Sridhar Palla | Molecular Modeling | Young Scientist Award

Assist Prof Dr. Sridhar Palla | Molecular Modeling | Young Scientist Award

Indian Institute Of Petroleum And Energy | India

AUTHOR PROFILE

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EARLY ACADEMIC PURSUITS

Sridhar Palla embarked on his academic journey with a Bachelor's degree in Chemical Engineering from Andhra University College of Engineering, Visakhapatnam, India. His passion for exploring the intricacies of chemical processes led him to pursue advanced studies, culminating in a Master's and Ph.D. in Chemical Engineering from the prestigious Indian Institute of Technology Madras. During his doctoral tenure, he delved deep into his research, focusing on "Multiscale Modeling of Adsorption Hydrogen Storage in Metal-Organic Frameworks," showcasing his early prowess in Molecular Modeling.

PROFESSIONAL ENDEAVORS

Sridhar's professional journey has been marked by significant contributions and diverse experiences. Following the completion of his Ph.D., he ventured into the realm of academia as a Post-Doctoral Research Associate at the University of Liverpool, UK. Here, he immersed himself in Data-driven Modeling and High Throughput Screening of metal-organic frameworks for gas separation. Subsequently, he continued his academic pursuits as a Post-Doctoral Equivalent Fellow at IIT Madras, where he investigated the thermodynamics of combined CO2 reduction with ethane oxidative dehydrogenation by Mo2C catalyst.

CONTRIBUTIONS AND RESEARCH FOCUS

With expertise in Molecular Modeling, Ab initio/Quantum calculations, and Artificial Intelligence, Sridhar has made significant contributions to the field of Chemical Engineering. His research interests primarily revolve around Data-driven Modeling and High Throughput Screening, employing techniques such as Machine Learning, Density Functional Theory (DFT), Molecular Dynamics (MD), and Grand Canonical Monte Carlo (GCMC). His proficiency in utilizing tools like Python, MATLAB, and various simulation software underscores his commitment to advancing research in the field.

IMPACT AND INFLUENCE

Sridhar's work has had a tangible impact on both academia and industry. His ongoing project on "Experimental and theoretical investigation of metal-organic framework (MOF) adsorbents for post-combustion carbon capture," funded by the Institute Research Grant (IRG), exemplifies his dedication to addressing pressing environmental challenges. Moreover, his consultancy role with GITAA Pvt Ltd for Data Science-related problems underscores his ability to bridge the gap between theoretical research and practical applications.

ACADEMIC CITATIONS

Sridhar's scholarly contributions have garnered recognition, evident from his numerous guest lectures and invited talks at prestigious institutions and industry forums. His expertise in areas such as "Carbon capture and separation from flue gases" and "Hydrogen generation and storage" has been sought after by organizations like RINL, HPCL, and General Electric, reflecting the scholarly impact of his research.

LEGACY AND FUTURE CONTRIBUTIONS

Sridhar's legacy lies in his commitment to pushing the boundaries of Molecular Modeling and its applications in addressing critical societal and industrial challenges. As the co-convenor for the 1st International Conference on Trends in Chemical Energy and Environmental Engineering (ChemEEE-2024), he continues to foster collaboration and knowledge exchange in the academic community. His future contributions are poised to further elevate the field of Chemical Engineering, leaving a lasting imprint on research, education, and industry practices.

MOLECULAR MODELING

Molecular modeling stands as a cornerstone of Dr. Palla's research, manifesting in his expertise in employing techniques such as Density Functional Theory (DFT), Molecular Dynamics (MD), and Grand Canonical Monte Carlo (GCMC) for understanding and predicting the behavior of materials at the molecular level. Through his proficiency in molecular modeling, Dr. Palla has significantly contributed to advancements in gas separation, adsorption, and catalysis, facilitating the development of innovative solutions for sustainable energy and environmental technologies.

NOTABLE PUBLICATION

Synergistic effects and product yields in microwave-assisted in-situ co-pyrolysis of rice straw and paraffin wax

Year: 2024   Citation: 1

A two-step hybrid multi-criteria approach to analyze the significance of parameters affecting microwave-assisted pyrolysis

Year: 2023   Citation: 5

Xuan Peng  | Molecular Simulation | Best Researcher Award

Nanoworld Discovery Studio | United States

Author Profile:

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Early Academic Pursuits:

Dr. Xuan Peng's academic journey is rooted in a deep passion for chemical engineering, marked by academic excellence and a commitment to pushing the boundaries of scientific knowledge. He earned his Bachelor's degree in Chemical Engineering from Xiangtan University in 1997, followed by a Master's degree from Beijing Institute of Chemical Fiber in 2001. Driven by an insatiable curiosity and a thirst for advanced knowledge, he pursued a Ph.D. in Chemical Engineering at Beijing University of Chemical Technology, completing his doctoral studies in 2005.

Professional Endeavors:

Dr. Xuan Peng's professional journey is a testament to his leadership and expertise in the field of chemical engineering. He commenced his career as an Assistant Professor at Beijing University of Chemical Technology in 2006, where he quickly became known for his innovative research and teaching methodologies. His contributions were recognized with the Outstanding Poster Award at the National Chemical Engineering Doctoral Forum in 2005, setting the stage for a career marked by accolades and achievements.

Research Focus Molecular Simulation and Contributions:

Dr. Xuan Peng's research interests span a diverse range of topics, showcasing his versatility as a scientist. His expertise includes molecular simulation, CO2 capture, gas adsorption/separation, chemical process modeling, and the synthesis of nanomaterials. His impactful contributions are evident in several research projects, such as the computational and experimental study of the water gas shift reaction and separation for carbon dioxide capture.

Accolades and Recognition:

Dr. Peng's exceptional contributions have been recognized with prestigious awards and honors. The Second Prize of Scientific and Technical Award from the Ministry of Education, China, in 2007, and the Second Prize of the Teaching Basic Skills Competition of Young Teachers at Beijing University of Chemical Technology in 2009, underscore his significant impact on both research and education.

Impact and Influence:

Dr. Xuan Peng's influence extends beyond the laboratory and classrooms. His research, characterized by a blend of computational modeling and experimental validation, has contributed to advancements in carbon materials, gas adsorption, and separation technologies. His work has not only expanded the theoretical understanding of these processes but has also laid the groundwork for practical applications with environmental implications.

Legacy and Future Contributions:

As a pioneer in molecular simulation and nanomaterials research, Dr. Xuan Peng's legacy is marked by a commitment to excellence, innovation, and a holistic approach to chemical engineering challenges. His leadership at Nanoworld Discovery Studio positions him at the forefront of groundbreaking research, and his contributions are expected to leave a lasting impact on the field.

In the coming years, Dr. Peng's influence is likely to grow, with anticipated contributions to emerging areas in chemical engineering and nanotechnology. His multidisciplinary approach and dedication to advancing scientific knowledge promise a future marked by continued success and meaningful contributions to the global scientific community.