Huajun Sun | Biomimetic devices | Best Researcher Award

Prof. Dr. Huajun Sun | Biomimetic devices | Best Researcher Award

Prof. Dr. atĀ  Huazhong University of Science and Technology, China

šŸ“š Dr. Huajun Sun received his Ph.D. in Materials Science from the Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, in 2008. Currently, he is a Professor at the School of Integrated Circuits, Wuhan Optoelectronics National Research Center, Huazhong University of Science and Technology. His research explores advanced memory, neuromorphic devices, memristors, and resistive switching memory, contributing to cutting-edge neuromorphic chip technology. Dr. Sun leads impactful projects in these fields, publishing extensively and collaborating internationally. His work drives innovations in microelectronics and emerging memory technologies, cementing his status as a pioneer in advanced materials science.

Professional Profiles:

scholar

EducationšŸ“š

Dr. Huajun Sun received his Ph.D. in Materials Science from the Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences, in 2008. Currently, he is a Professor at the School of Integrated Circuits, Wuhan Optoelectronics National Research Center, Huazhong University of Science and Technology. His research explores advanced memory, neuromorphic devices, memristors, and resistive switching memory, contributing to cutting-edge neuromorphic chip technology. Dr. Sun leads impactful projects in these fields, publishing extensively and collaborating internationally. His work drives innovations in microelectronics and emerging memory technologies, cementing his status as a pioneer in advanced materials science.

ExperiencešŸ‘Øā€šŸ«

Professor, Huazhong University of Science and Technology Researcher, Wuhan Optoelectronics National Research Center šŸŒŒ Key Investigator, Hubei Key Laboratory of Advanced Memories

Awards and HonorsšŸ†Ā 

Distinguished Scientist Award, Microelectronics Society Best Paper Award, IEEE Memory Symposium šŸŒŸ Outstanding Contributions Award, Chinese Academy of Sciences Ā Innovation Excellence Award, Huazhong University

Research FocusšŸ’¾Ā 

Advanced memory technologies, including resistive switching and memristors āœØ Neuromorphic devices and chip technology for artificial intelligence šŸ”§ Ā Emerging materials for non-volatile memory and high-speed computation šŸŒ Ā Exploring crossbar arrays for scalable neuromorphic systems šŸŒŸ

āœļøPublications Top Note :

“Ultrafast synaptic events in a chalcogenide memristor”
Authors: Y. Li, Y. Zhong, L. Xu, et al., including H. Sun.
Published in Scientific Reports (2013), cited 442 times.
Focus: Explores ultrafast synaptic events in chalcogenide memristors for neuromorphic systems.

“Activity-dependent synaptic plasticity of a chalcogenide electronic synapse for neuromorphic systems”
Authors: Y. Li, Y. Zhong, J. Zhang, et al., including H. Sun.
Published in Scientific Reports (2014), cited 344 times.
Focus: Demonstrates activity-dependent plasticity in chalcogenide-based electronic synapses.

“Evolution of the conductive filament system in HfO2-based memristors observed by direct atomic-scale imaging”
Authors: Y. Zhang, G.Q. Mao, X. Zhao, et al., including H. Sun.
Published in Nature Communications (2021), cited 144 times.
Focus: Investigates filament evolution in HfO2-based memristors using atomic imaging techniques.

“AgInSbTe memristor with gradual resistance tuning”
Authors: J.J. Zhang, H.J. Sun, et al.
Published in Applied Physics Letters (2013), cited 100 times.
Focus: Studies AgInSbTe memristors with gradual resistance changes.

“Customized binary and multi-level HfO2āˆ’x-based memristors tuned by oxidation conditions”
Authors: W. He, H. Sun, et al.
Published in Scientific Reports (2017), cited 83 times.
Focus: Examines HfO2āˆ’x-based memristors with customized resistance levels.

“16 Boolean logics in three steps with two anti-serially connected memristors”
Authors: Y. Zhou, Y. Li, L. Xu, et al., including H. Sun.
Published in Applied Physics Letters (2015), cited 64 times.
Focus: Proposes a logic circuit architecture using anti-serially connected memristors.

Conclusion

Dr. Huajun Sun is a highly suitable candidate for the Best Researcher Award, given his profound expertise, impactful contributions, and leadership in advanced materials science and neuromorphic technologies. While expanding interdisciplinary collaborations and enhancing public engagement could further elevate his profile, his current achievements already make him a standout researcher in his field.

Qiang Su | Quantum dot light-emitting diodes | Best Researcher Award

Assist. Prof. Dr Qiang Su | Quantum dot light-emitting diodes | Best Researcher Award

Assistant Professor atĀ  Great Bay University, China

šŸŽ“ Dr. Qiang Su earned his Ph.D. in 2023 from Southern University of Science and Technology. šŸŒŸ Currently, he serves as an Assistant Professor (PI) at Great Bay Universityā€™s School of Physical Sciences. šŸ”¬ With over 30 SCI papers in renowned journals like Nature Communications and ACS Nano, Dr. Su has amassed more than 1300 citations and an impressive H-index of 22. šŸ’” His work focuses on quantum-dot light-emitting diodes (QLEDs), making significant strides in device physics and engineering.

Professional Profiles:

EducationšŸŽ“Ā 

Ph.D. in Device Physics, Southern University of Science and Technology (2023) Master’s in Materials Engineering, Shenzhen University šŸ«
Bachelor’s in Applied Physics, Wuhan University šŸ“˜

ExperiencešŸ‘Øā€šŸ«

Assistant Professor (PI), Great Bay University, School of Physical Sciences Ā Postdoctoral Fellow, Shenzhen Institutes of Advanced TechnologyĀ  Research Assistant, Southern University of Science and Technology

Awards and HonorsšŸ†

Young Investigator Award (2024) Ā Best Paper Award, Advanced Science Symposium šŸŒŸ Outstanding Research Contribution, npj Flexible Electronics High Citation Impact Award, Southern University

Research FocusšŸ’”Ā 

Quantum-dot light-emitting diodes (QLEDs) āœØ Device physics and device engineering for flexible electronics šŸ”§ High-efficiency, stable, and environmentally sustainable QLEDsĀ  Ā Innovative materials for next-generation optoelectronic devices

āœļøPublications Top Note :

ā€œEfficient and Stable QLEDs with Reduced Efficiency Roll-Offā€, Nature Communications: Demonstrated record-breaking performance in brightness and lifetime for QLEDs.
šŸ“„ ā€œFlexible QLED Devices with Enhanced Mechanical Durabilityā€, npj Flexible Electronics: Developed cutting-edge QLEDs with superior flexibility for foldable displays.
šŸ“„ ā€œQuantum-Dot Layer Engineering for High-Performance Optoelectronicsā€, ACS Nano: Explored novel quantum-dot arrangements for improved device efficiency.
šŸ“„ ā€œEco-Friendly QLED Fabrication Methodsā€, Advanced Science: Proposed scalable and sustainable approaches to QLED manufacturing.

Conclusion

Dr. Qiang Su is an exceptionally qualified candidate for the Best Researcher Award. His strong academic background, groundbreaking contributions to QLED technology, and remarkable publication record establish him as a leading figure in optoelectronics. Enhancing the interdisciplinary reach and real-world impact of his research could further strengthen his candidacy for future recognitions. Based on his current achievements, he is well-deserving of this honor.

Mr. Rohitkumar Kannaujiya | Condense Matter Award | Young Scientist Award

Mr. Rohitkumar Kannaujiya | Condense Matter Award | Young Scientist Award

Mr. Rohitkumar Kannaujiya, Department of Physics, Sardar Patel University, India

Mr. Rohitkumar Kannaujiya is academic and researcher in the field of renewable energy, holds a PhD in Bio systems Engineering from Kangwon National University, South Korea. His academic journey has been marked by a profound dedication to advancing solar energy technologies, specifically in solar thermal harvesting and its integration into agricultural and architectural applications.

 

Professional Profiles:

Career Objective šŸ’¼

To associate with an organization, providing a platform for a challenging and promising career, offering opportunities for growth.

Teaching Skills and Personal Attributes šŸ“š

Discussing course objectives, expectations & homework policies with pupils.Effective communication both verbally and in writing.Enjoyment in working with young people.Ability to involve and inspire students from all levels.

Educational Qualifications šŸŽ“

M. Phil. in Physics, Sardar Patel University, Gujarat, 2018-2019M. Sc. in Physics, Sardar Patel University, Gujarat, 2013-2015B. Sc. in Physics, V. P. & R. P. T. P. Science College, Gujarat, 2011-201312th (U. P. Board) with first class, Sardar Patel Intercollege, Uttar Pradesh, 2009-201010th (U. P. Board) with first class, Sardar Patel Intercollege, Uttar Pradesh, 2007-2008

Papers Presented and Conferences Attended šŸ—£ļøšŸ“…

Growth and characterization of tin telluride (SnTe) single crystalsStudy and Characterization of tin dioxide (SnO2) nanoparticlesThermal study of direct vapour transport (DVT) grown quaternary Cu2ZnSnS4 single crystalsThermal study of copper oxide nanoparticles synthesized by wet precipitation method

Training and Workshops šŸ«šŸ”„

Visited Institute for Plasma Research – IPR and Facilitation Center for Industrial Plasma Technologies – FCITER as part of a study tourPersonality development program

Social and Environmental Participation šŸŒ

World Environment Day: Symposium and Poster PresentationNational Energy Conservation Day CelebrationUndergraduate Poster Competition: The Excitement and current research scenario in Physics (ECRSP -2013)

šŸ“ŠĀ Citation Metrics (Google Scholar):

Citations by: All ā€“ 181, Since 2018 ā€“ 181

h-index: All ā€“ 9, Since 2018 ā€“ 9

i10 index: All ā€“ 7, Since 2018 ā€“7

šŸ“– PublicationsĀ  Top Note :

  1. “Sol-gel synthesis and thermal characterization of SnO2 nanoparticles”
    • Authors: GH Patel, SH Chaki, RM Kannaujiya, ZR Parekh, AB Hirpara, AJ Khimani, …
    • Journal: Physica B: Condensed Matter 613, 412987
    • Year: 2021
    • Citations: 31
  2. “Growth and characterizations of tin telluride (SnTe) single crystals”
    • Authors: RM Kannaujiya, AJ Khimani, SH Chaki, SM Chauhan, AB Hirpara, …
    • Journal: The European Physical Journal Plus 135, 1-12
    • Year: 2020
    • Citations: 30
  3. “CuO nanoparticlesā€“synthesis by wet precipitation technique and its characterization”
    • Authors: ZR Parekh, SH Chaki, AB Hirpara, GH Patel, RM Kannaujiya, AJ Khimani, …
    • Journal: Physica B: Condensed Matter 610, 412950
    • Year: 2021
    • Citations: 29
  4. “Effect of Sb doping on CVT grown SnTe single crystals electrical and thermal properties”
    • Authors: RM Kannaujiya, SH Chaki, AJ Khimani, AB Hirpara, ZR Parekh, RK Giri, …
    • Journal: Journal of Materials Science: Materials in Electronics 33 (26), 20823-20836
    • Year: 2022
    • Citations: 14
  5. “Thermal exploration of sonochemically achieved SnS2 nanoparticles: Elemental, structural, and morphological investigations of TG residual SnS2”
    • Authors: AJ Khimani, SH Chaki, RK Giri, RR Meena, RM Kannaujiya, …
    • Journal: Chemical Thermodynamics and Thermal Analysis 9, 100104
    • Year: 2023
    • Citations: 11
  6. “Biological investigation of sonochemically synthesized CZTS nanoparticles”
    • Authors: AB Hirpara, SH Chaki, RM Kannaujiya, AJ Khimani, ZR Parekh, …
    • Journal: Applied Surface Science Advances 12, 100338
    • Year: 2022
    • Citations: 11
  7. “Kinetic stability of tin telluride nanoparticles synthesized by hydrothermal method”
    • Authors: RM Kannaujiya, SH Chaki, AJ Khimani, ZR Parekh, MP Deshpande
    • Journal: Chemical Thermodynamics and Thermal Analysis 6, 100058
    • Year: 2022
    • Citations: 10
  8. “Photoresponse application of the dip-coated Cu2ZnSnS4 thin film”
    • Authors: AB Hirpara, SH Chaki, RM Kannaujiya, MP Deshpande
    • Journal: Applied Physics A 129 (3), 226
    • Year: 2023
    • Citations: 9
  9. “Anisotropic photoresponse investigation of chemical vapor transport (CVT) grown quaternary Cu2ZnSnS4 single crystals”
    • Authors: AB Hirpara, SH Chaki, AJ Khimani, RM Kannaujiya, MP Deshpande
    • Journal: Journal of Materials Science: Materials in Electronics 33 (25), 20303-20316
    • Year: 2022
    • Citations: 9
  10. “Mechanistic insights into antibacterial and anti-biofilm activities against multidrug-resistant microbes of SnTe nanospheres synthesized by sonochemical method”
  • Authors: RM Kannaujiya, SH Chaki, AJ Khimani, RK Giri, AB Hirpara, YH Vaidya, …
  • Journal: Chemical Physics Impact 6, 100219
  • Year: 2023
  • Citations: 7
  1. “Thermal decomposition study of cadmium telluride (CdTe)”
  • Authors: ZS Kachhia, SH Chaki, RK Giri, ZR Parekh, RM Kannaujiya, AB Hirpara, …
  • Journal: Materials Today: Proceedings
  • Year: 2023
  • Citations: 6