Prof. Ruizi Li | Flexible Electronics | Best Researcher Award

Prof. Ruizi Li | Flexible Electronics | Best Researcher Award 

Assoc. Prof, Northwestern Polytechnical University, China

Dr. Ruizi Li is a highly accomplished researcher with a strong background in materials science and engineering. With a prolific publication record and extensive experience in interdisciplinary research, Dr. Li has made significant contributions to the fields of hybrid X-ray scintillators, perovskite nanocrystals, and flexible electronics. Their work has been published in renowned journals such as Angewandte Chemie, Advanced Functional Materials, and npj Flexible Electronics. Dr. Li’s expertise and commitment to the scientific community are further demonstrated through their peer review contributions to esteemed journals.

Profile

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🎓 Education

Dr. Ruizi Li’s educational background is marked by a strong focus on materials science and engineering. Although specific details about their academic degrees are not provided, their research and publication record suggest a solid foundation in the principles of materials science, physics, and engineering. Dr. Li’s continuous involvement in cutting-edge research and their ability to collaborate with various researchers indicate a high level of academic achievement and expertise in their field.

👨‍🔬 Experience

With a substantial publication record and involvement in various research projects, Dr. Ruizi Li has accumulated significant experience in materials science and engineering. Their research spans multiple areas, including hybrid X-ray scintillators, perovskite nanocrystals, and flexible electronics. Dr. Li has also demonstrated the ability to work collaboratively with other researchers, contributing to successful projects and publications. Furthermore, their experience as a peer reviewer for prestigious journals highlights their expertise and recognition within the scientific community.

🔍 Research Interest

Dr. Ruizi Li’s research focus includes the development of hybrid X-ray scintillators, perovskite nanocrystals, and flexible electronics. Their work aims to innovate and improve the performance of these materials for various applications, including X-ray imaging and flexible electronics. Dr. Li’s research approach combines experimental and theoretical methods, demonstrating a comprehensive understanding of the materials and their properties. The goal of their research is to create materials and technologies that can be applied in real-world scenarios, enhancing performance and efficiency.

Awards and Honors

While specific awards and honors are not detailed in the provided information, Dr. Ruizi Li’s achievements and contributions to materials science and engineering suggest a strong potential for recognition. Their publication record, peer review activities, and collaborative research efforts demonstrate a commitment to excellence and a high level of expertise, which are often acknowledged through awards and honors in the scientific community.

Publications 

1. Bright and Fast‐Response Hybrid X‐Ray Scintillators by Molecular and Dielectric Confinement 🌟
2. Flash synthesis of high-performance and color-tunable copper(I)-based cluster scintillators for efficient dynamic X-ray imaging ⚡️
3. Photophysical Properties of Copper Halides with Strongly Confined Excitons and Their High-Performance X-Ray Imaging 📸
4. Ultrastable and flexible glass−ceramic scintillation films with reduced light scattering for efficient X−ray imaging 🔍
5. Size Effect on X‐ray Scintillation Performance for Perovskite Nanocrystals Revealed by Mathematical Model 📊
6. Intercalation pseudocapacitance in 2D N-doped V₂O₃ nanosheets for stable and ultrafast lithium-ion storage 🔋
7. Self-assembly of two-dimensional supramolecular as flame-retardant electrode for lithium-ion battery 🔥
8. Controllable assembling of highly-doped linked carbon bubbles on graphene microfolds 💡
9. Robust self-gated-carriers enabling highly sensitive wearable temperature sensors 🌡️
10. Stretchable and Ultrasensitive Intelligent Sensors for Wireless Human–Machine Manipulation 🤖
11. 3D Printed Flexible Strain Sensors: From Printing to Devices and Signals 🖨️
12. (1 1 0)-Bridged nanoblocks self-assembled VS₂ hollow microspheres as sodium-ion battery anode with superior rate capability and long cycling life 🔋
13. A sandwich-like porous hard carbon/graphene hybrid derived from rapeseed shuck for high-performance lithium-ion batteries 🥜
14. Facile synthesis of tetragonal NaV₂O₅·H₂O nanosheets co-intercalated by high content of Na⁺ and H₂O for boosted lithium storage 💧
15. Facile Synthesis of Three-dimensional Hierarchical Ni₃S₂@CoAl-LDHs Nanosheet Arrays and Their Efficient Hydrogen Evolution ⚗️
16. Mo-Doped ultrafine VC nanoparticles confined in few-layer graphitic nanocarbon for improved electrocatalytic hydrogen evolution 💡
17. Nitrogen-Doped Hard Carbon on Nickel Foam as Free-Standing Anodes for High-Performance Sodium-Ion Batteries 🌟
18. Nitrogen-doped porous hard carbons derived from shaddock peel for high-capacity lithium-ion battery anodes 🍊
19. Structure Engineering in Biomass-Derived Carbon Materials for Electrochemical Energy Storage 🌿
20. Sulfur-doped shaddock peel–derived hard carbons for enhanced surface

Conclusion

Dr. Ruizi Li is a highly accomplished researcher with a strong publication record, innovative contributions, and a collaborative approach. Their work in materials science and engineering has significant potential for practical applications and industrial impact. With some focus on practical applications, diverse funding sources, and public engagement, Dr. Li is an excellent candidate for the Best Researcher Award.

Dr Hemant Kumar | Material science thin film solar cells

Dr Hemant Kumar: Leading Researcher in Material science thin film solar cells.
Dr Hemant Kumar, University of Rajasthan Jaipur

Dr. Hemant Kumar, affiliated with the University of Rajasthan, Jaipur, is a distinguished researcher at the forefront of material science. His focus on thin-film solar cells showcases a commitment to advancing sustainable energy solutions. Driven by innovation, he leads pioneering research that holds the potential to revolutionize the field. With a keen understanding of materials, Dr. Kumar contributes significantly to the development of efficient and cost-effective thin-film solar technologies. His work not only elevates the University of Rajasthan’s standing in scientific research but also contributes to the global pursuit of harnessing renewable energy through cutting-edge advancements in material science.

 

Professional Profiles:

 

 

The impact of her research is evident in citation metrics and indices from google scholar:

Cited by : All-11

citations- 11

h-index-2

 

Education:

 

  • B.SC PHY. CHE. MATHS UNI. OF RAJ. JAIPUR 2011 62.00%M.SC PHYSICS M.D.S.U.AJMER 2013 68.00%

    NET PHYSICS CSIR-UGC-NET Dec.2012 –

    JRF PHYSICS CSIR-UGC-JRF June 2013 –

    B.ED PHY.MATHS M.D.S.U.AJMER 2014 74.80%

    Ph.D Material Science ( Thin film solar cell) University of Rajasthan Jaipur 18.11.2023 –

 

Publications and Top Noted:

 

1. “Effect of rapid thermal annealing on optical properties of zinc sulphide thin films”, H. Kumar, P. Ram & M. Singh, Surface Engineering, 33 (2017) 181-185.

2. “Effect of Rapid Thermal Annealing on Thermal Evaporated CdSe Thin Film for Solar Cell Application”, Hemant Kumar and Mangej Singh, Advanced Science, Engineering and Medicine, 12 (2020) 1-6.

3. “Impact of hydrogenation and annealing on CdSe/ZnS thin film for solar cell application” Hemant Kumar and Mangej Singh, Journal of Materials Science: Materials in Electronics, 31 (2020) 12926–12931.

4. “Effect of Hydrogenation and Annealing on ZnS/CdS/CdTe Thin Film for Solar Cell Application” Hemant Kumar* and Mangej Singh, Int. J. Thin. Film. Sci. Tec. 9, (2020) 163- 168.

5. “Effect of Thickness Variation of the N-Type Layer in CdS/CdTe Solar Cell” Hemant Kumar* and Mangej Singh, Int. J. Thin. Film. Sci. Tec. 10, (2021) 121-125.

 

Conference/Webinar:

 

1. Conference on Advanced Material and Processing, held at MNIT, Jaipur from 2-4 Dec 2015.

2. Workshop on nanostructured and smart materials/ Coatings, held at Manipal University, Jaipur from 4-5 June 2017.

3. National conference on recent advances in material science and technology, held at University of Rajasthan, Jaipur 4-5 Feb 2019.

4. International E-Conference on Physics of Material and nanotechnology (ICPN-2021), held at Mangalore University, Mangalore from 28-30 Oct 2021.

5. International Conference in Ecosystem Restoration and Environmental Sustainability: Concerns and Alternatives, held at University of Rajasthan, Jaipur from 26-28 Oct 2021.

Dr Sadiq Khareem – Material Science/ flexible supercapacitors and are best suited for high-frequency region applications.-data storage appliances, and magnetic recording mediums.

Dr Sadiq Khareem : Leading Researcher In  Material Science/ flexible supercapacitors and are best suited for high-frequency region applications.-data storage appliances, and magnetic recording mediums.

Congradulations, Dr Sadiq Khareem, on winning the esteemed  Paper Best Researcher Award Sciencefather!

Congratulations, Dr Sadiq Khareem In recognition of your outstanding contributions to the field of Material Science, we extend our heartfelt congratulations on receiving the prestigious  Best Researcher Award by ScienceFather Your dedication to advancing knowledge in clinical Material Science, and the exploration of Material Science is truly commendable.Your commitment to excellence and tireless efforts in research have not only enriched our academic community but have also contributed significantly to the broader scientific community.

May this award serve as a testament to your exceptional skills, unwavering dedication, and the impactful influence you’ve had on your field.  We look forward to witnessing your continued success and the many more groundbreaking contributions to come.Once again, congratulations on this well-deserved achievement!

 

Professional Profiles:

 

 

Education:

 

  • PHD – DEPARTMENT OF PHYSICS faculty of Science, Sana’a University.
  • MASTER’S DEGREE IN PHYSICS College of Science, Sana’a University
  • PHYSICS CLEARINGHOUSE Faculty of Science – Sana’a University
  • BA IN PHYSICS, Amran University
  • MODERN SECRETARIAL DIPLOMA American National Institute
  • ENGLISH PROFICIENCY CERTIFICATE Center of Translation and Language Teaching, Sana’a University
  • COMPUTER PROFICIENCY CERTIFICATE Computer Center at Sana’a University.

 

Citations:
  • Citations 19
  • h-index    2
  • 10 index  0

 

Publications: 

 

  •   Investigations on Optical and Electrical Conductivity of Ba/Ni/Zn/Fe 16 O 27 Ferrite Nanoparticles – 2022
  •   Influence of Zn2+ Ions Doping on the Antibacterial Activity of Barium-Nickel Ferrite Nanoparticles. –  2022
  •   FTIR Spectra Analysis of Zinc Substituted Barium Nickel Ferrite – 2022
  •   Influence of Zn+2 Doping on Dielectric Properties of Ba-Based Nanoferrites – 2022

 

Memberships:

 

01/02/2021 – CURRENT Member Arabia Unit Academics for training and professional studies

10/01/2019 – CURRENT Member in the International Association of Scientific Researcher under No. 20192103889

08/01/2019 – CURRENT Member of Academics & Researchers Platforms (IFAD)

 

Conferences and Seminars:

 

21/11/2021 – 22/11/2021 – Malaysia Participation and attendance at the Second International Scientific Conference (Multiple Solutions, Modern Strategies and Programs     the Field of Education Higher  NETWORKS AND MEMBERSHIPS CONFERENCES AND SEMINARS

10/10/2021 – Libya. Participation and attendance at the Virtual International Scientific Forum (Innovation in Scientific Research)

22/05/2021 – 23/05/2021 – Amman University. F0 76 Participation and attendance at the First International Scientific Forum for Nanotechnology Applications,

18/12/2022 – 20/12/2022 – Cairo, Egypt The Fourth Hybrid International Conference on Molecular Modeling and Spectroscopy Infrared Spectral Studies Analysis of Barium-Nickel Ferrite Doped by Zinc Sadiq Hassan Yahya Khoreem