APARNA GAUTAM | Chemical Engineering | Best Researcher Award

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Dr. APARNA GAUTAM | Chemical Engineering | Best Researcher Award

MNNIT Allahabad, Prayagraj- India

Author Profile

🌱 Early Academic Pursuits

Dr. Aparna Gautam’s academic journey began with a strong inclination toward science and sustainability. From an early stage, she demonstrated a passion for understanding complex chemical systems and their application in real-world environmental challenges. Her intellectual curiosity led her to pursue a Bachelor’s degree in Chemical Engineering, which laid a solid foundation in core subjects like reaction engineering, thermodynamics, and process design.

Continuing her quest for deeper understanding, she went on to earn her M.Tech in Chemical Engineering, where she began exploring alternative fuels and clean energy technologies. During this phase, she became particularly interested in biodiesel production 🛢️ as a viable replacement for fossil fuels. Her master’s thesis was an important stepping stone that transitioned seamlessly into her doctoral research at the prestigious Motilal Nehru National Institute of Technology (MNNIT) Allahabad, where she was accepted as a Research Scholar.

🔬 Professional Endeavors

During her doctoral tenure at MNNIT Allahabad, Prayagraj, Dr. Gautam delved into cutting-edge areas like nanophotocatalysts ⚛️ and process intensification 🔬. Her research centered around synthesizing novel nano-based photocatalysts for the production of biodiesel 🛢️ using waste cooking oil—a perfect blend of waste valorization ♻️ and environmental sustainability 🌎. Her hands-on approach in lab-scale process design allowed her to experiment with advanced technologies including microwave, ultrasound, and UV irradiation.

Not just confined to theoretical understanding, she actively participated in national conferences, where she presented her findings and interacted with scholars and industry experts. She has been an advocate of green chemistry, aligning her work with global goals of sustainable development and clean energy transitions.

Currently, Dr. Gautam is exploring post-doctoral or professional opportunities where she can contribute her expertise in renewable energy ☀️, catalysis, or environmental engineering, emphasizing her commitment to a sustainable future.

⚗️ Contributions and Research Focus

One of the most noteworthy contributions of Dr. Aparna Gautam is the development of an ionic liquid-based nano-photocatalyst supported on titania ⚛️. This innovative catalyst not only increased the efficiency of biodiesel production 🛢️ but also did so through a method that is both eco-friendly and economically viable. She successfully demonstrated that the synergistic effect of microwave, ultrasound, and UV irradiation 🔬 could accelerate reaction rates and enhance yields, a milestone in process intensification 🔬.

Her work also included comprehensive kinetic and thermodynamic modeling, offering rare insights into the transesterification process at the molecular level. By utilizing waste cooking oil, her research provided a feasible pathway for waste valorization ♻️, converting potential environmental hazards into green fuel 🌿.

Moreover, her process adhered strictly to the principles of green catalysis 🌿, further underscoring her contribution to environmental sustainability 🌎.

🏆 Accolades and Recognition

While her accolades are still accumulating, Dr. Gautam’s work has received commendation at various academic forums and technical symposia. Her posters and oral presentations have often been recognized for both scientific innovation and clarity of communication. Her dedication, precision, and persistence have made her a respected figure among her peers and mentors.

She has also been invited to contribute to collaborative research initiatives focusing on renewable energy ☀️, and she is poised to take on greater roles in global sustainability projects.

🌍 Impact and Influence

The impact of Dr. Gautam’s work goes beyond laboratory boundaries. Her approach of integrating waste valorization ♻️, nanophotocatalysts ⚛️, and green catalysis 🌿 presents a holistic solution to multiple environmental issues. In a world grappling with rising fuel demands and escalating climate concerns, her innovative model provides a tangible method of achieving carbon neutrality and energy self-reliance.

Furthermore, her emphasis on low-cost, scalable methods makes her research applicable even in resource-constrained regions, amplifying its global relevance.

🌟 Legacy and Future Contributions

Looking ahead, Dr. Aparna Gautam is determined to continue her mission of enabling a sustainable world through clean energy technologies. Her aspirations include working with interdisciplinary teams on pilot-scale biodiesel plants 🛢️, scaling up her lab innovations into industrial applications.

She also aims to mentor upcoming researchers, encouraging them to explore process intensification 🔬 and green energy solutions 🌿. With her firm academic foundation, innovative thinking, and commitment to environmental sustainability 🌎, Dr. Gautam is poised to leave a lasting legacy in the field of renewable energy ☀️.

Citations

A total of 51 citations for his publications, demonstrating the impact and recognition of his research within the academic community.

  • Citations         51
  • h-index           03
  • i10-index        02

Notable Publications 

  1. Title: Novel ionic liquid-based nano-photocatalyst for microwave-ultrasound intensified biodiesel synthesis
    Authors: A. Gautam, N.S. Chawade, S. Kumar, Z. Ahmad, D.S. Patle
    Journal: Energy Conversion and Management
    Year: 2024.

  1. Title: Optimization, kinetics and thermodynamics of ultrasound assisted and ionic liquid catalyzed in-situ biodiesel synthesis from wet microalgae
    Authors: A. Gautam, A. Pandey, K.R. Balinge, V.B. Khajone, P.R. Bhagat, Z. Ahmad, et al.
    Journal: AIP Conference Proceedings
    Year: 2023.

  1. Title: Optimization and Control of Continuous Biodiesel Production Processes: A Review
    Author: A. Gautam
    Journal: Chemical Engineering and Processing – Process Intensification
    Year: 2025.

  1. Title: Process intensification opportunities in the production of microalgal biofuels
    Authors: A. Gautam, S. Kumar, D.S. Patle
    Book Chapter In: Microalgae-Based Systems: Process Integration and Process Intensification
    Year: 2023.

  1. Title: An Ionic Liquid-Based Nano-Photocatalyst and a Method of Preparation Thereof
    Authors: Aparna Gautam, Dipesh S. Patle, Sushil Kumar
    Patent: Indian Patent No. IN533205
    Year: 2023.

Shaheer Akhtar | Chemical Engineering | Research and Development Pioneer Award

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Prof. M. Shaheer Akhtar | Chemical Engineering | Research and Development Pioneer Award

Jeonbuk National University, India

Author Profile

Early Academic Pursuits 🎓📚

Dr. M. Shaheer Akhtar’s academic journey began with a solid foundation in engineering and science, setting the stage for his impactful career in renewable energy and materials development. His early academic endeavors were characterized by a passion for innovation and sustainable solutions, which eventually led him to pursue advanced research opportunities in South Korea. His involvement as a Postdoctoral Researcher under the prestigious Brain Korea 21 (BK21) program in the School of Semiconductor and Chemical Engineering at Jeonbuk National University from March 2009 to April 2010 provided him with cutting-edge expertise in semiconductor materials and energy systems. This phase of his career marked the beginning of his association with Jeonbuk National University, which would play a pivotal role in shaping his professional journey. 🧪🌍

Professional Endeavors 🏢💼

Dr. Akhtar’s professional career is a testament to his dedication and progressive growth in academia and research. Starting as a Postdoctoral Fellow at Jeonbuk National University in April 2008, he quickly transitioned into a full-time academic role. His steady rise through the ranks reflects his exceptional contributions:

1️⃣ Full-Time Instructor (2010–2012): Dr. Akhtar began as an instructor, sharing his knowledge and fostering a research-oriented environment at the New & Renewable Energy Materials Development Center (NewREC). His teaching and mentorship laid the groundwork for his future accomplishments. 👨‍🏫✨

2️⃣ Assistant Professor (2012–2014): During this period, Dr. Akhtar delved deeper into innovative research projects, focusing on renewable energy materials, advancing his expertise in the domain. 📈🔋

3️⃣ Associate Professor (2014–2021): His role expanded significantly, leading to the establishment of major research initiatives in renewable energy and materials science. Dr. Akhtar’s contributions during these years were instrumental in propelling the NewREC center to international recognition. 🌍🏅

4️⃣ Full Professor (2021–Present): Currently, as a Full Professor, Dr. Akhtar continues to spearhead groundbreaking research projects. His leadership at NewREC has solidified its reputation as a hub for renewable energy innovation. 💡🏛️

Contributions and Research Focus 🔬⚡

Dr. Akhtar’s research spans several transformative areas in renewable energy and material sciences. His work focuses on developing cutting-edge technologies that address global energy challenges. His contributions include:

  • Renewable Energy Materials: Pioneering advancements in the synthesis and characterization of materials for solar cells, batteries, and other renewable energy applications. 🔆🔋
  • Energy Efficiency Innovations: Enhancing the performance and sustainability of energy systems through material optimization and innovative designs. 🌿⚙️
  • Collaborative Research: Establishing partnerships with global institutions to foster interdisciplinary research and drive technological breakthroughs. 🤝🌐

His commitment to these fields has resulted in numerous peer-reviewed publications and patents, cementing his reputation as a thought leader in energy materials.

Accolades and Recognition 🏆🌟

Dr. Akhtar’s exceptional contributions have earned him widespread acclaim in the academic and scientific community. From prestigious research grants to invitations for keynote addresses at international conferences, his work has been celebrated on multiple platforms. Some highlights include:

  • Recognition for advancing renewable energy technologies, earning him accolades from renowned academic and professional bodies. 🏅
  • Consistent publication in high-impact journals, showcasing the global relevance of his research. 📄🌍

Impact and Influence 🌎🔝

The impact of Dr. Akhtar’s work extends far beyond the laboratory. His research has contributed significantly to the development of sustainable energy solutions, influencing policies and practices worldwide. Through his mentorship and leadership, he has inspired countless students and researchers to pursue excellence in renewable energy studies. His efforts have also helped establish Jeonbuk National University as a leading institution in the field of energy materials. 🌟💡

Legacy and Future Contributions 🚀🔮

Dr. Akhtar’s legacy is defined by his relentless pursuit of knowledge and innovation. As he continues his journey as a Full Professor, his vision for the future includes:

  • Expanding research on cutting-edge materials for next-generation energy systems. 💼🔋
  • Cultivating a new generation of scientists and engineers dedicated to solving global energy challenges. 🌍👨‍🔬
  • Strengthening international collaborations to advance the global energy transition. 🤝🌎

With his remarkable career trajectory and unwavering commitment, Dr. M. Shaheer Akhtar is poised to leave an indelible mark on the fields of renewable energy and materials science, inspiring progress for generations to come. 🌟📘

Citations

A total of 8,796 citations for his publications, demonstrating the impact and recognition of his research within the academic community.

  • Citations        8,796
  • h-index          291
  • i10-index       54

Notable Publications 

  • Title: Affordable paper-based strips: A breakthrough in phenol detection for water samples
    Authors: Malik, S.; Singh, J.; Almas, T.; Umar, A.; Akhtar, M.S.
    Journal: Spectrochimica Acta – Part A: Molecular and Biomolecular Spectroscopy
    Year: 2025.
  • Title: Carbonized porous zeolitic imidazolate framework as promising electrode for electrochemical supercapacitors
    Authors: Kim, E.-B.; Akhtar, M.S.; Kong, I.; Ameen, S.
    Journal: Electrochimica Acta
    Year: 2024.
  • Title: Tailoring porous NiMoO4 nanotube via MoO3 nanorod precursor for environmental monitoring: Electrochemical detection of micro-sized polyvinylchloride
    Authors: Kim, E.-B.; Akhtar, M.S.; Kong, I.; Ameen, S.
    Journal: Chemosphere
    Year: 2024.
  • Title: Rosuvastatin calcium electrochemical sensor based on a sulfur doped graphitic carbon nitride modified glassy carbon electrode: A metal free analysis approach
    Authors: Sharma, M.; Thakur, K.K.; Kumar, S.; Umar, A.; Shaheer Akhtar, M.
    Journal: Microchemical Journal
    Year: 2024.
  • Title: Sustainable synthesis of indium oxide nanoparticles via Aloe Vera for gas sensing applications
    Authors: Kulkarni, S.C.; Salunke, V.T.; Naeem, S.; Shaheer Akhtar, M.; Ameen, S.
    Journal: Microchemical Journal
    Year: 2024.

Arjun Pukkella | Chemical Engineering | Best Researcher Award

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Mr. Arjun Pukkella | Chemical Engineering | Best Researcher Award

Imperial College London, India

Author Profile

Early Academic Pursuits 🎓

Arjun Kumar Pukkella’s journey into the realm of academia began with a BTech in Chemical Engineering from Andhra University College of Engineering. Graduating with distinction in May 2013, Arjun quickly established himself as a top-performing student, earning the opportunity to participate in industrial visits due to his stellar academic performance. This early exposure to the practical aspects of chemical engineering further solidified his passion for the field.He then pursued a Master of Engineering (ME) in Chemical Engineering at the Indian Institute of Science (IISc) in Bangalore from 2013 to 2015. Under the supervision of Prof. Jayant Modak, Arjun focused his thesis on CFD modeling of Algal Bio‑reactors, specifically raceway ponds. His coursework at IISc covered a range of essential subjects including Transport Phenomena, Chemical Reaction Engineering, and Computational Transport Phenomenon, further enhancing his technical foundation. His time at IISc played a critical role in shaping his approach to research, particularly in the areas of mathematical modeling and numerical methods. This experience laid the groundwork for his subsequent research career.

Professional Endeavors 🛠️

With a solid academic foundation, Arjun Kumar Pukkella transitioned into a six-year stint at TCS Innovation Labs (TATA), where he contributed to cutting-edge R&D projects. His work at TCS exposed him to a variety of advanced technologies, particularly in computational fluid dynamics (CFD), 3D printing, and Monte Carlo simulations. These experiences honed his skills in machine learning and further deepened his expertise in process modeling.Arjun’s proficiency in patent documentation was a significant aspect of his role at TCS. His work in documenting intellectual property (IP) not only protected key innovations but also underscored his ability to navigate the intricate legal and technical aspects of research and development. His contributions during this time were marked by collaboration and teamwork, helping to foster a culture of innovation at TCS.In January 2021, Arjun took his professional experience a step further by pursuing a Ph.D. in Earth Science and Engineering at Imperial College London. His thesis focuses on the Optimization of Dry Mineral Classification, specifically leveraging insights from hydrocyclones to re‑design gas cyclones using Computational Fluid Dynamics (CFD) and laboratory experiments. The research aligns with a pressing global need: water conservation in mining operations. This groundbreaking work positions Arjun at the forefront of waterless mining technologies, advocating for sustainable practices in an industry that traditionally consumes vast amounts of water.

Contributions and Research Focus 🔬

Arjun’s Ph.D. research delves into the optimization of dry mineral classification, exploring the nuances of gas cyclones as efficient particle separators. His work reveals how convex-conic hydrocyclones can offer a coarser cut-size with reduced bypass compared to standard designs, a discovery validated by his CFD simulations and laboratory experiments.Arjun’s exploration extends to gas cyclones, where he employs Design of Experiments (DOE) and Monte Carlo simulations to model these systems. The result? Convex-conic gas cyclones deliver coarser cut-sizes, improving the efficiency of dry classification processes in mining. The practical implications of this research could lead to a transformative shift in how mining operations are conducted, potentially reducing water usage across the globe.Additionally, Arjun’s earlier work at IISc on algal bio-reactors underscores his versatility as a researcher. His ability to apply CFD modeling to different contexts—whether it be mining or bioengineering—demonstrates a broad skill set, making his contributions valuable across multiple sectors.

Accolades and Recognition 🏆

Throughout his academic and professional career, Arjun Kumar Pukkella has garnered recognition for his innovative contributions. Graduating with distinction from Andhra University, and later thriving in the competitive research environment at TCS Innovation Labs, Arjun has consistently demonstrated excellence in his field.At Imperial College London, his Ph.D. research under the guidance of Prof. Jan J. Cilliers and Dr. Kathryn Hadler has earned him praise for its potential environmental impact. The advocacy for waterless mining techniques positions Arjun as a leader in sustainable practices within the mining industry, and his technical work on gas cyclones has been recognized by his peers in academia and industry alike.

Impact and Influence 🌍

Arjun’s work is not just academically significant—it has the potential to make a tangible difference in the world. His research on water conservation in mining operations is particularly timely, as industries across the globe are seeking ways to reduce their environmental footprint. By promoting waterless mining techniques, Arjun’s contributions could play a crucial role in helping the mining industry move toward more sustainable practices. His research could help shape future policies and technologies aimed at reducing water consumption and environmental degradation.

Legacy and Future Contributions 🌟

As Arjun continues his academic journey, the future looks incredibly promising. His current research at Imperial College London positions him as a thought leader in the intersection of CFD modeling, machine learning, and sustainable mining practices.With his vast experience in both academia and industry, Arjun is uniquely positioned to bridge the gap between theoretical research and practical applications. His ability to collaborate effectively and foster innovation within teams will undoubtedly contribute to his continued success. Looking forward, Arjun’s legacy will likely include significant advancements in mineral classification technologies and water conservation methods, positioning him as a key player in the global movement toward sustainable industrial practices.As Arjun continues to advocate for environmental sustainability and innovation, his contributions to both the academic and industrial sectors will leave an indelible mark on the future of earth science and engineering. 🌱

Citations

A total of 106 citations for his publications, demonstrating the impact and recognition of his research within the academic community.

  • Citations         106
  • h-index           10
  • i10-index        5

Notable Publications 

  • Optimising miniaturised hydrocyclones for enhanced separation of microplastics
    • Authors: Bu, T., Mesa, D., Pukkella, A.K., Brito-Parada, P.R.
    • Journal: Chemical Engineering Journal, 2024.
  • Design of parabolic conic gas cyclones for coarse particle classification: A CFD study with Response Surface Methodology
    • Authors: Pukkella, A.K., Cilliers, J., Hadler, K.
    • Journal: Powder Technology, 2024.
  • A comprehensive review and recent advances in dry mineral classification
    • Authors: Pukkella, A.K., Cilliers, J.J., Hadler, K.
    • Journal: Minerals Engineering, 2023.
  • An integrated CFD methodology for tracking fluid interfaces and solid distributions in a vortexing stirred tank
    • Authors: Pukkella, A.K., Subramanian, S.
    • Journal: Canadian Journal of Chemical Engineering, 2023.
  • A novel spiral infinity reactor for continuous hydrothermal synthesis of nanoparticles
    • Authors: Pukkella, A.K., Nadimpalli, N.R.V., Runkana, V., Subramanian, S.
    • Journal: Scientific Reports, 2022.