Jayant Giri | Materials | Best Researcher Award3208

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Dr. Jayant Giri | Materials | Best Researcher Award

Yeshwantrao Chavan College of Engineering | India

 

Author Profile:

Scopus

Early Academic Pursuits:

Dr. Jayant Giri's academic journey commenced with a strong foundation in Mechanical/Production Engineering. He pursued education and training at various levels, attaining degrees of B.E., M.Tech., and Ph.D., showcasing a commitment to excellence in his field. Additionally, he holds a Post Graduate Diploma in Business Management (PGDBM).

Professional Endeavors:

Currently holding the esteemed positions of Head of the Department (HOD) and Associate Professor of Mechanical Engineering at Yeshwantrao Chavan College of Engineering, Nagpur, India, Dr. Jayant Giri boasts an extensive career of over 23 years. His professional journey encompasses roles in Teaching, Industry, Training, Research, and Administration.

Contributions and Research Focus:

Dr. Giri's prolific contributions include authoring over 75 papers published at the National/International level in various journals, seminars, and conferences. His research expertise spans diverse domains, including Mathematical Modeling and Simulation, Advanced Optimization, Artificial Neural Network, Robotics, CNC Programming, and Additive Manufacturing.

Accolades and Recognition:

Acknowledged for his scholarly contributions, Dr. Jayant Giri has chaired sessions at both International and National conferences. His influence extends to delivering more than 180 invited talks on a range of domains, showcasing his recognition and impact in the academic and research community.

Impact and Influence:

In his capacity as Head of the Mechanical Engineering Department, Dr. Giri has played a pivotal role in shaping the academic environment. Guiding over 15 postgraduate and more than 35 undergraduate projects, he has significantly contributed to the development of students in the field.

Legacy and Future Contributions:

Dr. Jayant Giri's legacy is marked by his active role in organizing more than 45 Short Term Training Programs (STTPs), emphasizing knowledge dissemination and skill development. His recent completion of research projects, including the NAFETIC project worth Rs 80 Lacs and an AICTE project worth Rs.3 Lacs, attests to his commitment to advancing research and innovation. With three ongoing minor research projects, he continues to contribute to the academic and research landscape.

Dr. Giri's dedication to conducting training programs and guiding research scholars reflects his commitment to the continuous development of individuals in key areas of expertise, ensuring a lasting impact on the academic community and beyond.

Notable Publication:

Enhancing the fire-resistant performance of concrete-filled steel tube columns with steel fiber-reinforced concrete  July 2024

Performance investigation of a direct-cooled refrigerator with CuO-R600a as a nanorefrigerant  June 2024

Synergistic effects of nano-enhanced waste transformer oil and hydrogen premixing on CI engine performance and emissions  February 2024

The impact of 180° return bend inclination on pressure drop characteristics and phase distribution during oil-water flow  January 2024

Development and performance evaluation of (Sm1-xNdx)0.2O2-δ electrolyte for low-temperature solid oxide fuel cell application  December 2023

 

Shahzadi Noreen | Ferrites | Best Researcher Award

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Dr. Shahzadi Noreen | Ferrites | Best Researcher Award

Khwaja Fareed University of Engineering and Information Technology | Pakistan

 

Author Profile:

Scopus

Early Academic Pursuits:

Shahzadi Noreen embarked on her academic journey with a passion for Physics. Her early academic pursuits include a Master's degree (M.Sc.) in Physics, where she engaged in a project under the supervision of Assistant Professor Dr. Rao Afzal. The project focused on the crucial theme of "Diagnosing and Treatment of Lungs Cancer," demonstrating her early interest in medical physics.

Professional Endeavors:

Currently a Ph.D. student in Physics, Shahzadi Noreen is dedicated to advancing her knowledge and skills in research and problem-solving. While specific professional roles are not detailed, her pursuit of a Ph.D. indicates a commitment to an advanced academic and research career.

Contributions and Research Focus:

During her M.Sc., Shahzadi Noreen delved into the field of medical physics, emphasizing the diagnosis and treatment of lung cancer. This reflects her early involvement in research related to health applications of physics. In her M.Phil. (MS) thesis, supervised by Assistant Professor Dr. Abid Hussain, she conducted a comprehensive study on "Physical Properties of Co0.5Mn0.5Fe2-xAlx (x= 0.0, 0.1, 0.2, 0.3, 0.4, 0.5) Spinel Ferrites Nanoparticles obtained by Sol-Gel Auto Combustion Method." This demonstrates her engagement in materials science and nanotechnology, showcasing a multidisciplinary approach to physics research.

Accolades and Recognition:

Specific accolades and recognition are not provided, but the completion of M.Sc. and progression to a Ph.D. program are noteworthy accomplishments. These achievements indicate a level of academic excellence and a commitment to the pursuit of knowledge in physics.

Impact and Influence:

While the specific impact and influence are not detailed, Shahzadi Noreen's choice of research topics, especially in medical physics and materials science, suggests an interest in contributing to areas with real-world applications. Her research may potentially impact the fields of healthcare and materials technology.

Legacy and Future Contributions:

Shahzadi Noreen's legacy is still in the making as she continues her academic journey. As a Ph.D. student, her future contributions are anticipated to include advancements in physics research, particularly in areas she is passionate about, such as medical physics and materials science. Her dedication to problem-solving and research is likely to leave a positive impact on her field.

Notable Publication:

Structural, mechanical, electronic and optical properties of MFe2O4(M=Zn, Cu, Si) ferrites for electrochemical, photocatalytic and optoelectronic applications  February 2024

A DFT study of the structural, magnetic, electronic, mechanical and optical properties of M0.75Cu0.25Fe2O4 (M = Co, Ni, Mg, Mn) ferrites: Optoelectronic applications  December 2023

Structural, optical, morphological and magnetic properties of Cu0.25M0.75Fe2O4 (M=Mn, Mg, Ni and co) ferrites for optoelectronic applications  May 2023

Structural, electronic, optical and mechanical properties of oxide-based perovskite ABO3 (A = Cu, Nd and B = Sn, Sc): A DFT study January 2023

Structural, mechanical, thermodynamic, electronic, magnetic and optical properties of ZnFe2O4 ferrite: A DFT study  November 2022

 

 

Dr. ANINDITA SAMANTA | Solid State Physics | Young Scientist Award

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Dr. ANINDITA SAMANTA | Solid State Physics | Young Scientist Award

Midnapore Madania Girls High Madrasah | India

 

Author Profile

Scopus

Early Academic Pursuits

Anindita Samanta's academic journey began with distinction, graduating with honors in Physics from Vidyasagar University in 2007. She continued her pursuit of knowledge by obtaining a Master's degree in Physics in 2009, showcasing her early commitment to the field.

Professional Endeavors

Anindita's professional endeavors demonstrate a passion for both learning and teaching. Starting as a Guest Lecturer at the Department of Physics, Kharagpur College, she contributed to academic discourse from August 2009 to August 2010. Following this, she took on the role of an Assistant Teacher at Midnapore Madania Girls' High Madrasah in August 2010, where her dedication to education has endured.

Contributions and Research Focus

Anindita's research focus centers on the synthesis of II-VI binary nanocomposites, employing techniques such as soft chemical routes, solvothermal methods, and sol-gel routes. Her work involves investigating the structural, optical, electrical, magnetic, and multiferroic properties of these nanocomposites, with a keen interest in their potential technological applications. She has also delved into the development of doped Zinc Oxide nanocomposites, emphasizing their applications in optoelectronics and multiferroics. Moreover, her exploration of modified ZnO and BiFeO3 for environmental and device applications adds depth to her contributions.

Accolades and Recognition

While specific accolades and recognition details are not provided, Anindita Samanta's educational achievements and research focus suggest a notable dedication to her field.

Impact and Influence

Anindita's impact is likely evident in her teaching role at Midnapore Madania Girls' High Madrasah, where she contributes to shaping the academic landscape for her students. Her research in nanocomposites may influence the scientific community by advancing understanding and applications in the field.

Legacy and Future Contributions

Anindita Samanta's legacy is marked by her academic achievements, teaching experience, and impactful research in nanocomposites. As she continues her career, her dedication to education and research positions her for future contributions, potentially influencing advancements in optoelectronics, multiferroics, and environmental applications.

For more specific details, such as accolades and recognitions, it is recommended to refer to her professional profiles, academic publications, or official documentation.

Notable Publication

Fe-doped ZnO nanoparticles as novel photonic and multiferroic semiconductor   2020 (29)

Multiferroicity in Mg-doped ZnO nanoparticles   2019 (11)

 

Farooq Ahmad | Material Physics | Young Scientist Award

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Farooq Ahmad | Young Scientist Award - Award Winner 2023🏆

Farooq Ahmad | Material Physics

Congratulations, Farooq Ahmad, on the well-deserved honor of receiving the Young Scientist Award at the Institute of Molecular Physics, Polish Academy of Sciences, Poznan, Poland! Your dedication to groundbreaking research and your exceptional contributions to the field have set you apart as a rising star in the scientific community. This prestigious award not only recognizes your outstanding achievements but also highlights the promising trajectory of your scientific career.

Your commitment to advancing knowledge in molecular physics reflects not only your personal excellence but also contributes significantly to the reputation of our esteemed institution. As you stand at the forefront of scientific innovation, we take immense pride in your accomplishments and eagerly anticipate the continued impact of your work. Congratulations once again, Farooq Ahmad, for this remarkable achievement – a testament to your passion, intellect, and the promising future you bring to the world of science.

Early Academic Pursuits:

I embarked on my academic journey with a Bachelor's degree in Physics from Bahauddin Zakariya University Multan, Pakistan. This foundational period laid the groundwork for my passion for research and exploration in the field of physics.

Professional Endeavors:

Following my bachelor's degree, I took on the role of a Physics Lecturer at Superior College Multan from 2019 to 2020. During this time, I aimed to instill scientific attitudes and appreciation among secondary school students while identifying their scientific interests and fostering career development.

Simultaneously, I gained hands-on experience in various laboratories, delving into Spectroscopy and Modern Physics, Analog Electronics, Digital Electronics, Experimental Physics, Multiferroics Testing Lab, Thin Film Technology Lab, Chemical Lab, and Nano-Technology Lab. These experiences equipped me with a diverse set of skills and techniques, including Sol-gel, Hydrothermal, Solid-state, Modified Hummers method, and Co-precipitation techniques.

Contributions and Research Focus:

In pursuit of academic excellence, I pursued a Master of Philosophy in Solid-State Physics at The University of the Punjab Lahore, Pakistan, from 2020 to 2022. My research culminated in a thesis titled "Utilization of Sr2Ni2O5/rGO composites as electrode material in supercapacitor," earning me a commendable grade of 3.6/4.00.

Furthermore, I've actively contributed to the scientific community through publications in reputable journals, exploring topics such as supercapacitors, graphene-based electrode materials, electromagnetic interference shielding, and advancements in supercapacitor electrodes through MOF.

Notable publication:

1. Advances in graphene-based electrode materials for high-performance supercapacitors: a review

2. Performance optimization of Nd-doped LaNiO3 as an electrode material in supercapacitors

3. Exploring new frontiers in supercapacitor electrodes through MOF advancements

4. Synthesis of M-type hexaferrite reinforced graphene oxide composites for electromagnetic interference shielding

Accolades and Recognition:

My dedication to academic excellence and research has been recognized through various honors and awards, including the PM Laptop Scheme, College Scholarship, and CM Solar Panel Scheme. These acknowledgments reflect my commitment to maintaining high academic standards.

I've also had the privilege of participating in conferences, workshops, and seminars, such as the 5th National Symposium on Laser Matter Interaction, International Conference on Applied Physics & Engineering, and International Workshop on Nanomaterials for Energy Conversion, among others.

Impact and Influence:

My research interests encompass a wide array of topics, including Composites Materials, Graphene Oxide Composite, Nanomaterials, Transition Metal Oxide, Li-ion batteries, and Electrode materials. These areas showcase my commitment to pushing the boundaries of knowledge and contributing to advancements in the field.

Legacy and Future Contributions:

My journey so far has been marked by continuous learning, hands-on experience, and a passion for research. As I move forward, I am eager to leverage my skills and expertise in XRD, SEM, Electrochemical workstation, TGA/DSC, and EDX to make meaningful contributions to the world of physics. I am open to collaborations and opportunities that align with my research interests, seeking to leave a lasting impact on the scientific community.

Profile Link:

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