Assoc. Prof. Dr Chandra Mohan | Biosensors | Best Researcher Award

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Assoc. Prof. Dr Chandra Mohan | Biosensors | Best Researcher Award

Associate Professor, K R Mangalam University, Gurugram, India

As an Associate Professor of Chemistry, I possess a solid foundation in chemical sensors, transition metal chemistry, and heterocyclic complexes. With expertise in bimetallic complex synthesis and electrochemical sensor fabrication, I leverage my analytical and problem-solving skills to design and execute experiments with precision and accuracy. My passion for scientific discovery drives me to contribute to cutting-edge research in chemistry.

Profile

scholar

🎓 Education

– Ph.D. in Inorganic Chemistry: Guru Gobind Singh Indraprastha University, Delhi (2018)- M.Phil. in Inorganic Chemistry: University of Delhi (2009)- (link unavailable) in Applied Chemistry: Maharshi Dayanand Saraswati University, Ajmer (2007)- (link unavailable) in Physics, Chemistry, Maths: S P C Government College, Ajmer (2005)

👨‍🔬 Experience

– *Associate Professor*: K. R. Mangalam University, Gurugram (2023-Present)- *Assistant Professor*: K. R. Mangalam University, Gurugram (2013-2023)- *Assistant Professor*: HMRITM College, Delhi (2010-2011)

Awards and Honors 🏆

– *Research Collaborations*: Institute of Biotechnology, St. John’s University, Queens, New York, USA; Centre for Environmental Studies, Main Campus, Windhoek, Namibia; and others- Ph.D. Guidance: 5 students (3 awarded, 2 ongoing); (link unavailable) students (1); (link unavailable) students (15)

🔍 Research Interest

– *Chemical Sensors*: Synthesis and characterization of metal complexes for sensor applications- *Transition Metal Chemistry*: Bimetallic complex synthesis and applications- *Heterocyclic Complexes*: Synthesis and biological activity of heterocyclic compounds

📚 Publications 

1. Synthesis and characterization of Schiff based metal complexes and their application as chemical sensors 📚
2. Experimental and Theoretical Studies of Structural, Electronic and Optical Properties of Titanate Nanostructures 🔍
3. Synthesis, Characterization and Potential Applications of Conducting Polymer Nanocomposites 💡
4. Synthesis and Medicinal Applications of Quinazoline Derivatives 🏥
5. Degradation of Toxic Dyes from Wastewater using Chemical Methods 🌎
6. Removal of toxic pollutants using advanced oxidation processes 💧
7. Synthesis and biological activity of heterocyclic compounds as Anti-Inflammatory agents

Conclusion

Based on the provided information, the candidate exhibits a strong research background, extensive experience, and global collaborations, making them a suitable contender for the Best Researcher Award. However, quantifying research output and highlighting innovative contributions would further solidify their application ¹.

YASHWANTH H L | Composite samples | Best Researcher Award

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Mr. YASHWANTH H L | Composite samples | Best Researcher Award

Researcher, Freelance, India

Yashwanth H L is a fresh graduate in Aeronautical Engineering with a strong passion for aircraft design and innovation. He possesses a solid understanding of mechanical principles, aerodynamics, and aircraft structures. Yashwanth is proficient in industry-standard software for design and analysis, including Ansys, CATIA, and Matlab. He has worked on various projects, such as characterizing reduced graphene oxide-filled glass fabric thermosets and analyzing the acoustic and vibrational properties of Calamus Rotang natural fiber composites. With a keen interest in research and development, Yashwanth has published papers in reputable journals and presented at international conferences. He is eager to contribute to the industry and continue learning and growing in his career. 🚀

Profile

scholar

🎓 Education

Yashwanth H L holds a Bachelor’s degree in Aeronautical Engineering from Srinivas Institute of Technology, Valachil, Mangalore, with a CGPA of 7.3. He completed his pre-university education at St Mary’s P U College, H D Kote, with a percentage of 83.83%. Yashwanth’s academic background has provided a strong foundation for his research and industry work. Throughout his academic journey, he has demonstrated a commitment to excellence and innovation in the field of aeronautical engineering. 📚

👨‍🔬 Experience

Yashwanth H L has gained valuable experience through internships and projects. He worked as a Design and Analysis Intern at Brahmastra Aerospace, where he applied his skills in Ansys and other software. Yashwanth also completed internships in Matlab and Simulink simulations at Pegasus Aerospace and rocket design and analysis at Feynman Aerospace. These experiences have enabled him to develop practical skills and apply theoretical knowledge to real-world problems. 🚀

🔍 Research Interest

Yashwanth H L’s research focuses on materials science, structural analysis, and aerodynamics. He has worked on projects involving reduced graphene oxide-filled glass fabric thermosets and Calamus Rotang natural fiber composites. Yashwanth’s research aims to develop innovative materials and solutions for aerospace applications. His work has potential implications for improving aircraft performance, safety, and efficiency. 🔍

🏆 Awards

Yashwanth H L has received recognition for his research and academic achievements. He has published papers in reputable journals, including Nature’s Scientific Reports and Results in Engineering, Elsevier. Yashwanth has also presented at international conferences, such as the International Conference on Nanotechnology and the SME-2023 conference. These achievements demonstrate his potential as a researcher and innovator in the field of aeronautical engineering. 🎉

📚 Publications

1. Mechanical characterization & regression analysis of Calamus rotang based hybrid natural fibre composite with findings reported on retrieval bending strength 📊
2. Characterization and Mechanical Studies of Reduced Graphene Oxide Filled Glass Fabric Thermosets 🔬
3. Evaluation of Mechanical, Acoustic and Vibration characteristics of Calamus Rotang based Hybrid natural fiber composite

Conclusion

Yashwanth’s research experience, publication record, technical skills, and collaboration abilities make him a strong candidate for the Best Researcher Award. With further development and refinement, he has the potential to make significant contributions to the field of aeronautical engineering ¹

ERHAN BAYSAL | Mechanical Engineering | Best Researcher Award

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Mr. ERHAN BAYSAL |  Mechanical Engineering | Best Researcher Award

Lecturer at Laser Research Centre, Zonguldak Bülent Ecevit Üniversitesi, China

Erhan Baysal is a Lecturer at Bülent Ecevit University, specializing in Mechanical Engineering. With a strong background in materials science and manufacturing processes, particularly in friction welding, he has contributed to numerous academic publications. His academic journey spans various prestigious institutions, and he actively participates in research and academic projects related to material behavior, mechanical design, and welding technologies. 📚🔧👨‍🏫

Profile

scholar

Education 🎓

Master’s in Mechanical Engineering, Bülent Ecevit University, 2019 🎓Bachelor’s in Mechanical Engineering, Fırat University, 2013

Experience 🏫💻

Lecturer, Bülent Ecevit University, 2016–present 🎓Researcher in national projects on manufacturing processes 🛠️Instructor in various courses including Strength of Materials and Manufacturing Processes

Awards and Honors 🏆

Contributor to several peer-reviewed articles in international journalsPublished in prestigious conferences and journals on materials and welding technologies 📑Awarded for his contribution to applied research in friction welding and mechanical design 🌍

Research Focus🔬🔩

Erhan Baysal’s research focuses on materials science, particularly the mechanical behavior and welding of aluminum alloys using friction stir welding. He also explores deformation processes in material shaping and manufacturing optimization.

Publication  Top Notes

An Overview of Deformation Path Shapes on Equal Channel Angular Pressing” (2022)

Authors: E. Baysal, O. Koçar, E. Kocaman, U. Köklü

Journal: Metals 12 (11), 1800

Summary: This paper discusses the deformation paths formed during equal channel angular pressing (ECAP). The study focuses on how different processing parameters, such as the angle of the channels, affect the microstructure and mechanical properties of the material.

“Mechanical Behavior of a Friction Welded AA6013/AA7075 Beam” (2022)

Authors: O. Koçar, M. Yetmez, E. Baysal, H.A. Ozyigit

Journal: Materials Testing 64 (2), 284-293

Summary: This research investigates the mechanical properties of beams made from AA6013 and AA7075 aluminum alloys joined via friction welding. The study examines the mechanical behavior of the weld joint, focusing on parameters such as strength, hardness, and fracture toughness.

“A New Approach in Part Design for Friction Stir Welding of 3D-Printed Parts with Different Infill Ratios and Colors” (2024)

Authors: O. Koçar, N. Anaç, E. Baysal

Journal: Polymers 16 (13), 1790

Summary: This paper introduces a novel approach to part design for friction stir welding (FSW) of 3D-printed parts. The study evaluates how different infill ratios and colors in 3D printing affect the welding process, quality, and mechanical properties of the final product.

“Eşit Kanallı Açısal Presleme Yönteminde Kanal Açılarının ve İç Köşe Kavisinin Deformasyona Etkisinin Sonlu Elemanlar Metodu ile İncelenmesi” (2023)

Authors: E. Baysal, O. Koçar, N. Anaç, F. Darıcı

Journal: Çukurova Üniversitesi Mühendislik Fakültesi Dergisi 38 (3), 859-873

Summary: This paper investigates the effect of channel angles and inner corner radii on deformation during equal channel angular pressing (ECAP) using finite element method (FEM) simulations. The research provides insights into how these factors influence material flow and structural integrity.

“Görüntü İşleme Teknikleri ile Rulo Sac Hassas Doğrultmada Silindir Konumlarının Belirlenmesi” (2021)

Authors: O. Koçar, S. Dikici, H. Uçar, E. Baysal

Journal: El-Cezeri 8 (2), 604-617

Summary: This article explores the use of image processing techniques to determine the cylinder positions in precision flattening of rolled sheets. The study demonstrates how computer vision can enhance manufacturing processes, particularly in achieving high precision in material deformation.

“3B Yazıcıda Üretilen Plakaların Sürtünme Karıştırma Kaynak Parametrelerinin YSA ile Tahmini” (2024)

Authors: N. Anaç, O. Koçar, E. Baysal

Journal: Niğde Ömer Halisdemir Üniversitesi Mühendislik Bilimleri Dergisi 13 (1), 176-187

Summary: This paper presents a prediction model using artificial neural networks (ANN) to estimate the parameters for friction stir welding of 3D-printed plates. The research focuses on optimizing welding conditions to improve the quality and strength of the welded joints.

“Etial 180 Alaşımına İlave Edilen Bakırın Mikroyapı, Sertlik ve Korozyon Üzerindeki Etkisi” (2023)

Authors: E. Kocaman, E. Baysal, O. Koçar, A.S. Güldibi, S. Şirin

Journal: Niğde Ömer Halisdemir Üniversitesi Mühendislik Bilimleri Dergisi 12 (2), 604-611

Summary: This study investigates the impact of adding copper to Etial 180 alloy, focusing on its effect on microstructure, hardness, and corrosion resistance. The findings highlight the potential improvements in material properties when copper is incorporated into the alloy.

“Barkhausen Noise as A Magnetic Nondestructive Testing Technique”

Authors: Ö. Adanur, O. Koçar, A.S. Güldibi, E. Kocaman, E. Baysal

Journal: Black Sea Journal of Engineering and Science 7 (4), 7-8

Summary: The paper explores the use of Barkhausen noise as a nondestructive testing (NDT) technique to assess the magnetic properties of materials. This method is useful in evaluating the integrity and structural health of components without causing damage.

“AA6013/AA7075 Alüminyum Malzemelerin Sürtünme Kaynağı Yöntemiyle Birleştirilmesi ve Analizi”

Authors: E. Baysal, O. Koçar, M. Yetmez, H.A. Ozyigit

Summary: This research focuses on the friction stir welding (FSW) of AA6013 and AA7075 aluminum alloys, analyzing the mechanical properties, microstructure, and joint quality achieved by this welding method.

Conclusion

Erhan Baysal has shown exceptional dedication to advancing mechanical engineering through his research and teaching. His focus on cutting-edge manufacturing technologies, coupled with his broad publication history, makes him a strong candidate for the Best Researcher Award. With further interdisciplinary integration and industry collaborations, he could significantly elevate the practical applications of his research, solidifying his role as a leading figure in the field. His ongoing work promises to continue shaping the future of mechanical engineering.