Arun Kumar Ammasi | Civil Engineering | Best Researcher Award

Dr.Arun Kumar Ammasi | Civil Engineering | Best Researcher Award

Dr.Arun Kumar Ammasi, Vellore Institute of Technology, Chennai, India

Dr. Arun Kumar Ammasi is a dedicated researcher and educator with a robust background in civil engineering. His research focuses on innovative applications of concrete materials, including the incorporation of plastic, rubber, and electronic wastes into concrete production. His work extends to using treated sewage sludge in manufacturing bricks, pavement, and solid blocks, contributing to sustainable construction practices. Dr. Ammasi explores Engineered Cementitious Composites (ECC) and Smart Dynamic Concrete (SDC) for enhanced structural performance. Additionally, his expertise encompasses the utilization of coal combustion products and the development of engineered geo-polymeric cementitious composites. In teaching, he emphasizes advanced concrete technology, construction materials, structural analysis, and more. Dr. Ammasi employs a dynamic teaching methodology, incorporating Project-Based Learning (PBL) and Research-Based Learning (RBL) to engage students effectively. He adopts a flipped classroom pedagogy, integrates contemporary assignments, and emphasizes continuous assessment for comprehensive learning. As the Head of the Department for Civil and Structural Engineering at VIT Chennai Campus, Dr. Ammasi also excels in administrative roles, demonstrating leadership and commitment to academic excellence. πŸ—οΈπŸ”¬πŸ“š

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Education:

Dr. Arun Kumar Ammasi’s academic journey reflects a profound commitment to excellence in civil engineering. He completed his Doctor of Philosophy, focusing on the effects of fly ash on concrete properties, through an integrated Ph.D. program at VIT University from 2009 to 2015. πŸ—οΈ His undergraduate studies were equally impressive, earning a Doctor of Philosophy (Ph.D.) Integrated degree with a remarkable 8 CGPA from Vellore Institute of Technology. πŸ“š Dr. Ammasi’s foundation in civil engineering began with a B.Tech. degree from Sona College of Technology, Anna University, Chennai, where he achieved an outstanding overall percentage of 81%. πŸŽ“ His academic prowess extends to his secondary education, showcasing exceptional performance in physics, chemistry, mathematics, and biology. 🏫

Research Experience:

During his tenure as a Research Assistant at VIT University from 2009 to 2014, Dr. Arun Kumar Ammasi delved into innovative studies in green concrete 🌱. His research encompassed experimental investigations, evaluating the viability of substituting traditional components with coal ashes. Through meticulous analysis, he assessed concrete strength, durability, and cost-effectiveness, contributing significantly to sustainable construction practices. Dr. Ammasi’s expertise extended to developing predictive models for drying shrinkage in green concrete over a decade, enhancing long-term performance. Additionally, he pioneered the manufacture of artificial cold-bonded fly ash aggregates, a breakthrough in designing high-strength green concrete structures. πŸ§ͺπŸ”¬

Teaching Experience:

As an Associate Professor at VIT University Chennai Campus since July 2014, Dr. Arun Kumar Ammasi has demonstrated a passion for imparting knowledge in civil engineering disciplines 🏫. His extensive teaching portfolio includes courses for both B.Tech. Civil Engineering and M.Tech. Structural Engineering programs. Dr. Ammasi’s expertise encompasses a wide array of subjects such as Advanced Concrete Technology, Structural Analysis, and Finite Element Analysis, among others. πŸ“š Additionally, his role as a Teaching Assistant from 2010 to June 2014 involved conducting laboratory classes, where he facilitated hands-on learning experiences in RCC, limit state design of steel and concrete, and finite element analysis using Auto CAD, Staad Pro, and FORTRAN. πŸ–₯️🧱

Awards:

Dr. Arun Kumar Ammasi’s contributions to the field of civil engineering have been recognized through several prestigious awards πŸ†. Notably, he received the Best Paper Award at the IEEE conference held at EGS Pillay Engineering College, Nagapattinam, in March 2013, affirming the quality and significance of his research. Furthermore, Dr. Ammasi has been honored with Research Publication Awards for his publications in international peer-reviewed journals, spanning the years 2012, 2013, 2015, 2016, and 2017. These accolades underscore his dedication to producing impactful scholarly work and advancing knowledge in his field. πŸ“πŸŒ

Β Research Focus :

Dr. Arun Kumar Ammasi’s research focus primarily lies in sustainable construction materials and innovative applications in civil engineering 🌱. He has made significant contributions to the utilization of industrial by-products such as fly ash and sewage sludge in concrete production, emphasizing the enhancement of strength and durability while promoting environmental sustainability. Additionally, Dr. Ammasi’s work extends to eco-efficiency evaluations of self-compacting concrete using unconventional materials like magnesite mine waste, further highlighting his commitment to advancing eco-friendly construction practices. Through his interdisciplinary research efforts, he continually seeks to address contemporary challenges in the construction industry, paving the way for more sustainable and resilient infrastructure solutions. πŸ—οΈπŸ”¬

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Hongje Jang | Engineering | Best Researcher Award

Dr. HongjeJang | Engineering | Best Researcher Award

Dr. HongjeJang, University of California, San Diego/Bioengineering Department, United States

πŸ”¬ Dr. Hongje Jang is a visionary researcher specializing in super-resolution multi-dimensional chemical imaging and analysis methods for biological samples. Holding a Ph.D. in Physics from Gerog-August-UniversitΓ€t GΓΆttingen, Dr. Jang’s expertise spans microscopy image analysis, biomolecule reaction dynamics, and instrumentation development. As a PostDoc at UC San Diego, under Prof. Lingyan Shi’s guidance, he has pioneered advancements in super-resolution stimulated Raman scattering (SRS) microscopy, pushing the boundaries of spatial resolution. With a diverse educational background and extensive skills in optics, programming, and chemistry, Dr. Jang is a trailblazer in advancing our understanding of complex biological systems.

Publication Profile:

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Education:

πŸŽ“ Driven by a passion for unraveling the mysteries of biological systems, Dr. Hongje Jang boasts an impressive academic journey. After completing a B.A. in Chemistry at Yonsei University, South Korea, in 2009, he pursued an Integrated Master and Doctorate Course, achieving a remarkable GPA of 94.6/100. His academic pursuit culminated in a Ph.D. in Physics from Gerog-August-UniversitΓ€t GΓΆttingen in 2021, where his thesis, “Fast, Three-Dimensional Fluorescence Imaging of Living Cells,” showcased groundbreaking work. Currently undertaking PostDoc training at UC San Diego’s Bioengineering Department under the guidance of Prof. Lingyan Shi, Dr. Hongje Jang continues to contribute significantly to the field.

Skills & Knowledge:

πŸ”¬ Dr. Hongje Jang is a versatile scientist with a rich skill set spanning Optics, Imaging & Spectroscopy, Programming, Chemistry, Instrumentation, and Biology. With expertise in techniques like Stimulated Raman Scattering, Second Harmonic Generation, and Multi-photon fluorescence imaging, he brings over 8 years of proficiency in high-resolution AFM and TIRFM imaging. Dr. Jang excels in programming languages like Python (TensorFlow), Matlab, and LabView, utilizing them for image deconvolution, analysis, and instrumentation. His competence extends to Ab-Initio molecular simulation for Raman and IR spectroscopy, coupled with a deep understanding of standard optical-based microscopy techniques. Proficient in cell culture and cardiomyocyte handling, Dr. Jang’s interdisciplinary skills drive innovation in bioimaging.

Research Focus :

πŸ”¬ Dr. Hongje Jang’s research focus encompasses cutting-edge developments in bioimaging and spectroscopy. Specializing in super-resolution stimulated Raman scattering (SRS) microscopy, his work delves into advanced imaging methods such as A-PoD (deconvolution) and multi-molecular hyperspectral PRM-SRS. Dr. Jang’s studies unveil the intricacies of biological systems, including lipid metabolic dynamics in aging Drosophila brains and the spatially correlated metabolism in aging and diseases. His expertise extends to ultrafast nonlinear multimodal metabolic imaging, adding depth to the understanding of metabolic activities. With a diverse portfolio, Dr. Jang contributes significantly to the fields of biophysics and materials research.

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