeting and Secretion of Cofactor-Containing Proteins (1998)
This paper describes a system for secreting proteins across bacterial membranes, focusing on the role of membrane-targeting mechanisms.

The SMR Family: A Novel Family of Multidrug Efflux Proteins (1996)
This research uncovers a family of proteins that bacteria use to pump out lipophilic drugs, contributing to multidrug resistance.

Microtiter Susceptibility Testing of Microbes Growing on Peg Lids (2010)
This protocol outlines a high-throughput screening method for testing microbial susceptibility, especially for biofilm-growing bacteria.

Conclusion:

Dr. Raymond J. Turner’s extensive research contributions, particularly in metal-microbe interactions, nanotechnology, and biocides, showcase his significant impact and innovative approach. His broad expertise, coupled with a strong publication record and involvement in high-impact projects, makes him a strong contender for the Best Researcher Award. Highlighting the commercial success and practical implications of his research would further support his application, demonstrating not only academic excellence but also tangible advancements in his fields of expertise.