Mr. Muhammad Aoun Abbas | Nanoscale Awards | Best Researcher Award

Mr. Muhammad Aoun Abbas | Nanoscale Awards | Best Researcher Award

Mr. Muhammad Aoun Abbas , Sejong University , South Korea

Muhammad Aoun Abbas, a Pakistani researcher currently pursuing a combined Master’s and Ph.D. at Sejong University in Seoul, South Korea, specializes in nanotechnology and advanced materials engineering. His research focuses on titanium-based alloys and high-entropy alloys, contributing to significant advancements in the field. Abbas has published several notable papers in journals such as the Journal of Alloys and Compounds and Intermetallics. He actively participates in international conferences and seminars related to materials science. In addition to his academic work, he is involved in volunteering with the Korea Islamic Culture Exchange Association, supporting blood donation drives and social initiatives.

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Suitability of Muhammad Aoun Abbas for Best Researcher Award:

Summary of Suitability:

Muhammad Aoun Abbas is an outstanding candidate for the Best Researcher Award due to his significant contributions to the field of nanotechnology and advanced materials engineering. Currently pursuing a combined Masterā€™s and Ph.D. at Sejong University, Abbas specializes in titanium-based alloys and high-entropy alloys, which are critical areas of research with substantial implications for material science.

šŸŽ“Education:

Muhammad Aoun Abbas is currently pursuing a combined Masterā€™s and Ph.D. in Nanotechnology and Advanced Materials Engineering at Sejong University in Seoul, South Korea, starting from March 2020. This advanced program reflects his commitment to specializing in cutting-edge materials science, focusing on innovations in nanotechnology and advanced materials.

šŸ¢Work Experience:

Since March 2020, Muhammad Aoun Abbas has been working as a University Research Assistant at Sejong University in the Department of Nanotechnology and Advanced Materials Engineering. His research focuses on titanium-based alloys and high-entropy alloys, contributing to advancements in these specialized fields.

Publication Top Notes:

  1. Nano-scale structural evolution of quaternary AlCrFeNi based high entropy alloys by the addition of specific minor elements and its effect on mechanical characteristics
    Cited by: 42
  2. Evolution of microstructure and mechanical characteristics of (CrFeNiCu)100ā€“xTix high-entropy alloys
    Cited by: 6
  3. Evolution of microstructure and mechanical properties of a Ti80 (CoFeNi) 20 ultrafine eutectic composite during thermal processing
  4. Large enhancement of yield strength in Ti80Cr20āˆ’x (CoFeNi)x alloys by modulating phase stability and introducing ultrafine eutectic structure
  5. Microstructural Evolution of Quaternary AlCoCrNi High-Entropy Alloys during Heat Treatment

 

 

 

Mr. Vinod Vanarse | Nano Fluidic Awards |

Mr. Vinod Vanarse | Nano Fluidic Awards | Best Researcher Award

Mr. Vinod Vanarse , Indian Institute of Technology Guwahati , India

Vinod B. Vanarse is a dedicated Ph.D. candidate in Chemical Engineering at the Indian Institute of Technology, Guwahati, specializing in field-induced interfacial instabilities in open-confined Āµ-systems. He holds an M.Tech in Chemical Engineering from NIT Durgapur and a B.E. in Chemical Engineering from JNEC, Aurangabad. With significant industry experience, Vinod has worked as a Senior Executive in the Crop Protection Division at ATUL Ltd. and as a Jr. Executive in the Solvent Recovery Division at Hospira Healthcare Pvt. Ltd. His research contributions include several high-impact publications and presentations at international conferences. Proficient in various programming and simulation software, Vinod also has extensive experience with analytical instruments. He has been a Teaching Assistant for multiple courses, demonstrating his commitment to both research and education in the field of chemical engineering.

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Summary of Suitability for the Research for Best Researcher Award

  • Innovative Research: Vinod is actively pursuing a Ph.D. in Chemical Engineering at IIT Guwahati, focusing on “Field-Induced Interfacial Instabilities in Open-Confined Āµ-Systems,” showcasing his ability to tackle complex, cutting-edge problems.
  • Significant Publications: His work has been published in high-impact journals such as Physics of Fluids, Industrial & Engineering Chemistry Research, and Processes. Notable papers include investigations into instability modes at solvent/non-solvent interfaces and electroosmotic micromixing in patterned microchannels.
  • Conference Presentations: Vanarse has presented his research at prestigious conferences including the BIFD-2024 in Scotland and the Indo-German Workshop-2024. His work on microdroplet sensors and mesoscopic structures in porous media underscores his research’s impact and relevance.

šŸŽ“Education:

Vinod B. Vanarse is currently pursuing a Ph.D. in Chemical Engineering at the Indian Institute of Technology, Guwahati, where he focuses on “Field-Induced Interfacial Instabilities in Open-Confined Āµ-Systems” under the guidance of Prof. Dipankar Bandyopadhyay and Prof. T. K. Mandal. He holds an M.Tech in Chemical Engineering from NIT Durgapur, achieved with a CGPA of 8.63. His foundational education includes a B.E. in Chemical Engineering from JNEC, Aurangabad, with a percentage of 67%. Vinod completed his Higher Secondary Certificate (HSC) with 66.0% from the HSC Board, Pune, and his Secondary School Certificate (SSC) with 79.60% from the SSC Board, Pune.

šŸ¢Work Experience:

Vinod B. Vanarse worked as a Senior Executive in the Production (Crop Protection) Division at ATUL Ltd. in Valsad, Gujarat, from January 2015 to December 2016. In this role, he served as the Technical Team Lead for Product Formulation and managed the Legal Advisory Committee. Prior to this, he was a Jr. Executive in the Production (Solvent Recovery (SRP)) Division at Hospira Healthcare Pvt. Ltd. in Aurangabad, Maharashtra, from August 2012 to December 2014. His responsibilities there included overseeing distillation operations, acting as Shift-Incharge, and leading the Safety Team.

Publication Top Notes:

  • Coupled instability modes at a solvent/non-solvent interface to decorate cellulose acetate flowers

    Cited by: 2

  • Electroosmotic Micromixing in Physicochemically Patterned Microchannels

    Cited by: 1

  • Controlled Microā€“Nano-Scale Droplet Generation via Spin Dewetting
  • Forming flower-like fingers with fluid instabilities
  • Microdroplet sensor for point-of-care-testing of glycemic index using gold-amylase nanocomposite

 

 

 

Dr. Gyungtae Kim | Nanoscale Awards | Excellence in Research

Dr. Gyungtae Kim | Nanoscale Awards | Excellence in Research

Dr. Gyungtae Kim ,National nanofab center , South Korea

Gyungtae Kim is a principal researcher at the National Nanofab Center in the Department of Measurement & Analysis, specializing in nanoscale characterization and surface analysis. Born on July 17, 1977, in South Korea, he earned his Ph.D. in Electronics, Radio Sciences & Engineering and Information Communications from Chungnam National University in February 2016. He has extensive experience in the semiconductor industry, having worked as a senior engineer at SK Hynix from 2004 to 2011 before joining the National Nanofab Center. Over his 13-year research career, he has contributed significantly to the field of semiconductor metrology, with key expertise in surface and X-ray analysis. His research has resulted in numerous publications in high-impact journals and involvement in several high-profile projects. Gyungtae is also an active member of several academic committees and has presented his work at major international conferences.

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Suitability for Excellence in Research Award: Gyungtae Kim

Gyungtae Kim is a highly qualified researcher with extensive experience in the field of nanoscale characterization. His educational background, professional experience, and significant contributions to research and development make him a strong candidate for the Excellence in Research Award.

šŸŽ“Education:

Gyungtae Kim holds a Ph.D. in Electronics, Radio Sciences & Engineering and Information Communications from Chungnam National University, completed in February 2016. His doctoral thesis, titled “Reliable Electro-Thermal Modeling and Characterization for Highly Uniform Amorphous-Silicon Microbolometer,” was supervised by Prof. Hyoungho Ko. Prior to his Ph.D., he earned a Masterā€™s degree in the same field from Chungnam National University in February 2014. He also holds a Bachelorā€™s degree in Electronics Engineering from Inha University, which he completed in February 2004.

šŸ¢Work Experience:

Gyungtae Kim is a Principal Researcher in the Department of Measurement & Analysis at the National Nanofab Center, a position he has held since 2016. His key experiences in this role include surface analysis, X-ray analysis, and semiconductor metrology. Prior to this, he served as a Senior Researcher in the Semiconductor Device Department at the same institution from 2011 to 2016. Before joining the National Nanofab Center, Gyungtae worked as a Senior Engineer at SK Hynix from 2004 to 2011, where he gained substantial industry experience.

šŸ…Conferences and Presentations:

Gyungtae has presented his work at major international conferences such as the European Conference on X-ray Spectrometry (EXRS) and the Korean Physical Society (KPS) Fall Meeting, among others. His contributions to these conferences have focused on advancements in semiconductor metrology and surface analysis techniques

 

Publication Top Notes:

  • Nano-mapping of vertical contact electrodes using synchrotron scanning photoelectron microscopy
  • Effect of Bias Potential on the Interface of a Solid Electrolyte and Electrode during XPS Depth Profiling Analysis
  • Stabilizing a lithium metal anode through the sustainable release of a multi-functional AgNO3 additive
  • Controlled adsorption of gas molecules by tuning porosity of titanium film
  • Contact holes in vertical electrode structures analyzed by voltage contrast-SEM and conducting AFM

    Cited by: 2

 

Prof. Altaf Hussain Rajpar | Nanoscale Awards | Best Researcher Award

Prof. Altaf Hussain Rajpar | Nanoscale Awards | Best Researcher Award

Prof. Altaf Hussain Rajpar , Jouf University , Saudi Arabia

Altaf Hussain Rajpar is a distinguished professor specializing in Mechanical Engineering and Mechatronics. With a PhD earned in March 2008, he currently holds the esteemed position of Professor at Al-Jouf University in Sakaka, K.S.A. His expertise spans various domains within Mechanical Engineering, contributing significantly to research and academia. Apart from his professional commitments, he actively engages in scholarly pursuits, evident from his noteworthy publication record and scholarly indices. With a passion for education and research, Altaf Hussain Rajpar continues to inspire and mentor aspiring engineers and researchers globally.

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šŸ“š Specialization:

Altaf Hussain Rajpar, a Professor at Al-Jouf University in Sakaka, K.S.A., specializes in Mechanical Engineering with a focus on Mechatronics. His expertise in this interdisciplinary field, which combines mechanical engineering, electronics, computer science, and control engineering, underscores his comprehensive approach to modern engineering challenges. With a PhD earned in March 2008, Professor Rajpar integrates advanced mechatronic principles into his teaching and research, contributing significantly to advancements in mechanical engineering. His work emphasizes the design, analysis, and application of intelligent systems and automation, reflecting his deep commitment to innovation and academic excellence.

šŸ‘Øā€šŸ« Current Position:

Altaf Hussain Rajpar, a distinguished Pakistani national born on January 1, 1969, in Khairpur Mirā€™s, Sindh, Pakistan, currently serves as a Professor of Mechanical Engineering specializing in Mechatronics at Al-Jouf University in Sakaka, K.S.A. He holds a PhD, earned in March 2008, and has a rich academic and research background

Publication Top Notes:

  1. Fundamental concepts of hydrogels: Synthesis, properties, and their applications”
    Published in Polymers, 2020
    cited by 452 articles.
  2. “Performance analysis of a savonius vertical axis wind turbine integrated with wind accelerating and guiding rotor house”
    Published in Renewable Energy, 2019
    cited by 452 articles.
  3. “Hydrothermally assisted synthesis of porous polyaniline@ carbon nanotubesā€“manganese dioxide ternary composite for potential application in supercapattery”
    Published in Polymers, 2020,
    cited by 39 articles.
  4. “Recognition of printed Chinese characters by using Neural Network”
    Published in 2006 IEEE International Multitopic Conference, 2006,
    cited by 29 articles.
  5. “Recent development in the design of wind deflectors for vertical axis wind turbine: A review”
    Published in Energies, 2021

cited by 28 articles.