Dr Arun Nimmala | Electrical Properties of Materials | Best Researcher Award

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Dr Arun Nimmala | Electrical Properties of Materials | Best Researcher Award

Dr Arun Nimmala, Indian Institute of Technology Delhi, India

Dr. Arun Nimmala is an expert in micro/nano fabrication, nano-electronics, and semiconductor devices, specializing in memory devices based on Transition Metal Oxides (TMO) like HfO2 and 2D materials such as MoS2. His doctoral research focused on the effects of gamma and ion irradiation on RRAM devices. With postdoctoral experience at IIT Delhi and a research associate role at the University of Hyderabad, he has contributed significantly to the field of nanoelectronics. Dr. Nimmala has received multiple awards, including Best Poster Awards and UGC-JRF/SRF. He excels in cleanroom management, training, and leading research teams. 🧑‍🔬💻🔬🎓

Publication Profile

SCOPUS

ORCID

GOOGLE SCHOLAR

Academic Background🎓

Dr. Arun Nimmala has an impressive academic background. 🎓 He earned his Ph.D. in Electronics Science and Engineering from CASEST, University of Hyderabad, in 2021. 🏅 Prior to that, he completed his M.Tech in Integrated Circuit Technology from the same institution, securing an 8.08 CGPA in 2014. 💻 His B.Tech in Electronics and Communication Engineering from JNTU-Hyderabad was awarded with a 72.13% in 2010. 📡 Dr. Nimmala also completed his XII (Intermediate) at Jawahar Navodaya Vidyalaya (CBSE) with 73.16% in 2006 and his X (SSC) from the same school with 80.8% in 2004. 🎓📚

Professional Experience and Contributions 💼

Dr. Arun Nimmala has held key positions in prestigious institutions throughout his career. 🌟 He is currently serving as an Institute Post-Doctoral Fellow (IPDF) at the Indian Institute of Technology Delhi (IITD) since March 2023. 🏢 Prior to this, he worked as a Research Associate at the University of Hyderabad from July 2020 to March 2023, contributing to cutting-edge research. 🔬 Dr. Nimmala also gained valuable teaching experience as a Teaching Assistant at the University of Hyderabad from January 2015 to April 2020, where he supported academic programs and mentored students. 📚🎓

Technical Skills and Expertise

Dr. Arun Nimmala has over 9 years of expertise in micro/nano fabrication and characterization. 🔬 He has extensive experience working in ISO 5 and ISO 6 clean rooms at prestigious institutions like Nanoscale Research Facility (IIT Delhi) and the Centre for Nanotechnology (University of Hyderabad). 🏢 His skills include using advanced fabrication tools such as photolithography (EBL and mask aligner), physical vapor deposition, dry etching, chemical vapor deposition, and more. 🛠️ In material and electrical characterization, Dr. Nimmala has worked with tools like the Agilent B 1500, Raman spectroscopy, AFM, FESEM, XRD/XRR, and TEM for precise analysis. 🧪

Academic projects💻

Dr. Arun Nimmala has worked on notable academic projects during his M.Tech and B.Tech studies. 🎓 For his M.Tech project, he focused on the Synthesis, Characterization, and Radiation Damage Studies of High-k Dielectric (HfO2) Films for MOS device applications, contributing to advancements in semiconductor technology. 💻 His B.Tech project involved Implementing ZigBee-based Wireless Data Communication, where he explored innovative solutions for efficient communication in wireless sensor networks. 📡 These projects reflect his deep expertise in materials science, semiconductor devices, and wireless communication systems. 🔧

Research Focus Area 🌱🧬

His work involves the fabrication and characterization of advanced semiconductor devices, such as memory devices based on Transition Metal Oxides (TMO’s) like HfO2 and 2D materials like MoS2 for Resistive Random Access Memory (RRAM) applications. 💡 He has expertise in electron beam and photolithography techniques, as well as testing and reliability analysis of these devices. 📊 Additionally, Dr. Nimmala works on thin film preparation, ion beam studies, and room-temperature electrical characterization of oxide and 2D material-based RRAM devices, contributing to the field of nanoelectronics and device engineering. 💻

Publication Top Notes📄✨

Refining shape and size of silver nanoparticles using ion irradiation for enhanced and homogeneous SERS activity

Fabrication and Parametric Degradation Analysis on the Silicon Heterojunction Solar Cell under 60Co Gamma Irradiation

Resistive switching properties of hafnium oxide thin-films sputtered at different oxygen partial pressures

Dual metal ion (Fe3+ and As3+) sensing and cell bioimaging using fluorescent carbon quantum dots synthesised from Cynodon dactylon

Thermal and light-induced electrical properties in nanocomposites of reduced graphene oxide and silver nanoparticles

Effects of Bottom Electrode Materials on the Resistive Switching Characteristics of HfO2-Based RRAM Devices

Formation of Cu-Ni enriched phases during laser processing of non-equiatomic AlSiCrMnFeNiCu high entropy alloy nanoparticles

 

Mr Zhaoheng Ling | Materials Science | Best Researcher Award

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Mr Zhaoheng Ling | Materials Science | Best Researcher Award

Mr Zhaoheng Ling, King Abdullah University of Science and Technology, Saudi Arabia

Mr. Zhaoheng Ling, a Ph.D. candidate at King Abdullah University of Science and Technology, specializes in nanomaterials and solar cell technologies. His research has advanced organic photovoltaics (OPVs) through bulk heterojunction modification, interface engineering, and molecular doping, achieving breakthroughs like 20.5% efficiency in OPVs. With publications in high-impact journals such as ACS Energy Letters and Advanced Materials, Mr. Ling has made significant strides in sustainable energy solutions. He actively engages in global conferences and workshops, showcasing his expertise in molecular doping, crystal growth, and materials characterization. His work is shaping the future of renewable energy. 🧪☀️📚

Publication Profile

GOOGLE SCHOLAR

ORCID

SCOPUS

Educational Qualifications 🎓

Mr. Zhaoheng Ling is pursuing a Ph.D. in Material Science and Engineering at King Abdullah University of Science and Technology (2021–present), achieving a GPA of 3.75/4. His research focuses on advanced nanomaterials and renewable energy solutions. He earned his M.S. in Materials Science from the University of Science and Technology of China (2014–2017), where he specialized in nanoscience and graduated with a GPA of 80.5/100. Mr. Ling holds a B.S. in Materials Science from HeFei University (2009–2013), graduating with a GPA of 79.5/100. His strong academic background underpins his innovative contributions to materials science. 🎓🔬🌍

Experience and Contributions 💼

Mr. Zhaoheng Ling possesses extensive expertise in molecular doping of organic semiconductors for photovoltaic applications, enhancing solar cell efficiency and stability. He is skilled in advanced experimental techniques such as J-V measurement, external quantum efficiency (EQE), UV-Vis transmission, photoluminescence, SEM, AFM, XRD, and atom probe tomography. His proficiency extends to crystal growth and thin-film deposition using molecular-beam epitaxy (MBE), thermal evaporation, and e-beam evaporation. Additionally, he is adept at data modeling and analysis with tools like Microsoft Office and ORIGIN. His teaching experience includes courses on the Physics of Beam-Solid Interactions and Organic Semiconductors and Applications at GEC Academy. 🧪🔬📊

Conference and Workshop

Mr. Zhaoheng Ling actively participates in international conferences and workshops to share his research and advance the field of photovoltaics. He delivered an oral presentation at the Asia-Pacific International Conference on Perovskite, Organic Photovoltaics, and Optoelectronics (2024, Japan) and presented posters at the Perovskite and Organic Photovoltaics Conference (2024, China) and the International Conference on Hybrid and Organic Photovoltaics (2023, UK). He has also attended notable workshops, including Printable Thin-Film Photovoltaics & Applications (2024, Germany), Photovoltaic Innovation for Saudi Vision 2030 (2024, KAUST), and Sustainable Energy Materials for a Low Carbon Future (2023, KAUST). 🌍🔬📊.

Research Focus Area 🌱🧬

Mr. Zhaoheng Ling’s research primarily centers on organic photovoltaics (OPVs), perovskite solar cells, and nanomaterials for renewable energy applications. His work involves enhancing solar cell efficiency through innovative approaches like bulk heterojunction modification, molecular doping, and interlayer engineering. Notable achievements include achieving over 20% efficiency in OPVs and developing tandem photovoltaic systems with 23.6% efficiency. His studies explore the stability, passivation, and optoelectronic properties of materials, addressing critical challenges in sustainable energy technologies. With high-impact publications in journals like ACS Energy Letters and Advanced Materials, his contributions are shaping the future of clean energy. 🧪☀️📚

Awards 🏆

Mr. Zhaoheng Ling was honored with the prestigious Academic Scholarship from the Nano Science and Technology Institute at the University of Science and Technology of China during 2014–2015. This recognition highlights his academic excellence and dedication to advancing the field of nanoscience. The award underscores his ability to excel in rigorous scientific research and his commitment to contributing innovative solutions to materials science and nanotechnology. This achievement reflects Mr. Ling’s determination to push the boundaries of scientific knowledge. 🎓🏆🔬

Publication Top Notes📄✨

High-efficiency silicon/organic heterojunction solar cells with improved junction quality and interface passivation

On the Conformation of Dimeric Acceptors and Their Polymer Solar Cells with Efficiency over 18%

Excellent passivation of silicon surfaces by thin films of electron-beam-processed titanium dioxide

Over 19% efficiency in ternary organic solar cells enabled by n-type dopants

Optoelectronic evaluation and loss analysis of PEDOT: PSS/Si hybrid heterojunction solar cells

TiO2 Films from the Low‐Temperature Oxidation of Ti as Passivating‐Contact Layers for Si Heterojunction Solar Cells

Monolithic Perovskite–Perovskite–Organic Triple-Junction Solar Cells with a Voltage Output Exceeding 3 V

Stability and passivation of 2D group VA elemental materials: black phosphorus and beyond

 

 

Prof Mohsen Nikbakht | Nanomaterials | Best Researcher Award

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Prof Mohsen Nikbakht | Nanomaterials | Best Researcher Award

Prof Mohsen Nikbakht, Tehran University of Medical Sciences, Iran

Prof. Mohsen Nikbakht is an esteemed researcher in cancer biology, stem cell therapy, and molecular medicine. As a professor and director of a Cord Blood Bank at Tehran University of Medical Sciences, his innovative research has significantly advanced hematology, oncology, and cell therapy. 🌍🔬

Publication Profile

GOOGLE SCHOLAR

Research Contributions

Prof. Nikbakht’s work focuses on cancer immunotherapy, mesenchymal cells, and autophagy in leukemia. His groundbreaking studies include using stem cells for liver fibrosis, osteoarthritis, and cancer treatment. His impactful research, featured in high-ranking journals, contributes to advancing therapeutic strategies and improving patient outcomes. 🧪✨

Publications and Innovations

With numerous peer-reviewed publications and collaborative research projects, Prof. Nikbakht has made significant strides in fields like immunotherapy and molecular biology. His work has explored the interplay of stem cells with cancer therapies and their potential in regenerative medicine. 📚💡

Professional Leadership

As a director and mentor, Prof. Nikbakht has led multidisciplinary teams, fostering collaboration and innovation. His expertise in techniques like cell culture, flow cytometry, and stem cell processing underscores his contribution to scientific advancement. 🌟👥

Publication Top Notes

Reversal of hypermethylation and reactivation of the RARbeta2 gene by natural compounds in cervical cancer cell lines

Evaluation of wound healing in diabetic foot ulcer using platelet-rich plasma gel: A single-arm clinical trial

Computational design of an enantioselective molecular imprinted polymer for the solid phase extraction of S-warfarin from plasma

p16INK4a and p15INK4b gene promoter methylation in cervical cancer patients

Methylation patterns of Rb1 and Casp-8 promoters and their impact on their expression in bladder cancer

Methylation patterns of Rb1 and Casp-8 promoters and their impact on their expression in bladder cancer

Evaluation of platelet-rich plasma gel potential in acceleration of wound healing duration in patients underwent pilonidal sinus surgery: A randomized controlled parallel …

Promoter hypermethylation of p73 and p53 genes in cervical cancer patients among north Indian population

Conclusion

Prof. Mohsen Nikbakht’s exceptional work in cancer research, stem cell therapy, and molecular biology, combined with his leadership and impactful publications, make him a highly deserving candidate for the Best Researcher Award. His transformative contributions continue to influence both academia and clinical practice. 🏆🎓

 

Dr Ting Li | Composite Materials | Best Researcher Award

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Dr Ting Li | Composite Materials | Best Researcher Award

Dr Ting Li, Ningbo Jiangong Engineering Group Co., Ltd. China

Dr. Ting Li, a distinguished researcher in civil engineering, specializes in fiber-reinforced polymer (FRP) materials for concrete structures exposed to fire. With a Ph.D. from Southeast University, China, and co-supervised research at EPFL, Switzerland, Dr. Li has advanced the field through innovations like basalt-phenolic FRP rebars and fire-resistant RC beams. He has authored impactful papers in journals such as Construction and Building Materials and holds patents on FRP technologies. As a project leader, he excels in team management and materials development, driving transformative contributions to structural engineering and materials science. 🧪🔥📚

Publication Profile

SCOPUS

Academic Pursuits 🎓

Dr. Ting Li has an outstanding educational background in civil engineering and structural engineering. He earned his Ph.D. from Southeast University, China (2016–2022), focusing on fiber-reinforced polymer (FRP) materials in fire-exposed concrete structures. During his Ph.D., he published six papers, received two patents, and was honored with a Jiangsu Province research innovation fund. From 2020–2021, he conducted co-supervised Ph.D. research at EPFL, Switzerland, publishing in a top journal. Dr. Li holds an M.Sc. in Structural Engineering (2013–2016) from Xi’an University of Architecture and Technology and a B.Sc. in Civil Engineering (2009–2013) from Henan University, excelling in advanced mathematics and statistics. 🎓🔬📚

Professional Experience💼

Dr. Ting Li is currently an R&D Engineer and Postdoctoral Researcher at Ningbo Construction, China (Oct. 2022 – Sep. 2024). He is actively engaged in strategic projects to explore new markets in the construction industry. His role involves conducting desk research, proposing scientific and technological topics, and developing innovative solutions. Dr. Li also conducts research on new materials using computational software and Excel, analyzing complex data sets to generate practical and optimistic application proposals. His work combines technical expertise and industry-driven innovation, contributing significantly to advancements in construction materials and technologies. 🏗️🔬📊

Contributions and Research Focus 🔬

Dr. Tian Li is an accomplished researcher specializing in structural engineering, advanced composite materials, and fire-resistant technologies for reinforced concrete (RC) structures. His expertise lies in the application of basalt-phenolic FRP (BFRP) rebars to enhance fire resistance and thermal performance in RC beams using NSM (Near Surface Mounted) techniques. He has contributed to key areas such as bond performance improvement, thermal-mechanical coupling environments, and self-sensing materials. With publications in high-impact journals like Construction and Building Materials and patents on fire-resistant technologies, Dr. Li’s research bridges innovation and sustainability in modern construction. 🏗️🔥📚.

Publication Top Notes📄✨

Bond enhancement for NSM FRP bars in concrete using different anchorage systems

Thermophysical and thermomechanical properties of basalt-phenolic FRP rebars under high temperature

Experimental study of traditional Chuan-dou frames infilled with wood panels under in-plane cyclic load

Analysis of Factors Influencing the Damping Performance of Polyurethane with Minimum Particles

Robustness analysis of dynamic properties of polyurethane damping materials based on multi-index control

Out-of-plane behavior of masonry infilled Chuan-dou timber frames

Mechanical and Damping Properties of Graphene-Modified Polyurethane-Epoxy Composites for Structures

Prof Yongfeng Li | Biomaterials | Best Researcher Award

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Prof Yongfeng Li | Biomaterials | Best Researcher Award

Prof Yongfeng Li, Forestry College of Shandong Agricultural University, China

Prof. Yongfeng Li, a leading researcher in Wood Science and Technology, holds a Ph.D. from Northeast Forestry University, China. With international experience as a visiting scholar at the University of Maryland and FPInnovations in Canada, he excels in polymer-wood composites, nanotechnology, and sustainable materials. Prof. Li’s groundbreaking research is published in high-impact journals like Nature and ACS Applied Nano Materials. He holds numerous patents, including innovative wood treatments, and has received prestigious awards such as the Shenzong Qi Wood Award. As a project leader and editorial board member, he combines academic excellence with impactful innovation. 🌱🏆📚.

Publication Profile

SCOPUS

ORCID

Academic and Experience 🎓

Prof. Yongfeng Li has a distinguished educational background and professional experience in Wood Science and Technology. He earned his Ph.D. (2008-2012), Master’s (2005-2008), and Bachelor’s (2001-2005) degrees from Northeast Forestry University, China. Prof. Li expanded his expertise through international exposure as a Visiting Scholar at the University of Maryland (2016-2017) in Material Science and Engineering and at FPInnovations in Canada (2011-2012), focusing on wood modification. This blend of advanced education and global experience underpins his leadership in wood science, sustainable materials, and innovative research, cementing his reputation as a prominent figure in his field. 🌳🔬🌍

Accolades and Recognition 🥇

Prof. Yongfeng Li has received numerous prestigious awards and honors throughout his illustrious career. 🌟 In 2019, he became an Editorial Board Member of Advances in Materials. 📘 In 2018, he earned third prize for “National Ecological Civilization & E-Teaching Achievements” 🌍 and was named “Pacemaker to Young Post Expert” at Shandong Agricultural University. 🏅 His first prize in the “Micro-Lecture Competition for Agriculture and Forestry Majors” followed in the same year. 📚 Earlier, he received honors like the Jiangsu High-Level Talent Plan (2015) 💼 and the “SHENZONGQI” Wood Science Paper Prize (2012). 📜 His academic journey is decorated with multiple scholarships, teaching awards, and leadership recognitions. 🎓✨

Scientific and Technological Achievement🌱🏆

Yongfeng Li, Xiaoying Dong, and collaborators have made significant contributions to wood hybrid materials and coatings through patented innovations. A notable patent (ZL201610114880.4) describes a superhydrophobic, oleophobic, antifungal, antibacterial, fire-retardant, and weather-resistant wood modifier, transferred on 30 November 2017 for ¥330,000. Another patent (ZL201610114670.5) covers waterborne wood coatings modified by 2D graphene oxide and 1D nanocellulose, transferred on 1 September 2020 for ¥100,000. Innovative nanoclay (ZL201210287368.1) and POSS (ZL201210287595.4) infiltration methods for hybrid nanocomposites were also patented, transferred in 2020 and 2021, respectively, each for ¥100,000. These advancements highlight breakthroughs in sustainable, functional materials. 🌱🔬✨

Book/Chapter📖

Yongfeng Li has contributed significantly to the field of composite materials and biopolymer grafting through key book chapters. In Advances in Composite Materials – Analysis of Natural and Man-made Materials (2011), Chapter 9 explores “Wood-Polymer Composites,” highlighting innovative approaches to material enhancement (ISBN: 978-953-307-449-8). Additionally, in Biopolymer Grafting: Applications (2017), co-authored with Xiaoying Dong, Chapter 11 delves into “Grafting Modification of Wood for High Performance,” showcasing advancements in biopolymer applications (ISBN: 978-0-12-810462-0). Published by INTECH and Elsevier, these works underscore groundbreaking insights into sustainable and high-performance materials. 📚🌱✨.

Contributions and Research Focus 🔬

Prof. Yongfeng Li’s research primarily revolves around wood science and sustainable materials engineering. He specializes in wood reinforcement and stabilization, polymer-wood composites, and nanotechnology applications. His work includes innovations like epoxy-acrylic polymer filling for wood strengthening, graphene oxide-enhanced coatings, and vacuum-thermo treatments for dimensional stability. Prof. Li’s research also explores environmentally friendly structural materials, such as laminated poplar veneer lumber and in-situ polymerized wood panels. His contributions significantly advance sustainable construction materials, mechanical property enhancement, and green engineering solutions, bridging the gap between academia and industrial applications. 🌱🏗️🧪

Publication Top Notes📄✨

Current utilization of waste biomass as filler for wood adhesives: A review

Enhancing the Mechanical Properties of Waterborne Polyurethane Paint by Graphene Oxide for Wood Products

Acrylic Resin Filling Cell Lumen Enabled Laminated Poplar Veneer Lumber as Structural Building Material

Nanocellulose-reinforced polyurethane as flexible coating for cork floor

Acetylated nanocellulose reinforced hydroxypropyl starch acetate realizing polypropylene replacement for green packaging application

AgCu Nanoparticles as an Antibacterial Coating for Wood

Epoxy-Acrylic Polymer In-Situ Filling Cell Lumen and Bonding Cell Wall for Wood Reinforcement and Stabilization

 

Assoc Prof Dr Sadia Ameen | Chemistry | Science Visionary Award

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Assoc Prof Dr Sadia Ameen | Chemistry | Science Visionary Award

Jeonbuk National University

Author Profile

Early Academic Pursuits 🎓

Dr. Sadia Ameen embarked on her academic journey with an unwavering passion for materials science and nanotechnology. Her foundational studies laid a robust groundwork in understanding the intricate interplay between chemistry, physics, and material properties. With an inquisitive mind, she delved deep into the synthesis of nanomaterials, developing an expertise in advanced fabrication techniques. Her relentless quest for knowledge led her to pursue advanced degrees, where she demonstrated a strong aptitude for scientific research and innovation, earning accolades from peers and mentors alike.

Professional Endeavors 🌟

Dr. Ameen is an Associate Professor at the Advanced Materials and Devices Laboratory, Department of Bio-Convergence Science, Advanced Science Campus, Jeongeup, Jeonbuk National University, Republic of Korea. She also holds the distinguished role of Adjunct Professor in the Department of Bioactive Material Sciences at the same university in Jeonju. Her dual roles highlight her multifaceted contributions to academia and research, fostering interdisciplinary collaborations that bridge materials science, bio-convergence technologies, and device engineering.

In her tenure at Jeonbuk National University, Dr. Ameen has made significant strides in cutting-edge research. She has championed the development of nanomaterials and thin films for diverse applications, setting benchmarks in her field. Her contributions extend beyond research as she nurtures the next generation of scientists, inspiring them to explore the limitless possibilities of nanoscience.

Contributions and Research Focus 🔬

Dr. Ameen’s research is at the forefront of nanomaterials synthesis and their application in optoelectronic devices. Her pioneering work includes:

  • Synthesis of Nanomaterials: She specializes in creating nanomaterials of varying dimensions, organic small molecules (OSMs), and nanocomposites using techniques such as plasma-enhanced chemical vapor deposition (PECVD), sol-gel methods, and hydrothermal synthesis. Her expertise in these areas has enabled breakthroughs in material properties for practical applications.
  • Characterization Techniques: Dr. Ameen employs advanced techniques like electrical conductivity, photocurrent density measurements, and electrochemical impedance to analyze material properties. These techniques provide critical insights into the functional potential of synthesized materials.
  • Thin Film Preparation: Her innovative methods, including spin coating, electrophoretic deposition, and doctor blade techniques, have enhanced the precision and scalability of thin-film preparation, crucial for device fabrication.
  • Device Fabrication: Dr. Ameen’s contributions extend to fabricating advanced optoelectronic devices, including organic solar cells (OSCs), perovskite solar cells (PSCs), dye-sensitized solar cells (DSSCs), biosensors, photocatalytic degradation systems, and supercapacitors. Her work on field-emission transistors (FETs) has opened new avenues in electronics, while her rectifying and heterostructure devices showcase her depth of knowledge in device physics.

Accolades and Recognition 🏆

Dr. Ameen’s innovative research has earned her widespread recognition in the scientific community. Her prolific contributions have been published in prestigious journals, reflecting her dedication to advancing the frontiers of science. She is frequently invited to present her findings at international conferences, underscoring her influence as a thought leader in nanotechnology and optoelectronics.

Her dual appointments at Jeonbuk National University stand as a testament to her academic excellence and her pivotal role in fostering research that bridges diverse scientific disciplines.

Impact and Influence 🌍

Dr. Ameen’s work has profound implications for sustainable development and technological innovation. Her research on photocatalytic degradation directly addresses environmental challenges by offering efficient solutions for wastewater treatment. Similarly, her advancements in renewable energy devices, such as perovskite and dye-sensitized solar cells, contribute to the global shift toward clean energy solutions.

Her mentorship of students and young researchers fosters a collaborative and innovative environment. By sharing her expertise in advanced fabrication techniques and material characterization, she empowers the next generation to make significant contributions to the field.

Legacy and Future Contributions 🚀

As Dr. Sadia Ameen continues her journey in academia and research, her legacy grows through her impactful contributions to materials science and device engineering. Her vision for the future involves exploring bio-convergence technologies, where materials science intersects with biology to create solutions for healthcare and environmental challenges.

Dr. Ameen is poised to lead the development of next-generation optoelectronic devices with enhanced efficiency and sustainability. Her commitment to synthesizing novel nanomaterials and advancing device fabrication techniques will undoubtedly inspire new innovations in nanotechnology.

Citations

A total of 5,072 citations for his publications, demonstrating the impact and recognition of his research within the academic community.

  • Citations        5,072
  • h-index          182
  • i10-index       37

Notable Publications 

  • Carbonized Porous Zeolitic Imidazolate Framework as Promising Electrode for Electrochemical Supercapacitors
    Authors: Kim, E.-B., Akhtar, M.S., Kong, I., Ameen, S.
    Journal: Electrochimica Acta
    Year: 2024.
  • Tailoring Porous NiMoO4 Nanotube via MoO3 Nanorod Precursor for Environmental Monitoring: Electrochemical Detection of Micro-Sized Polyvinylchloride
    Authors: Kim, E.-B., Akhtar, M.S., Kong, I., Ameen, S.
    Journal: Chemosphere
    Year: 2024.
  • Sustainable Synthesis of Indium Oxide Nanoparticles via Aloe Vera for Gas Sensing Applications
    Authors: Kulkarni, S.C., Salunke, V.T., Naeem, S., Shaheer Akhtar, M., Ameen, S.
    Journal: Microchemical Journal
    Year: 2024.
  • Nickel-Doped Barium Oxide Nanoclusters as Efficient Electrode for the Detection of 4-Nitrophenol
    Authors: Alam, M., Srivastava, A., Al-Otaibi, W., Khan, S.A., Ameen, S.
    Journal: Materials Chemistry and Physics
    Year: 2024.
  • Recent Progress on Organic Metal Compound/MOF Hybrids: From Controllable Synthesis to Potential Catalytic Applications
    Authors: Absalan, Y., Gholizadeh, M., Kim, E.-B., Wang, Y., He, H.
    Journal: Coordination Chemistry Reviews
    Year: 2024.

Mr Hani Mohamed Hamed | Materials Characterization Techniques | Best Researcher Award

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Mr Hani Mohamed Hamed | Materials Characterization Techniques | Best Researcher Award

Mr Hani Mohamed Hamed, Nuclear Materials Authority, Egypt

Mr. Hani Mohamed Hamed Tawfik Mohamed is a dedicated researcher in nuclear and environmental chemistry, holding a B.Sc. in Chemistry and Biochemistry, a Master’s in corrosion of nuclear fuel cladding materials, and pursuing a Ph.D. on rare earth elements and radioactive materials from monazite sand. With impactful publications in journals like Journal of Nuclear Materials, his expertise spans neutron activation analysis, zirconium corrosion, and electrochemical studies. He works as a chemist at Egypt’s Nuclear Materials Authority, contributing to critical national projects. His research interests include nuclear fuel cycle management and environmental protection. 🌍🔬📚

Publication Profile

Scopus

Educational Background 🎓

Mr. Hani Mohamed Hamed is a Ph.D. student in Inorganic Chemistry at Zagazig University, Egypt, since March 11, 2020. His research focuses on the characterization of Monazite sand using Neutron Activation Analysis, estimating neutron self-shielding, and recovering rare earth elements, thorium, uranium, and phosphorus. He has completed pre-doctorate courses during the summer of 2020 and fall 2021. Hamed holds a Master of Science degree in Inorganic Chemistry from Zagazig University (2014), where his thesis focused on the effect of water chemistry on the corrosion of nuclear fuel cladding materials. He also earned his Bachelor of Science degree in Chemistry-Biochemistry from Ain Shams University in 2007. 🎓🔬📚

Skills and courses📊

Mr. Hani Mohamed Hamed has developed a strong skill set through various courses and certifications. He achieved an IELTS score of 6 out of 9 in 2019 and 2017, and completed the TOEFL iBT with a score of 65 and TOEFL pBT with 496. Hamed also participated in key workshops at Zagazig University, including “Scientific Writing and Reference Management,” “International Database, References Management and Plagiarism Avoidance,” and “International Publication of Scientific Research” in 2019. Additionally, he completed the Graduate Record Examinations, scoring 146 in Quantitative Reasoning and 134 in Verbal Reasoning. His technical expertise includes SPSS, Chemical Industry Technology, and ICDL certifications. 📚🎓📊

Professional Experience💼

Mr. Hani Mohamed Hamed has extensive work experience in various fields. Since March 31, 2015, he has been working as a Chemist at the Nuclear Materials Authority in Egypt. Prior to this, he served as a Medical Representative at Egyphar Pharmaceutical Company from January 2011 to December 2016. Hamed also taught Science and Chemistry at El-Fouad International Language Schools and a charity during the 2010-2011 academic year. Additionally, he worked as a Pharmacist Assistant at El-Saad El-Kubra Pharmacy from July 2007 to August 2010, gaining valuable experience in the pharmaceutical field. 💼🔬📚

Research Focus Area 🌱🧬

Mr. Hani Mohamed Hamed’s research focuses on several critical areas within nuclear chemistry and materials science. His expertise includes the nuclear fuel cycle and waste management, particularly the chemistry and separation of actinides and lanthanides, spent nuclear fuel reprocessing, and radioactive waste management. He also explores separation techniques, nuclear chemistry, radiochemistry, and environmental chemistry. Additionally, his work extends to materials science and engineering, nanoscience, and nanotechnology. A key focus of his research is the corrosion of zirconium alloys (Zircaloys) in reactor environments, crucial for nuclear fuel performance and safety. ⚛️🔬🧪🛠️

publication Top Notes📚🔍

The impact of elevated lithium concentration 3.5 ppm on the corrosion rate of zirconium

Electrochemical corrosion of Zircaloy-2 under PWR water chemistry but at room temperature

Conclusion

Mr. Hani Mohamed Hamed’s robust academic background, impactful research contributions, and global collaborations make him a suitable and deserving candidate for the Best Researcher Award. His work addresses critical challenges in energy sustainability and materials science, reflecting excellence and innovation in his field.

Dr Jiageng Guo | Microstructure and Properties | Best Researcher Award

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Dr Jiageng Guo | Microstructure and Properties | Best Researcher Award

Dr Jiageng Guo, Guangxi university of Chinese Medicine, China

Dr. Jiageng Guo is a distinguished researcher at Guangxi University of Traditional Chinese Medicine, specializing in pharmacology and cancer research. He has made significant contributions to liver cancer therapy, focusing on natural compounds like cinnamaldehyde and cinnamic acid. His work spans cutting-edge areas, including network pharmacology, bioinformatics, and both in vitro and in vivo experimental techniques. With high-impact publications in journals like Frontiers in Pharmacology, Dr. Guo integrates Traditional Chinese Medicine with modern pharmacology. His interdisciplinary approach offers innovative solutions for cancer therapy and drug discovery. 🌿🔬🧬💡📚

Publication Profile

Scopus

Skills

Guo Jiageng is highly skilled in network pharmacology and bioinformatics analysis, essential for understanding complex biological systems and drug interactions. He is proficient in various in vitro cell experimental techniques, including flow cytometry, cell proliferation, apoptosis, migration, invasion, and cell cycle analysis 🧬. Additionally, he has hands-on experience with in vivo experimental models, such as constructing zebrafish PDX models, performing zebrafish seahorse detection 🐟, and establishing mouse tumor-bearing models 🐭. These techniques are critical for advancing research in pharmacology and cancer therapy.

Education🎓

Dr. Guo is a distinguished academic at Guangxi University of Traditional Chinese Medicine, where he combines the rich heritage of traditional Chinese medicine with modern scientific research methodologies. His diverse academic background allows him to integrate a wide range of scientific knowledge, especially in the fields of pharmacology and holistic healing. With expertise in both traditional practices and contemporary research, Dr. Guo is well-positioned to explore and advance the understanding of Chinese medicine in the modern scientific landscape. His work bridges the gap between ancient wisdom and cutting-edge medical innovations. 🌿📚💡

Experience

From September 2022 to September 2024, Guo Jiageng dedicated his efforts to research on the therapeutic mechanisms of cinnamaldehyde and cinnamic acid in liver cancer treatment. His work explored crucial energy metabolism pathways and the EGFR pathway, aiming to uncover their potential in combating cancer cells 🧬. Through these studies, he contributed valuable insights into the molecular processes involved in liver cancer therapy, paving the way for novel treatments and therapeutic strategies 🍃.

Research Focus Area 🌱🧬

Dr. Jiageng Guo’s research primarily focuses on Traditional Chinese Medicine (TCM), pharmacology, and its applications in health restoration. His work includes investigating natural compounds like cinnamaldehyde 🌿 and Cinnamomi Cortex 🍃 for therapeutic effects, particularly in skin barrier restoration and cancer treatment. Dr. Guo explores the molecular mechanisms underlying these herbal treatments, such as the role of GSK-3β in liver cancer through the PI3K/AKT pathway ⚖️. His research bridges traditional herbal medicine with modern biomedical advancements 🩺, highlighting the potential of TCM in improving skin health and combating diseases.

Publication Top Notes📄✨

Insights from Traditional Chinese Medicine for Restoring Skin Barrier Functions

Visual analysis of knowledge graph for research progress on medicinal and edible traditional Chinese medicine Cinnamomi Cortex based on VOSviewer and CiteSpace

Evaluation of the effect of GSK-3β on liver cancer based on the PI3K/AKT pathway

Advances in pharmacological effects and mechanism of action of cinnamaldehyde

Conclusion🔍

Dr. Jiageng Guo is undoubtedly a suitable candidate for the Best Researcher Award, given his extensive research background, significant publications in top journals, mastery of diverse experimental techniques, and his impactful contributions to both modern cancer research and traditional medicine. His work is poised to make meaningful advancements in therapeutic development, particularly for liver cancer, and his multi-disciplinary approach offers considerable promise for future breakthroughs.

 

Mr Satish Chaurasia | Shape Memory Alloys | Best Researcher Award

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Mr Satish Chaurasia | Shape Memory Alloys | Best Researcher Award

Mr SATISH CHAURASIA, NIT Meghalaya, India 

Mr. Satish Chaurasia is a Ph.D. candidate in Advanced Manufacturing Technologies at the National Institute of Technology, Meghalaya. His research focuses on Micro-EDM machining of Nitinol Shape Memory Alloys (SMA) using bio-based dielectrics, aiming to optimize machining processes for medical applications. His work integrates Artificial Neural Networks (ANN) and Genetic Algorithms (GA) for predictive modeling, ensuring efficiency and reproducibility. Mr. Chaurasia has published in prestigious journals and is known for his contributions to biocompatibility testing, including cytotoxicity and hemocompatibility studies. His innovative research in sustainable, bio-grade materials and manufacturing processes positions him as a leader in the field. 🛠️💡💉🌱

Publication Profile

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Academic and Professional Background🎓

Mr. Satish Chaurasia is currently pursuing a Ph.D. in Advanced Manufacturing Technologies at the National Institute of Technology, Meghalaya, with a focus on Micro-EDM machining of Nitinol Shape Memory Alloys (SMA) using bio-based dielectrics. His research aims to optimize machining processes for medical applications, using sustainable materials to reduce environmental impact. He holds an M.Tech in Mechanical Engineering from Madan Mohan Malaviya University of Technology, Gorakhpur, U.P., India. His academic background, combined with his innovative research in non-traditional machining, positions him as a promising leader in advanced manufacturing and medical device development. 🎓🔧💡🌱

Research Focus Area 🌱🧬

Mr. Satish Chaurasia’s research interests are focused on the micro-EDM machining of bio-grade materials, particularly Nitinol Shape Memory Alloys (SMA), which are essential for medical devices. He explores the use of bio-based dielectrics, such as sesame and canola oils, to optimize machining processes while minimizing environmental impact. His work involves process parameter optimization, including factors like tool rotation, voltage, and pulse duration. Additionally, he conducts surface morphology and biocompatibility analyses to ensure performance and safety. Mr. Chaurasia also leverages Artificial Neural Networks (ANN) and Genetic Algorithms (GA) for predictive modeling to enhance machining efficiency. ⚙️🌱🔬🤖

Publication Top Notes📄✨

Self-similar solution for the flow behind an exponential shock wave in a rotational axisymmetric non-ideal gas with magnetic field

On the blast wave propagation and structure in a rotational axisymmetric perfect gas

Exact solution for isothermal flow behind a shock wave in a self-gravitating gas of variable density in an azimuthal magnetic field

Optimization of Kerf Width in WEDM of Sandwich Woven CFRP-An Ensemble Machine Learning Based Approach

A novel investigation on rotary tool-assisted electrical discharge-micro drilling of carbon-aramid hybrid composite

Modelling, Measurement and Control B

Powder mixed micro-electric discharge milling of Ni-rich NiTi SMA: an investigation on machining performance and biocompatibility

Electrical discharge machining of super alloy incoloy 925: a study based on box behnken design and response surface methodology

Hybrid Electro Discharge Machining Process Investigation: A review

Conclusion

Mr. Satish Chaurasia’s cutting-edge research in non-traditional machining, his focus on sustainable, bio-based materials for medical applications, and his use of advanced machine learning techniques for process optimization makes him an excellent candidate for the Best Researcher Award. His research not only pushes the boundaries of manufacturing technology but also addresses the pressing need for environmentally friendly, biocompatible solutions in the medical field.

 

Prof. Dr Yusuf ÖZCAN | Biomaterials | Best Researcher Award

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Prof. Dr Yusuf ÖZCAN | Biomaterials | Best Researcher Award

Prof. Dr Yusuf ÖZCAN, Pamukkale University, Turkey

Prof. Özcan is a leading expert in bio-inspired nanomaterials and drug delivery systems, with a focus on advancing both biomedical engineering and environmental sustainability. His pioneering research has led to significant breakthroughs in the development of innovative materials that address critical health challenges and environmental concerns. With a proven track record of successful projects and publications, Prof. Özcan is known for his leadership in the field and his ability to bridge the gap between cutting-edge science and practical applications. His work continues to shape the future of healthcare and environmental solutions. 🌱🔬💉

Publication Profile

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Educational Background 🎓

Prof. Yusuf Özcan holds an M.S. and Ph.D. in Physics Engineering from Hacettepe University, Ankara, Turkey, where he gained expertise in advanced materials and their applications. He completed his B.S. in Physics at Atatürk University, Erzurum, Turkey. Prof. Özcan is currently an Associate Professor at Pamukkale University, Faculty of Technology, Department of Biomedical Engineering, where he has been shaping the future of biomedical technologies since 1992. Additionally, he has collaborated internationally, contributing to research at the National Synchrotron Radiation Research Center in Hsinchu, Taiwan, in 2006-2007. His diverse educational background fuels his innovative research in biomedical engineering. 🎓🔬🌍

Professional Experience and Contributions 💼

Prof. Yusuf Özcan is a distinguished Professor of Biomedical Engineering at Pamukkale University, with over 20 years of expertise in advanced material science. He holds a Bachelor’s in Physics from Atatürk University and a Ph.D. in Physical Engineering from Hacettepe University. His research spans stimuli-responsive polymers, bone tissue engineering, nanocomposites for drug release, and synchrotron-based nanomaterial analysis. Notable works include developing bio-nanocomposites for bone regeneration, hybrid hydrogels for controlled drug release, and eco-friendly biosensors for heavy metal detection. Prof. Özcan’s groundbreaking contributions have advanced biomedical engineering, nanotechnology, and environmental sustainability. 🎓🔬🌱

Research and Innovations

Prof. Yusuf Özcan has led over 20 national and international research projects, including TÜBİTAK and SESAME-supported studies, with an h-index of 10 and over 390 citations. His research focuses on biomedical engineering, nanocomposites, and stimuli-responsive polymers. He has published over 30 peer-reviewed articles in high-impact journals, and is actively working on bio-inspired nanomaterial patents. With collaborations across the globe, including Taiwan’s National Synchrotron Radiation Research Center (NSRRC), Prof. Özcan has made significant strides in advanced drug delivery systems and eco-friendly materials. He is also a member of the Turkish Physical Society. 🔬🌍📚

Research Focus Area 🌱🧬

Prof. Yusuf Özcan’s research primarily focuses on biomedical engineering, nanotechnology, and material science. His work includes the development of advanced biopolymeric nanomaterials for controlled drug delivery systems, innovative bone tissue scaffolds, and eco-friendly biosensors. Prof. Özcan specializes in stimuli-responsive polymers, nanocomposites, and synchrotron-based material analysis. He has made significant contributions to environmental sustainability by creating green materials and eco-friendly sensors for detecting heavy metals. His research extends to the development of hybrid films and microbeads for targeted drug release, enhancing the efficiency of therapeutic treatments. 🧬💊🌿

Publication Top Notes

Structure, antibacterial activity and theoretical study of 2-hydroxy-1-naphthaldehyde-N-methylethanesulfonylhydrazone

Synthesis, characterization, biological activities of dimethyltin (IV) complexes of Schiff bases with ONO-type donors

Characterization and Production of Extracellular Polysaccharides (EPS) by Bacillus Pseudomycoides U10

Structure and characterization of N-(2-hydroxy-1-naphthylidene) threonine

Structural and spectroscopic characteristics of two new dibenzylbutane type lignans from Taxus baccata L.

Crystallographic report: Bis {µ‐[O‐cyclopentyl (4‐methoxyphenyl) dithiophosphonato] 1κ: S, 2κ: S‐[O‐cyclopentyl (4‐methoxyphenyl) dithiophosphonato]‐1κ2S, S′} dicadmium (II)

STRUCTURAL, ELECTRICAL AND OPTICAL PROPERTIES OF THERMALLY EVAPORATED CdSe AND In-DOPED CdSe THIN FILMS.

Micellization behavior of tertiary amine-methacrylate-based block copolymers characterized by small-angle X-ray scattering and dynamic light scattering

trans-Bis [O-2, 4-di-tert-butylphenyl (4-methoxyphenyl) dithiophosphonato-κ2S, S′] nickel (II)

Crystal and Molecular Structures of trans-Nickel (II)-bis [(O-propyln)-(p-methoxyphenyl) dithiophosphonate]

Conclusion

Prof. Dr. Yusuf Özcan’s extensive body of work demonstrates not only scientific excellence but also practical contributions to pressing global challenges, making him a strong and deserving candidate for this award. His innovative approach and global collaboration signify a researcher who is pushing the boundaries of materials science and biomedical engineering.