Dr. Abdul Abdul | Nanotechnology | Best Researcher Award

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Dr. Abdul Abdul | Nanotechnology | Best Researcher Award

Dr. Abdul Abdul , Nanotechnology , Associate Prof at Quanzhou University of Information Engineering, China

Dr. M. Abdul is an experimental physicist specializing in quantum many-body systems using ultracold atoms and quantum gases. He earned his Ph.D. from the University of Science and Technology of China, focusing on Boson Sampling schemes in optical lattices. Dr. Abdul has worked as an Assistant Professor at Sichuan University and is currently a full-time researcher at the University of Electronic Science and Technology of China. His research spans quantum optics, nonlinear optics, ultracold quantum gases, and high-resolution imaging. Dr. Abdul is highly skilled in developing ultrahigh vacuum systems, homemade lasers, and advanced imaging setups. With a resilient, positive, and hardworking personality, he has contributed to multiple research projects, applied for two patents, and published extensively in top journals. Fluent in English and beginner-level Chinese, Dr. Abdul embodies a cooperative spirit in scientific innovation and collaboration.

Professional Profile : 

Orcid

Scopus 

Summary of Suitability for Award:

Dr. M. Abdul is a dynamic and accomplished experimental physicist with a strong academic and research background in quantum optics, ultracold atomic systems, quantum simulation, and nonlinear optics. His research interests lie at the cutting edge of modern quantum physics, particularly in Boson sampling, high-resolution optical lattices, and superlattice-based quantum simulations. His career reflects a consistent and impactful contribution to both theoretical modeling and experimental implementation in advanced photonics and quantum technologies. Dr. M. Abdul is a highly deserving candidate for the “Best Researcher Award”. His research profile is marked by academic rigor, technical innovation, and interdisciplinary reach. With an impressive record of publications, international collaborations, and pioneering work in quantum systems and optics, he stands out as a leader among early- to mid-career researchers. His contributions not only advance fundamental science but also open new avenues for applications in quantum technologies and material science.

🎓Education:

Dr. M. Abdul pursued his Ph.D. in Physics at the University of Science and Technology of China (2014–2018), focusing on Boson Sampling with ultracold atoms. He completed his M.Phil. in Electronics from Quaid-I-Azam University Islamabad (2009–2011), achieving top national ranking, and earned an M.Sc. in Physics specializing in Electronics from Bahauddin Zakariya University, Multan (2006–2008). His undergraduate B.Sc. degree in Physics and Mathematics was also obtained from Bahauddin Zakariya University (2003–2006). Currently, he is serving as a full-time researcher at the University of Electronic Science and Technology of China (2022–2025). His academic journey reflects a consistent focus on quantum physics, electronic systems, and ultracold atomic research. He has also undertaken specialized training in laser systems, optical lattices, and computational physics tools, equipping him with deep experimental and theoretical proficiencies in modern quantum technologies.

🏢Work Experience:

Dr. M. Abdul has held several prestigious academic and teaching positions. From December 2018 to March 2022, he served as an Assistant Professor at Sichuan University, College of Physics, where he worked on optical lattices and ultracold atoms. Since May 2022, he has been a full-time researcher at the University of Electronic Science and Technology of China. Earlier in his career, he taught Physics and Mathematics at Down High School, Punjab Group of Colleges, and St. Mary College in Rawalpindi, developing a strong foundation in educational leadership and student mentorship. He also contributed to various national-level research projects in Pakistan, including studies on nonlinear atomic dynamics and nano-devices. His diverse professional experience combines experimental physics research, teaching, and development of advanced laboratory setups like vacuum systems, lasers, and imaging systems, establishing him as a multifaceted expert in quantum technologies.

🏅Awards: 

Dr. M. Abdul has achieved significant recognition throughout his academic career. He secured the first rank in his M.Phil. program at Quaid-I-Azam University, Islamabad. During his Ph.D. tenure, he contributed to several funded national and international research projects, such as those supported by the National Higher Education Commission of Pakistan and the National Science Foundation of China (NSFC). He has applied for two patents related to laser and optical technologies. His research presentations at major international conferences, including QCMC 2014 (China) and CHAOS2018, reflect his growing influence in quantum physics and nonlinear dynamics communities. Invitations to submit in top-tier journals such as Applied Physics Reviews and contributions to organizing international conferences on nanoscience further mark his career. His awards and project leadership roles highlight his excellence, innovation, and dedication to advancing the field of quantum optics and ultracold atom systems.

🔬Research Focus:

Dr. M. Abdul’s research primarily centers on quantum simulation, quantum optics, ultracold quantum gases, and many-body quantum systems. His doctoral work explored Boson Sampling schemes using ultracold atoms in optical lattices. He has since expanded his expertise into high-resolution imaging using superlattices and nonlinear optics with a focus on cavity-based laser systems. His work involves developing ultrahigh vacuum systems, laser stabilization circuits, and DMD-based imaging technologies. He is also engaged in first-principles studies of optical, electronic, and thermoelectric properties of novel perovskite materials. Dr. Abdul’s projects aim to realize quantum metamaterials and quantum memory devices, critical for future quantum technologies. His current focus includes creating spatially entangled bosonic systems, manipulating surface plasmon polaritons, and engineering ultracold atoms for Hong-Ou-Mandel interference experiments. His interdisciplinary approach bridges theoretical modeling with advanced experimental setups, contributing to the next-generation quantum simulation platforms.

Publication Top Notes:

1. Synergistic Improvement of OER/HER Electrocatalytic Performance of Cu₂Te via the Introduction of Zr for Water Electrolysis

2. Facile Synthesis of Co₃Te₄–Fe₃C for Efficient Overall Water-Splitting in an Alkaline Medium

3. Manipulation of Surface Plasmon Polariton Fields Excitation at Quantum-Size Slit in a Dielectric and Graphene Interface

4. Exploring the Properties of Zr₂CO₂/GaS van der Waals Heterostructures for Optoelectronic Applications

5. Effects of Thermal Fluctuation When an Optical Cavity Possesses Neutral Atoms and a Two-Mode Laser System

6. Synchronized Attractors and Phase Entrained with Cavity Loss of the Coupled Laser’s Map

 

 

Mr. SATISH SAW | Nanoscience | Best Researcher Award

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Mr. SATISH SAW | Nanoscience | Best Researcher Award

Mr. SATISH SAW , VINOBA BHAVE UNIVERSITY, HAZARIBAG, JHARKHAND , India

Satish Saw is a Senior Research Fellow in the University Department of Physics at Vinoba Bhave University, Hazaribag, and a PGT teacher under the Jharkhand Government at Project +2 High School, Birhu, Chatra. His Ph.D. research focuses on the computational and experimental studies of soft- and hard-nanomaterials. With expertise in condensed matter physics and nanobiosystems, he has published extensively in reputed journals. A recipient of the UGC-JRF (2022–2024) and UGC-SRF (2024–present), he has attended numerous national and international conferences, contributing significantly to material science research. He has a strong academic background, including a Gold Medal in M.Sc. and has expertise in DFT calculations, Quantum Espresso, and Origin Software. His work primarily revolves around nanomaterial synthesis, computational modeling, and their potential applications in optoelectronics and biomedicine.

Professional Profile:

Google Scholar

Scopus  

Summary of Suitability for Award:

Satish Saw is a highly accomplished researcher specializing in computational and experimental studies of soft- and hard-nanomaterials. His expertise in Density Functional Theory (DFT) calculations, green nanotechnology, and renewable energy applications makes him a strong contender for the Best Researcher Award. With numerous research publications in high-impact journals and active participation in national and international conferences, he has significantly contributed to nanomaterials, bio-compatible nanoparticles, and optoelectronics. His Gold Medal in M.Sc., UGC-JRF/SRF fellowships, and multiple research presentations highlight his academic excellence. Moreover, his work in hydrogen fuel integration with biodiesel and green synthesis of nanoparticles demonstrates his commitment to cutting-edge research with real-world applications. Given his outstanding research contributions, strong academic credentials, and impact in the field of nanotechnology and renewable energy, Satish Saw is highly suitable for the Best Researcher Award. His interdisciplinary expertise and innovative approach to materials science make him a deserving candidate for this prestigious recognition.

🎓Education:

Satish Saw has a distinguished academic record in physics and electronics. He is currently pursuing a Ph.D. in Condensed Matter Physics and NanoBio Systems at Vinoba Bhave University (VBU), Hazaribag. His research focuses on nanomaterials synthesis and density functional theory (DFT) studies. He completed his M.Sc. in Electronics (Physics) from VBU in 2017 with an impressive 8.94 CGPA, earning a Gold Medal for academic excellence. He holds a B.Ed. in Physical Science from GTTC, Hazaribag (2021), and a B.Sc. in Physics from J. J. College, Jhumaritilaiya (2015), where he was the college topper. His earlier education includes I.Sc. from Markham College of Commerce, Hazaribag (2011), and Matriculation from C.M. High School, Domchanch (2009). His strong educational foundation has enabled him to excel in nanomaterials, quantum mechanics, and computational modeling techniques.

🏢Work Experience:

Satish Saw has extensive experience in research and teaching. As a Senior Research Fellow (SRF) at the University Department of Physics, VBU, Hazaribag, he conducts advanced studies on nanomaterials synthesis, computational modeling, and DFT-based electronic structure calculations. He has been a Post Graduate Teacher (PGT) in Physics under the Jharkhand Government at Project +2 High School, Birhu, Chatra, where he mentors students in higher secondary physics. His expertise includes solid-state physics, quantum mechanics, and material characterization techniques. He has actively participated in national and international conferences, presenting research on nanomaterials and renewable energy applications. His computational skills extend to Quantum Espresso, Origin Software, and MATLAB. Additionally, his role in mentoring students and guiding research projects underscores his commitment to both education and scientific innovation.

🏅Awards: 

Satish Saw has received several prestigious awards and recognitions for his outstanding contributions to scientific research. He was honored with a Gold Medal for securing the highest rank in his M.Sc. program, demonstrating his academic excellence. He qualified for the UGC-JRF and SRF fellowships, which recognize promising researchers in India. His research presentations have earned accolades at national and international conferences, showcasing his expertise in computational and experimental studies of nanomaterials. He has also received best paper awards for his groundbreaking work on Density Functional Theory (DFT) calculations and green nanotechnology applications. Additionally, his contributions to renewable energy, optoelectronics, and hydrogen fuel integration have been widely recognized by research institutions. His active participation in seminars, workshops, and collaborations with reputed organizations further underscores his dedication to advancing science and technology. These honors collectively highlight his significant impact in the field of nanomaterials and sustainable energy.

🔬Research Focus:

Satish Saw’s research focuses on the computational and experimental studies of soft- and hard-nanomaterials, particularly in green nanotechnology, optoelectronic materials, and bio-compatible nanoparticles. His work integrates Density Functional Theory (DFT) calculations and experimental techniques to understand structural, morphological, and electronic properties of materials. He is actively engaged in green synthesis of metal and metal-oxide nanoparticles, investigating their antibacterial, catalytic, and optoelectronic applications. His research extends to renewable energy technologies, particularly in hydrogen fuel integration with biodiesel. His expertise in DFT-based software (Quantum Espresso) and experimental characterization tools (SEM, XRD, UV-Vis, FTIR) enables him to bridge the gap between theoretical modeling and practical applications. His studies on hybrid nanocomposites aim to develop materials for next-generation electronic and biomedical devices.

Publication Top Notes:

A dual-band graphene-based Yagi-Uda antenna with evaluation of transverse magnetic mode for THz applications

Authors: R. Yadav, A. Verma, N.S. Raghava

Citations: 26

Year: 2021

A pattern reconfigurable graphene-based Yagi-Uda antenna with TM01δ mode generation for THz applications

Authors: R. Yadav, V.S. Pandey, S. Kumar

Citations: 21

Year: 2021

Graphene-based two-port MIMO Yagi-Uda antenna for THz applications

Authors: R. Yadav, S. Gotra, V.S. Pandey, S. Kumar

Citations: 16

Year: 2023

Beam reconfigurable graphene-based Yagi–Uda antenna with higher-order TM mode generation for THz applications

Authors: S. Gotra, R. Yadav, V.S. Pandey

Citations: 14

Year: 2020

Beam Steered Graphene-Based Yagi-Uda Array Antenna with Transverse Magnetic to Hybrid Mode Conversion Approach

Authors: R. Yadav, V.S. Pandey, S. Kumar, S. Gotra

Citations: 10

Year: 2022

Obtaining wide bandwidth with higher-order TM modes merging in a graphene-based logarithmic antenna for THz sensing applications

Authors: R. Yadav, V.S. Pandey, S. Kumar, S. Gotra

Citations: 9

Year: 2022

Nano-Scaled Graphene Plasmonic Based Vanadium Dioxide Yagi-Uda Array MIMO Antenna for Terahertz Applications

Authors: R. Yadav, V.S. Pandey, P. Verma

Citations: 6

Year: 2024

CubeSat Inter-Satellite Link-based Log Periodic Antenna for C-band Applications

Authors: R. Yadav, V.S. Pandey, S. Kumar, S. Gotra

Citations: 6

Year: 2022

Hybrid material-based dual-band Yagi-Uda antenna with enhanced gain for the Ku-band applications

Authors: R. Yadav, S. Gotra, V.S. Pandey, B. Singh

Citations: 5

Year: 2021

Axial-ratio tuning in nano-dielectric resonator antenna for optical band applications

Authors: S. Gotra, R. Yadav, V.S. Pandey, R.S. Yaduvanshi

Citations: 2

Year: 2020

 

 

 

Dr. Ali Yazdani | Nanomaterials | Best Researcher Award

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Dr. Ali Yazdani | Nanomaterials | Best Researcher Award

Dr. Ali Yazdani, School of Electrical and Computer Engineering, College of Engineering, University of Tehran, Iran

Ali Yazdani is a biomedical engineer affiliated with the School of Electrical and Computer Engineering, College of Engineering, University of Tehran, Iran. His research primarily focuses on early cancer detection, MRI contrast agents, and bioprinting. He has contributed to groundbreaking projects in image processing for medical applications, sperm isolation using microfluidics, and tissue engineering. As the Managing Director of Omid-Afarinan Mohandesi Ayandeh Co., he plays a pivotal role in developing 3D bioprinters. He has also collaborated with Parsis Co. to develop a smart surgical software and worked at the Royan Institute to model stem cell injection timing for Lupus treatment. With three publications in indexed journals, seven research projects, ten industry projects, and one patent, his work has significantly advanced the field of biomedical engineering. His contributions to MRI contrast agent synthesis from herbal sources highlight his innovative approach in medical imaging.

Professional Profile:

Google Scholar

Summary of Suitability for Award:

Ali Yazdani is an outstanding biomedical engineer with expertise in early cancer detection, MRI contrast agents, and bioprinting. His strong academic background from the University of Tehran and interdisciplinary research contributions make him a highly qualified candidate for the Best Researcher Award. He has seven completed/ongoing research projects, ten industry collaborations, one patent, and three journal publications in SCI/Scopus-indexed journals. His work on herbal-based MRI contrast agents, AI-driven surgical software, and 3D bioprinting has made significant contributions to biomedical imaging, regenerative medicine, and personalized healthcare. His leadership as Managing Director of Omid-Afarinan Mohandesi Ayandeh Co. further highlights his innovative impact. Given his exceptional research output, innovation in medical imaging, and impactful industry collaborations, Ali Yazdani is a strong contender for the “Best Researcher Award.”

🎓Education:

Ali Yazdani pursued Bachelor’s, Master’s, and Ph.D. degrees in Biomedical Engineering at the University of Tehran. He was part of the Electrical and Computer Engineering faculty, where he specialized in mathematical modeling of autoimmune diseases and imaging techniques for early cancer detection. His research during his doctoral studies was focused on alternative sources for MRI contrast agents, where he proposed an herbal-based approach to enhance MRI imaging quality. His academic journey was enriched with hands-on laboratory experiments, validating the efficiency of herbal-based MRI contrast agents. Throughout his education, he worked on interdisciplinary projects, combining engineering, medical sciences, and biotechnology to address critical challenges in medical imaging and diagnostics. His expertise in bioprinting, medical imaging, and stem cell research has been instrumental in his continued contributions to biomedical engineering.

🏢Work Experience:

Ali Yazdani has extensive experience in biomedical research and innovation. He is currently affiliated with the University of Tehran, where he has contributed to seven research projects and ten industry-sponsored projects. As the Managing Director of Omid-Afarinan Mohandesi Ayandeh Co., he is actively involved in 3D bioprinting technology. His collaboration with Parsis Co. led to the development of an AI-driven surgical guidance software. At the Royan Institute, he played a key role in a system identification project, modeling stem cell injection timing for Lupus patients. His expertise extends to medical image processing, tissue engineering, and regenerative medicine. His consulting work has supported multiple biomedical startups and research groups. With hands-on experience in MRI contrast agent synthesis, bioprinting, and stem cell research, he has significantly contributed to healthcare innovations, making biomedical diagnostics more accessible and efficient.

🏅Awards: 

Ali Yazdani has been recognized for his contributions to biomedical engineering and innovation. His research on herbal-based MRI contrast agents earned him recognition at international medical imaging conferences. As the Managing Director of Omid-Afarinan Mohandesi Ayandeh Co., he received industry appreciation for developing 3D bioprinting technology. His work on AI-driven surgical guidance software at Parsis Co. was acknowledged as a pioneering advancement in smart surgery. His stem cell research at Royan Institute was highly regarded in the regenerative medicine field. He has also received accolades for his industry collaborations, having led ten consultancy projects. His patent on organic MRI contrast agents showcases his innovative contributions to non-invasive diagnostics. With a strong impact on medical imaging, bioprinting, and regenerative medicine, his achievements have positioned him as a leading researcher in the field of biomedical engineering.

🔬Research Focus:

Ali Yazdani’s research spans across early cancer detection, MRI contrast agents, and bioprinting. His groundbreaking work in mathematical modeling of autoimmune diseases has contributed to better understanding of disease progression. His research on MRI contrast agents aims to replace synthetic agents with herbal-based alternatives, improving biocompatibility and reducing toxicity. His innovations in bioprinting technology focus on the synthesis of viable tissues for regenerative medicine. His image processing research includes X-marker detection for surgical tools and sperm isolation using microfluidics. His stem cell differentiation research utilizes periodic pulses to enhance cardiac cell regeneration. His contributions to ultrasonic and UV-based dormancy breaking of special beads have potential applications in biotechnology and medicine. His interdisciplinary approach—blending engineering, medical imaging, and regenerative medicine—makes his research highly impactful in healthcare technology and diagnostics.

Publication Top Notes:

A biological and a mathematical model of SLE treated by mesenchymal stem cells covering all the stages of the disease

Authors: A. Yazdani, F. Bahrami, A. Pourgholaminejad, R. Moghadasali

Journal: Theory in Biosciences

Volume: 142 (2), 167-179

Citations: 4

Year: 2023

Sub-pixel X-marker detection by Hough transform

Authors: A. Yazdani, H. Aalizadeh, F. Karimi, S. Solouki, H. Soltanian-Zadeh

Conference: 2018 25th National and 3rd International Iranian Conference on Biomedical …

Citations: 3

Year: 2018

A New Herbal Source of Synthesizing Contrast Agents for Magnetic Resonance Imaging

Authors: A. Yazdani, A. Okhovat, R. Doosti, H. Soltanian‐Zadeh

Journal: International Journal of Imaging Systems and Technology

Volume: 34 (4), e23136

Citations: Not available (2024 publication)

Year: 2024

Modification of a Herbal MRI Contrast Agent: Biological Effect and Relaxivity

Authors: A. Yazdani, A. Okhovat, R. Doosti, M. Saber, H. Soltanian-Zadeh

Conference: 2023 30th National and 8th International Iranian Conference on Biomedical …

Citations: Not available

Year: 2023

 

 

 

Mrs. Amna. Bibi | Nanotechnology | Young Scientist Award

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Mrs. Amna. Bibi | Nanotechnology | Young Scientist Award

Mrs. Amna. Bibi , Higher Education Department KPK , Pakistan

Amna Bibi is a dedicated Chemistry Lecturer at the Higher Education Department in KPK, Pakistan. With a strong academic background, she has distinguished herself as a passionate educator and researcher. Amna has earned her M.Phil. in Chemistry (Distinction) from the University of Science & Technology Bannu, specializing in Analytical Chemistry and Nanomaterials. Her research focuses on innovative sensing systems and nanomaterials. Amna has made significant contributions to the academic community through her involvement in teaching, research, and organizing scientific workshops. Along with her academic roles, she has demonstrated leadership in mentoring students, particularly in research and lab activities. Throughout her career, Amna has been recognized for her exceptional work, receiving multiple awards for her academic achievements and research.

Professional Profile:

Orcid  

Summary of Suitability for Award:

Amna Bibi’s academic achievements, groundbreaking research, leadership in academia, and commitment to scientific advancement make her an ideal candidate for the “Young Scientist Award”. Her work shows significant promise for continued contributions to the field of chemistry and its applications in environmental sustainability. Amna Bibi has consistently demonstrated academic excellence throughout her educational career, having earned distinctions at every level, including gold medals in her MSc and MPhil in Chemistry. Her research in the areas of analytical chemistry, nanomaterials, and sensing systems is cutting-edge, with publications in high-impact journals such as the Journal of Molecular Liquid and Chemical Engineering Journal. Her research has contributed to eco-friendly detection methods, which are crucial for environmental sustainability.

🎓Education:

Amna Bibi completed her M.Phil. in Chemistry with Distinction (CGPA 4.0/4.0) at the University of Science & Technology Bannu (2020-2023), specializing in Analytical Chemistry, focusing on Nanomaterials and Sensing Systems. She also earned her MSc in Analytical Chemistry (Distinction, 2418/2700) from the same university (2013-2016), where her research delved into nanomaterials and sensing systems. Her undergraduate degree, a BSc in Physical Sciences (502/550), was completed at the University of Science & Technology Bannu (2011-2013), with a major in Chemistry, Botany, and Zoology. Additionally, Amna completed her B.Ed. (2014-2016) and M.Ed. (2016-2018) from Allama Iqbal Open University, Islamabad. Her strong academic foundation in chemistry and education equips her with both the technical and pedagogical skills needed to contribute effectively to the academic and scientific communities.

🏢Work Experience:

Amna Bibi is currently working as a Chemistry Lecturer at the Higher Education Department KPK, where she has been employed since 2017. In this role, she utilizes diverse teaching methods, including lectures, presentations, and hands-on lab demonstrations, to enhance student understanding. Amna also works as a part-time Research Assistant at the University of Science & Technology Bannu since January 2022, where she prepares and delivers lectures, supervises lab activities, and assists students in writing research papers. Previously, she served as a Chemistry Teacher at the International Islamic University Islamabad Bannu Branch (2016-2017), creating a dynamic learning environment. Throughout her career, Amna has demonstrated a strong commitment to student learning, both in classroom settings and in research-oriented environments, continuously applying her expertise in analytical chemistry.

🏅Awards: 

Amna Bibi has earned multiple accolades throughout her academic career, reflecting her commitment to excellence. She received “Distinction” and first position in her M.Phil. (2023) and MSc (2016) studies at the University of Science & Technology Bannu. Amna was awarded the prestigious Gold Medal for achieving the highest marks in her MSc program. She also earned a Gold Medal in her BSc program (2013), further showcasing her academic prowess. In recognition of her excellence, Amna received a Need-Based Scholarship during her MSc (2015) and a Laptop under the PM’s National Laptop Scheme (2015). Additionally, she was honored with the “Best Student Award” from the University of Science & Technology Bannu in 2016. These awards highlight Amna’s consistent academic excellence and her passion for her field.

🔬Research Focus:

Amna Bibi’s research is centered on the development of nanomaterials and their applications in sensing systems. Her work explores ecofriendly and highly selective methods for detecting various ions using nanotechnology. In particular, she focuses on synthesizing silver nanoparticles and integrating them with plant extracts for efficient sensing of metal ions. Her research on electrochemical sensors aims to improve detection techniques for environmental and biological monitoring. Amna’s contributions include the application of density functional theory (DFT) in molecular analysis and the development of nanoscale probes for selective detection of hazardous substances. Her ongoing work addresses both fundamental chemistry and practical applications in environmental science, with a strong emphasis on sustainability and innovation in material chemistry.

Publication Top Notes:

  • Kinetics of silver ion encapsulation as nanoparticles using Vaccinium oxycoccos plant extract for the efficient sensing of Cr(iii) ions and its biological assessment
  • Highly selective and ecofriendly colorimetric method for the detection of iodide using green tea synthesized silver nanoparticles

 

 

 

 

 

Yu Yang | Nanotechnology | Best Researcher Award

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Prof Dr. Yu Yang | Nanotechnology | Best Researcher Award

Professor at School of Medicine, Shanghai JiaoTong University, China

Yang Yu (Yu) 🎓 received his PhD in Biomedical Sciences from the University of Macau and completed his postdoctoral training at the University of Florida, USA. Since 2021, he has been leading independent research at the Institute of Molecular Medicine, School of Medicine, Shanghai Jiao Tong University. Yu’s groundbreaking work 🔬 focuses on Nanomedicine, DNA nanotechnology, cellular surface engineering, and cancer therapy. He has published over 72 high-impact SCI-indexed articles 📚, with an H-index of 41 and more than 6,000 citations. Yu’s contributions have earned him prestigious awards 🏅, including the Outstanding Young Scholar award from the National Natural Science Foundation of China and the Baxter China Young Investigator First Prize.

Professional Profile:

Education

Yang Yu (Yu) 🎓 obtained his PhD in Biomedical Sciences from the University of Macau. He then enhanced his expertise by undertaking postdoctoral training at the University of Florida, USA 🏫. This advanced education laid a strong foundation for his innovative research in nanomedicine, DNA nanotechnology, and cellular surface engineering, leading to significant contributions in these interdisciplinary fields.

Professional Experience

Yang Yu (Yu) has a distinguished professional experience 👨‍🔬, currently serving as a Professor at the Institute of Molecular Medicine, Renji Hospital, School of Medicine, Shanghai Jiao Tong University 🏫. Since starting his independent research in 2021, Yu has made significant strides in nanomedicine, DNA nanotechnology, and cancer therapy. He has published over 72 high-impact SCI-indexed articles 📚 and holds an H-index of 41 with more than 6,000 citations. Additionally, he is a young editorial board member of several prestigious journals 📝, including Nano-Micro Letters, Exploration, and the Asian Journal of Pharmaceutical Science. His collaborative efforts with renowned institutions and professionals have further solidified his reputation as a leading researcher in his field 🌟

Research Interest

Yang Yu (Yu) has a dynamic research interest in several cutting-edge fields 🧪. His work primarily focuses on nanomedicine and DNA nanotechnology, where he explores innovative approaches for precision immunotherapy and cellular surface engineering 🧬. Yu is particularly interested in developing novel immune and targeted therapeutic strategies for treating tumors, inflammation (such as myocardial infarction, acute lung injury, and osteoporosis), and neurodegenerative diseases (including Alzheimer’s and Parkinson’s) 🧠. His interdisciplinary research aims to bridge clinical needs with advanced scientific techniques, driving forward impactful solutions for complex medical challenges 🌟.

Award and Honor

Yang Yu (Yu) has a dynamic research interest in several cutting-edge fields 🧪. His work primarily focuses on nanomedicine and DNA nanotechnology, where he explores innovative approaches for precision immunotherapy and cellular surface engineering 🧬. Yu is particularly interested in developing novel immune and targeted therapeutic strategies for treating tumors, inflammation (such as myocardial infarction, acute lung injury, and osteoporosis), and neurodegenerative diseases (including Alzheimer’s and Parkinson’s) 🧠. His interdisciplinary research aims to bridge clinical needs with advanced scientific techniques, driving forward impactful solutions for complex medical challenges 🌟.

Research Skills

Yang Yu (Yu) is a highly skilled researcher 🧪 specializing in nanomedicine, DNA nanotechnology, and cellular surface engineering. His expertise extends to developing innovative therapeutic strategies for cancer therapy, inflammation (such as myocardial infarction and acute lung injury), and neurodegenerative diseases (like Alzheimer’s and Parkinson’s) 🧬. Yu’s adeptness in biomaterials and cell surface nucleic acid molecular engineering has resulted in groundbreaking advancements 🔬. His prolific publication record 📚, with over 72 high-impact articles and an H-index of 41, highlights his profound impact on the scientific community.

Publications

  • Metal–Organic Framework Nanocarriers for Drug Delivery in Biomedical Applications
    Y Sun, L Zheng, Y Yang, X Qian, T Fu, X Li, Z Yang, H Yan, C Cui, W Tan
    Nano-Micro Letters, 2020, 12, 1-29
    Citations: 511 🌟
  • 1D Coordination Polymer Nanofibers for Low‐Temperature Photothermal Therapy
    Y Yang, W Zhu, Z Dong, Y Chao, L Xu, M Chen, Z Liu
    Advanced Materials, 2017, 29 (40), 1703588
    Citations: 503 🌟
  • Association between Prediabetes and Risk of All Cause Mortality and Cardiovascular Disease: Updated Meta-Analysis
    X Cai, Y Zhang, M Li, JHY Wu, L Mai, J Li, Y Yang, Y Hu, Y Huang
    Bmj, 2020, 370
    Citations: 464 🌟
  • Nanoscale Metal–Organic Frameworks for Combined Photodynamic & Radiation Therapy in Cancer Treatment
    J Liu, Y Yang, W Zhu, X Yi, Z Dong, X Xu, M Chen, K Yang, G Lu, L Jiang, …
    Biomaterials, 2016, 97, 1-9
    Citations: 412 🌟
  • Advances in Self-Assembled Chitosan Nanomaterials for Drug Delivery
    Y Yang, S Wang, Y Wang, X Wang, Q Wang, M Chen
    Biotechnology Advances, 2014, 32 (7), 1301-1316
    Citations: 325 🌟
  • Nanoscale Metal–Organic Particles with Rapid Clearance for Magnetic Resonance Imaging-Guided Photothermal Therapy
    Y Yang, J Liu, C Liang, L Feng, T Fu, Z Dong, Y Chao, Y Li, G Lu, M Chen, …
    ACS Nano, 2016, 10 (2), 2774-2781
    Citations: 314 🌟
  • Nanoscale‐Coordination‐Polymer‐Shelled Manganese Dioxide Composite Nanoparticles: A Multistage Redox/pH/H2O2‐Responsive Cancer Theranostic
    J Liu, Q Chen, W Zhu, X Yi, Y Yang, Z Dong, Z Liu
    Advanced Functional Materials, 2017, 27 (10), 1605926
    Citations: 233 🌟
  • Catalase-Loaded Cisplatin-Prodrug-Constructed Liposomes to Overcome Tumor Hypoxia for Enhanced Chemo-Radiotherapy of Cancer
    R Zhang, X Song, C Liang, X Yi, G Song, Y Chao, Y Yang, K Yang, L Feng, …
    Biomaterials, 2017, 138, 13-21
    Citations: 228 🌟
  • G-Quadruplex-Based Nanoscale Coordination Polymers to Modulate Tumor Hypoxia and Achieve Nuclear-Targeted Drug Delivery for Enhanced Photodynamic Therapy
    Y Yang, W Zhu, L Feng, Y Chao, X Yi, Z Dong, K Yang, W Tan, Z Liu, …
    Nano Letters, 2018, 18 (11), 6867-6875
    Citations: 200 🌟
  • Self‐Assembled Aptamer‐Grafted Hyperbranched Polymer Nanocarrier for Targeted and Photoresponsive Drug Delivery
    L Yang, H Sun, Y Liu, W Hou, Y Yang, R Cai, C Cui, P Zhang, X Pan, X Li, …
    Angewandte Chemie, 2018, 130 (52), 17294-17298
    Citations: 154 🌟
  • Redox-Sensitive Nanoscale Coordination Polymers for Drug Delivery and Cancer Theranostics
    J Zhao, Y Yang, X Han, C Liang, J Liu, X Song, Z Ge, Z Liu
    ACS Applied Materials & Interfaces, 2017, 9 (28), 23555-23563
    Citations: 147 🌟
  • ZrMOF Nanoparticles as Quenchers to Conjugate DNA Aptamers for Target-Induced Bioimaging and Photodynamic Therapy
    Y Liu, W Hou, L Xia, C Cui, S Wan, Y Jiang, Y Yang, Q Wu, L Qiu, W Tan
    Chemical Science, 2018, 9 (38), 7505-7509
    Citations: 123 🌟
  • Fe-Curcumin Nanozyme-Mediated Reactive Oxygen Species Scavenging and Anti-Inflammation for Acute Lung Injury
    R Yuan, Y Li, S Han, X Chen, J Chen, J He, H Gao, Y Yang, S Yang, …
    ACS Central Science, 2022, 8 (1), 10-21
    Citations: 117 🌟