Michel KERE | Climate change | Innovative Solutions for Environmental Challenges Award

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Assoc. Prof. Dr. Michel KERE | Climate change | Innovative Solutions for Environmental Challenges Award

Dr. Michel Kere is an Associate Professor of Zootechnics at the Institute of Rural Development, Nazi BONI University, Burkina Faso. He specializes in zootechnics, reproductive biotechnology, animal breeding, climate change studies, and the development of mechanization tools for smallholder farmers. With a focus on research and innovation, Dr. Kere has contributed significantly to the advancement of livestock sector development in Burkina Faso and beyond. He plays a vital role in implementing and coordinating research projects, training students at various academic levels, and disseminating innovations to farmers. As a leader in agricultural research, he has been involved in several international collaborations and projects focused on sustainable development and climate adaptation in agriculture. His work supports sustainable agricultural practices while addressing environmental challenges in West Africa.

Profile 

Google Scholar

Education 

Dr. Kere holds a Ph.D. in Animal Science from the prestigious National Chung Hsing University, Taichung, Taiwan (2014). Prior to that, he earned a Master’s degree in Rural Development Science and Techniques from Université Polytechnique de Bobo-Dioulasso (now Nazi BONI University), Bobo-Dioulasso, Burkina Faso (2006). His academic journey has provided him with deep knowledge in zootechnics, animal breeding, reproductive biotechnology, and agricultural sciences, laying the foundation for his research and teaching career. Dr. Kere’s advanced education has enabled him to make impactful contributions to agricultural development in West Africa, particularly in the fields of livestock productivity, climate change adaptation, and innovative farming practices. His commitment to higher education is reflected in his role as a mentor to both undergraduate and graduate students, guiding them in their research endeavors related to sustainable agricultural practices.

Experience 

Since 2014, Dr. Kere has been an Associate Professor at the Institute of Rural Development, Nazi BONI  University, where he has significantly influenced agricultural research and education. He supervises master’s and Ph.D. students, guiding research focused on improving the livestock sector in Burkina Faso. He is responsible for identifying research priorities, designing research projects, and collaborating with international institutions. Dr. Kere also serves as the Director of Experimental Stations at Nazi BONI University, overseeing research implementation and providing hands-on training for students. His leadership extends to project management, where he has contributed as a Co-Principal Investigator (Co-PI) in several international agricultural development projects. These include projects like SustainSahel, Appropriate Scale Mechanization Consortium, and Pro-RUWA, aimed at improving agricultural sustainability and rural livelihoods. His work is rooted in the practical application of scientific knowledge to solve challenges faced by smallholder farmers in West Africa.

Awards and Honors 

Dr. Kere’s exceptional contributions to agricultural science, particularly in the areas of livestock development, climate change adaptation, and rural development, have earned him recognition and respect within the academic community. Although specific awards and honors are not mentioned, his role in leading and collaborating on high-impact projects like SustainSahel and Pro-RUWA has contributed to the advancement of sustainable agricultural practices in West Africa. His research and leadership in improving agricultural productivity, mechanization for smallholder farmers, and addressing environmental challenges have garnered significant attention. Dr. Kere’s extensive publication record in international journals underscores his recognition as an expert in zootechnics and agricultural development. His ability to coordinate and collaborate in multi-national projects, and his ongoing contributions to the education and training of future researchers and farmers, reflect his strong reputation in his field, even if formal awards are not listed.

Research Focus 

Dr. Kere’s research focuses on zootechnics, emphasizing animal breeding, reproductive biotechnology, and feed and forage management for improving livestock productivity. His work integrates climate change studies, exploring the adaptation of agricultural practices to environmental shifts, especially in West Africa. He is particularly interested in developing mechanization tools that are appropriate for smallholder farmers, thereby enhancing agricultural productivity and sustainability. Dr. Kere’s involvement in the SustainSahel and Appropriate Scale Mechanization Consortium projects reflects his commitment to synergistic farming systems that combine crops, livestock, and natural resource protection. He has also investigated enteric methane emissions in grazing livestock, contributing to environmental sustainability. By focusing on local agricultural practices, he helps design solutions that support rural livelihoods, improve food security, and reduce environmental impacts. His work is centered on innovative agricultural solutions that balance productivity and environmental sustainability, with a focus on improving conditions for smallholder farmers in Burkina Faso and surrounding regions.

Publication Top Notes

  • Ascorbic acid improves the developmental competence of porcine oocytes after parthenogenetic activation and somatic cell nuclear transplantation 🌱🐖
  • Disbudding pain: The benefits of disbudding goat kids with dexmedetomidine hydrochloride 🐐💉
  • Production of viable cloned miniature pigs by aggregation of handmade cloned embryos at the 4-cell stage 🐖🔬
  • Putative porcine embryonic stem cell lines derived from aggregated four-celled cloned embryos produced by oocyte bisection cloning 🧬🦠
  • Vascular endothelial growth factor A improves quality of matured porcine oocytes and developing parthenotes 🐖❤️
  • Morpho-biometric evaluation of the genetic diversity of local chicken ecotypes in four regions (Centre-East, Sahel, Centre-North and South-West) of Burkina Faso 🐔🌍
  • Derivation and characterization of putative embryonic stem cells from cloned rabbit embryos 🐰🧬
  • Genetic diversity and population structure of local chicken ecotypes in Burkina Faso using microsatellite markers 🐔🧬
  • Ultrastructural characterization of porcine growing and in vitro matured oocytes 🐖🔬
  • Assessment of Water distribution Efficiency Using Solar Powered Drip Irrigation System Convenient for West Burkina Faso Small Scale Farming 💧☀️
  • Household food consumption profile of maize farmers in rural areas: Burkina Faso’s Hauts-Bassins region case 🌾🍽️
  • Balanites aegyptiaca (L.) Delile leaves nutritional value for local Mossi sheep in Burkina Faso 🐏🌿
  • Méthodes de conservation des fourrages: qualités nutritives et performances des ovins en embouche paysanne 🌾🐑
  • Characterization of Agropastoralist Production Systems and the Potential for Improving Livestock Productivity with Improved Feeding in Western Burkina Faso 🐄🌱
  • Évaluation de la force et de la vitesse de travail des bœufs de trait à l’aide d’un dynamomètre numérique en début de campagne agricole au Burkina Faso 🐂🔧
  • Cattle Teats’ Milk Quality and Prevalence of Mastitis by Electronic Mastitis Detector in Burkina Faso 🐄💧
  • Simulation and Optimization of Available Local Feed Resources for Dairy Cattle in Burkina Faso 🐄🍽️
  • Valeurs bromatologiques des fourrages ensilés en fûts plastiques et consommation volontaire chez les chèvres Djallonké au Burkina Faso 🐐🌾
  • Estimating net energy requirements of male Djallonke sheep 🐑⚡
  • Laying and growth performance of local chicken (Gallus gallus domesticus) ecotype Konde in Burkina Faso 🐔📈

POOJA CHAUDHARY | RENEWABLE ENERGY SOLAR CELL | Best Researcher Award

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Ms. POOJA CHAUDHARY | RENEWABLE ENERGY SOLAR CELL | Best Researcher Award

RESEARCH SCHOLAR,Madan Mohan Malaviya Engineering College: Madan Mohan Malaviya University of Technology, India

Pooja Chaudhary is an enthusiastic and dedicated researcher in the field of Electronics Engineering with a focus on VLSI Design and Communication Engineering. Currently pursuing her Ph.D. in Solar Photovoltaic Cells at Madan Mohan Malaviya University of Technology, Gorakhpur, her research combines advanced electronics with renewable energy solutions. She has a strong academic background, holding a Master’s degree in Communication Engineering and a Bachelor’s degree in Electronics and Communication Engineering. Pooja is skilled in industry-standard software tools for VLSI design and is deeply engaged in cutting-edge research, particularly in cognitive radio, solar energy, and antenna design. Her professional goals include contributing to sustainable energy solutions and advanced communication systems.

Profile

Scopus

Strengths for the Award

  1. Solid Academic Background:
    • Pooja Chaudhary has demonstrated a strong academic record, with a Bachelor’s degree in Electronics and Communication Engineering (72.66%) and a Master’s degree in Communication Engineering (81.10%) from reputed institutions in Uttar Pradesh. This academic foundation sets a strong base for her research contributions.
  2. Ongoing Doctoral Research:
    • Pooja is pursuing a Ph.D. in Solar Photovoltaic Cells at the Madan Mohan Malaviya University of Technology, Gorakhpur, focusing on a highly relevant and evolving field in renewable energy. Her dissertation topic, “Design and Development of Compact Printed Monopole Antenna for Cognitive Radio Application,” shows her ability to combine cutting-edge communication technology with energy-efficient solutions.
  3. Research Publications:
    • Pooja has contributed to peer-reviewed journals and conferences, including:
      • Physica Scripta (2024): A publication on enhancing the efficiency of Sb2Se3 solar cells, showcasing her work on the optimization of materials for solar energy applications.
      • Emerging Materials Research (2024): Another paper on improving Sb2Se3 solar cell performance using advanced electron transport layers (IGZO and n-ZnO), demonstrating her expertise in material science and solar cell engineering.
      • International Conference Paper (2018): A paper on a switchable frequency reconfigurable UWB antenna for cognitive radio applications, reflecting her contribution to communication technologies and antennas.
    • These publications indicate a well-rounded research portfolio with applications in renewable energy, communication systems, and advanced electronics.
  4. Qualified for Major Examinations:
    • Pooja has qualified for the NET (National Eligibility Test) multiple times between 2018 and 2022, showing her consistent commitment to academic excellence.
    • She has also qualified for GATE in 2017 and 2019, showcasing her deep understanding of engineering principles.
  5. Training and Industry Expertise:
    • Pooja has completed vocational training in N.E. Railway Signal and Telecommunication Center, which is highly relevant for her role in academia and practical engineering applications.
    • She is proficient in industry-standard software tools used in VLSI design, such as Silvaco TCAD, Cadence Virtuoso, HFSS, and Synopsys Design Compiler, which are crucial for her ongoing and future research projects in VLSI, communication systems, and antenna design.
  6. Awards and Fellowships:
    • She has been recognized with the National Fellowship (valid until 2026), Rajiv Gandhi Fellowship for PG Students in 2016-2017, and NET qualifications, further underlining her academic merit and contribution to research.

Areas for Improvement

  1. Broader Research Network:
    • While Pooja has produced valuable research in her areas of expertise, expanding her professional network by collaborating with more international researchers or involving herself in multi-disciplinary projects could further enhance the visibility and impact of her work.
  2. Diversity of Research Focus:
    • Although Pooja’s research is strong in the domains of solar cells and cognitive radio, exploring interdisciplinary fields (e.g., AI in VLSI, quantum computing, or smart grid systems) could open up more innovative avenues for her work and increase her research impact.
  3. Public Engagement and Outreach:
    • More visibility in the form of invited talks, workshops, or educational outreach could help Pooja enhance her academic profile. Engaging in platforms that showcase her research, such as social media or academic conferences, could improve her recognition as a thought leader.

Education

Pooja Chaudhary completed her Bachelor’s degree in Electronics and Communication Engineering in 2014 with a score of 72.66% from the Institute of Technology and Management in Gorakhpur, affiliated with Uttar Pradesh Technical University. She later pursued a Master’s degree in Communication Engineering from Madan Mohan Malaviya University of Technology, Gorakhpur, where she achieved an impressive score of 81.10%. Currently, she is pursuing a Ph.D. in Solar Photovoltaic Cells, focusing on designing compact printed monopole antennas for cognitive radio applications. Pooja’s academic journey reflects her passion for innovative technology and commitment to improving energy systems and communications through research.

Experience

Pooja Chaudhary has 2 years of teaching experience at New Jagdish Durgawati Pvt. ITI College, Khalilabad, Sant-Kabir Nagar. In addition to her teaching role, she has worked on numerous academic projects and seminars. Her experience extends beyond teaching to practical training, having completed a four-week vocational training in signal and telecommunication at N.E. Railway, Gorakhpur. This blend of teaching, training, and research experience has shaped her into a versatile academic professional. She also possesses hands-on experience with industry-standard software tools like Silvaco TCAD, Cadence Virtuoso, HFSS, and Synopsys Design Compiler, equipping her to contribute effectively to the academic and research community.

Awards and Honors

Pooja Chaudhary has received several prestigious honors throughout her academic career. She qualified for the National Eligibility Test (NET) in 2018, 2019, 2021, 2022, and 2022, underscoring her commitment to academic excellence. She has also successfully cleared GATE in 2017 and 2019, further strengthening her profile. In recognition of her academic potential, she received the Rajiv Gandhi Fellowship for PG students in 2016-2017. Additionally, she was awarded the National Fellowship in 2021, valid until 2026, which recognizes her excellence in research. These accolades validate Pooja’s dedication to both teaching and research in electronics and renewable energy.

Research Focus

Pooja Chaudhary’s research primarily focuses on Solar Photovoltaic Cells, Cognitive Radio Applications, and VLSI Design. Her current Ph.D. work explores optimizing the efficiency of Sb2Se3 solar cells using bi-layer absorbers, along with enhancing the performance of solar cells using advanced electron transport layers like IGZO and n-ZnO. Additionally, she has worked on the design of a compact printed monopole antenna for cognitive radio applications, aiming to develop reconfigurable antennas for flexible wireless communication. Pooja’s research integrates renewable energy with communication technology, highlighting her multidisciplinary approach to solving contemporary challenges in energy and communication systems.

Publication Top Notes

  1. Enhancing efficiency of Sb2Se3 solar cell through optimized optical and electrical properties with Bi-layer absorber (Physica Scripta, 2024)
  2. Performance enhancement of Sb2Se3 solar cell with IGZO and n-ZnO as electron transport layers (Emerging Materials Research, 2024)
  3. A Switchable Frequency Reconfigurable UWB Antenna for Cognitive Radio Application (Proceedings of the 2nd International Conference on Electronics, Communication, and Aerospace Technology, ICECA 2018)

Conclusion

Pooja Chaudhary is a highly competent and promising researcher with significant contributions to the fields of solar photovoltaic technology, communication engineering, and VLSI design. Her academic qualifications, research publications, and teaching experience make her an ideal candidate for the Best Researcher Award. With continued research, collaboration, and public engagement, she is poised to make even more significant contributions to the academic and research community in the coming years.Pooja’s strengths in combining communication technologies with renewable energy, her proficiency in advanced software tools, and her consistent track record of research excellence place her as a standout candidate for this award.

 

Zhixiong Liu – ENVIRONMENTAL-FRIENDLY FUNCTIONAL MATERIALS – Best Researcher Award

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Zhixiong Liu - ENVIRONMENTAL-FRIENDLY FUNCTIONAL MATERIALS - Best Researcher Award

SHANXI DATONG UNIVERSITY - China

AUTHOR PROFILE

SCOPUS
ORCID

PROFESSIONAL JOURNEY 🏢

Zhixiong Liu, an esteemed chemist, has been making significant strides in the field of chemistry and chemical engineering. Currently an Associate Professor at the School of Chemistry and Chemical Engineering, Shanxi Datong University, Dr. Liu has been dedicated to advancing research in nanomaterials and environmental protection since June 2019.

RESEARCH EXPERIENCE & INNOVATION 🌱

Dr. Liu’s research journey began in the Institute of Chemistry at the Chinese Academy of Sciences, where he earned his Ph.D. under the guidance of Prof. Qinghua Fan. His postdoctoral work at the Ningbo Institute of Industrial Technology, under the mentorship of Prof. Xuedong Wu and Prof. Liping Wang, further solidified his expertise in developing marine functional materials and hybrid hydrogels. At Shanxi Datong University, Dr. Liu has led groundbreaking projects focusing on heteroatoms-coped carbon dots (CDs) and their applications in metal protection and toxic ion detection.

ACADEMIC BACKGROUND 🎓

Zhixiong Liu received his B.S. in Chemistry from Xiangtan University and his Ph.D. in Organic Chemistry from the Institute of Chemistry, Chinese Academy of Sciences. His academic pursuits laid the foundation for his innovative research and contributions to the field.

PROJECT LEADERSHIP & FUNDING 📊

Dr. Liu has successfully managed multiple research projects funded by prestigious institutions, including the National Natural Science Foundation of China and the China Postdoctoral Science Foundation. His work on nano-materials and soft hydrogels has garnered significant attention and funding, reflecting the impact and importance of his research.

PUBLICATIONS & IMPACT 📚

With numerous publications to his name, Dr. Liu has contributed extensively to the scientific community. His research on CDs-based materials for environmental applications and marine functional materials for antifouling has been published in well-regarded journals, showcasing his expertise and innovation in chemistry.

RECOGNITION & ACHIEVEMENTS 🏆

Dr. Liu's dedication and contributions to chemistry have earned him recognition and respect within the academic and scientific communities. His innovative approaches and commitment to environmental protection through chemistry continue to inspire and drive progress in the field.

FUTURE ENDEAVORS 🌟

As Dr. Liu continues his work at Shanxi Datong University, his future endeavors will undoubtedly focus on furthering research in nanomaterials, environmental protection, and sustainable chemistry. His vision and expertise position him as a leading figure in the ongoing quest for scientific advancement and environmental sustainability.

NOTABLE PUBLICATION

Clinical characteristics and treatment strategies for pituitary adenoma associated with intracranial aneurysm.

Authors: Xuan Gao, Ming Zhang, Bing Bai, Chengwei Li, Xuan Zhao, Wutao Cheng, ...
Journal: World Neurosurgery
Volume: 112
Year: 2018

Causal association and shared genetics between telomere length and COVID-19 outcomes: New evidence from the latest large-scale summary statistics.

Authors: Massimo Mangino, Claire J. Steves, Panos Deloukas, Tim D. Spector, Cristina Menni
Journal: eLife
Volume: 10
Year: 2021

Recent advances in carbon dots as powerful ecofriendly corrosion inhibitors for copper and its alloy.

Authors: Fan Yang, Jinhao Zhang, Long Wei, Xiaotong Xie, Weifeng Dong, .
Journal: Carbon
Volume: 170
Year: 2020

Aptamer modified Ti3C2 nanosheets application in smart targeted photothermal therapy for cancer.

Authors: Hongwei Zhang, Xingxing Xu, Min Hu, Bingqiang Song, Ying Wang, ...
Journal: ACS Applied Materials & Interfaces
Volume: 12
Year: 2020

A novel ratiometric fluorescent probe based on dual-emission carbon dots for highly sensitive detection of salicylic acid.

Authors: Linlin Zhang, Jinsheng Zhai, Hongwei Zhang, Yan Liu, Jing Bai, ...
Journal: Sensors and Actuators B: Chemical
Volume: 293
Year: 2019

Muhammad Ali Ijaz Malik – Renewable fuels for engine performance optimization – Best Researcher Award

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Muhammad Ali Ijaz Malik - Renewable fuels for engine performance optimization - Best Researcher Award

University of Technology - Australia

AUTHOR PROFILE

GOOGLE SCHOLAR

MUHAMMAD ALI IJAZ MALIK: DRIVING INNOVATION IN MECHANICAL ENGINEERING 🚀

Muhammad Ali Ijaz Malik is a seasoned mechanical engineer with a remarkable seven-year track record in diverse industrial and research environments. Armed with a Master’s in Automotive Engineering from the University of Engineering and Technology, Lahore-Pakistan, with a specialization in engine performance optimization through renewable fuel sources, he is currently pursuing a Ph.D. in Mechanical Engineering at the University of Technology, Sydney, Australia. 🎓

LEADING THE WAY IN ENERGY CONVERSION TECHNOLOGIES ⚙️

As one of the emerging researchers in the field of energy conversion technologies, Muhammad Ali Ijaz Malik has made significant contributions, boasting 18 research publications in reputable international journals. His research interests span across energy conservation and management, biofuels, sustainability, bio-lubricants, emissions control techniques, engine performance optimization, electric vehicle technology, and tribology, reflecting his commitment to driving innovation in mechanical engineering. 💡

ACADEMIC EXCELLENCE AND RESEARCH ACHIEVEMENTS 🏅

With a stellar academic background, including a Master's degree with distinction and a Bachelor's degree in Mechanical Engineering, Muhammad Ali Ijaz Malik has demonstrated exceptional academic prowess throughout his educational journey. His research and development competency indicators, including 172 citations and a notable H-Index of 09, underscore his impactful contributions to the field. 📚

RECOGNIZED FOR EXEMPLARY CONTRIBUTIONS AND LEADERSHIP 🌟

Muhammad Ali Ijaz Malik's dedication and leadership qualities have been acknowledged through various awards and honors, including recognition for organizing prestigious events and leading successful fundraising campaigns. Additionally, his impactful research techniques and scientific writing have been acknowledged by esteemed organizations such as ASME. 👏

COMBINING TEACHING AND RESEARCH EXCELLENCE 📝

With a passion for both research and teaching, Muhammad Ali Ijaz Malik has served as a Research Assistant and Lecturer, engaging in research activities and imparting knowledge to future generations of engineers. His dedication to academia and research continues as a Ph.D. candidate, where he actively contributes to cutting-edge research endeavors. 📊

PUBLISHED WORKS AND TECHNICAL EXPERTISE 💻

Muhammad Ali Ijaz Malik's research contributions extend to numerous publications in reputable journals, addressing critical topics such as environmental assessment of hydroxy-diesel mix and combustion chamber modifications' impact on performance. His technical proficiency in software tools and interpersonal skills, including leadership, teamwork, and analytical abilities, further enhance his ability to drive innovation and make a meaningful impact in the field of mechanical engineering. 📈

DRIVING INNOVATION TOWARDS A SUSTAINABLE FUTURE 🌱

With a relentless commitment to advancing energy conversion technologies and sustainability, Muhammad Ali Ijaz Malik stands at the forefront of innovation in mechanical engineering. His passion for research, combined with his academic excellence and leadership qualities, positions him as a driving force in shaping a sustainable future through engineering innovation. 🌟

NOTABLE PUBLICATION

A review of recent advances in the synthesis of environmentally friendly, sustainable, and nontoxic bio-lubricants: Recommendations for the future implementations 2023 (11)

Response surface methodology application on lubricant oil degradation, performance, and emissions in SI engine: A novel optimization of alcoholic fuel blends 2023 (13)

Use of methanol-gasoline blend: a comparison of SI engine characteristics and lubricant oil condition 2022 (14)

Acetone–Gasoline Blend as an Alternative Fuel in SI Engines: A Novel Comparison of Performance, Emission, and Lube Oil Degradation 2023 (16)

Enviro-Economic Assessment of HHO–CNG Mixture Utilization in Spark Ignition Engine for Performance and Environmental Sustainability 2022 (17)

Sadia Siddiqa – Renewable energy – Best Researcher Award

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Sadia Siddiqa - Renewable energy - Best Researcher Award

University of Ulsan - South Korea

AUTHOR PROFILE

Google Schalor

EARLY ACADEMIC PURSUITS

Sadia Siddiqa embarked on a journey of academic excellence, culminating in a Ph.D. in Computational Fluid Dynamics (CFD) from the COMSATS Institute of Information Technology, Pakistan. Her research during her Ph.D. focused on the convection flow of viscous fluid, showcasing her early dedication to understanding complex fluid dynamics phenomena.

PROFESSIONAL ENDEAVORS

Sadia Siddiqa's career is marked by significant contributions to academia and research. From her role as an Assistant Professor at COMSATS University Islamabad to her tenure as a Research Assistant Professor at the University of Ulsan, South Korea, Sadia has demonstrated a commitment to advancing knowledge in the field of mathematics and fluid dynamics.

CONTRIBUTIONS AND RESEARCH FOCUS

Sadia's research interests encompass a broad spectrum of topics within computational fluid dynamics, including external and internal flows, turbulence modeling, renewable energy applications, and artificial intelligence. Her extensive research portfolio reflects her dedication to addressing pressing challenges in fluid mechanics and renewable energy through innovative computational approaches.

IMPACT AND INFLUENCE

Sadia Siddiqa's research has made a significant impact on the scientific community, as evidenced by her numerous publications in reputable journals and conference proceedings. With a substantial number of citations and a commendable H-index, Sadia's work has been widely recognized and cited by her peers, indicating its influence and importance in the field.

ACADEMIC CITES

Sadia's research contributions have been widely cited within the academic community, reflecting the significance and relevance of her work in computational fluid dynamics and renewable energy. Her impressive publication record and citation metrics underscore her status as a respected authority in her field.

LEGACY AND FUTURE CONTRIBUTIONS

Sadia Siddiqa's vision for the future is centered around continued excellence in research and education. Through her ongoing research endeavors and commitment to mentorship, Sadia aims to contribute to the advancement of knowledge in computational fluid dynamics and renewable energy, leaving a lasting legacy of innovation and impact in her field.

NOTABLE PUBLICATION

Effects of heat source and sink on entropy generation and MHD natural convection of Al2O3-Cu/water hybrid nanofluid filled with square porous cavity 2018 (175)

Heat source/sink effects on a hybrid nanofluid-filled porous cavity 2017 (109)

Numerical solutions of nanofluid bioconvection due to gyrotactic microorganisms along a vertical wavy cone 2016 (95)

Numerical treatments to analyze the nonlinear radiative heat transfer in MHD nanofluid flow with solar energy 2020 (67)

Periodic magnetohydrodynamic natural convection flow of a micropolar fluid with radiation 2017 (65)

Taufiq Ihsan – Environmental Science – Best Researcher Award

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Taufiq Ihsan - Environmental Science - Best Researcher Award

Andalas University - Indonesia

AUTHOR PROFILE

Scopus
ORCID
Google Scholar

EARLY ACADEMIC PURSUITS

Taufiq Ihsan embarked on his academic journey with a Bachelor's degree in Environmental Engineering from Andalas University, Padang, Indonesia, from 2004 to 2009. He furthered his education by pursuing a Master's degree in Environmental Engineering at Bandung Institute of Technology from 2010 to 2012. Building upon his foundation, he pursued a Doctorate in Life Environmental Science at Ehime University, Matsuyama, Ehime, Japan, from 2021 to the present.

PROFESSIONAL ENDEAVORS

Since April 2014, Taufiq Ihsan has been serving as a Lecturer in Environmental Engineering at Andalas University, where he shares his expertise and passion for the field with students. His commitment to academia is reflected in his ongoing dedication to teaching and research, empowering the next generation of environmental engineers.

CONTRIBUTIONS AND RESEARCH FOCUS

Taufiq Ihsan's research focuses on various aspects of Environmental Science, including water and soil quality, pollution assessment, and sustainable waste management. His contributions to the field have been significant, with numerous publications in esteemed journals covering topics such as the removal of contaminants from drinking water, the impact of pesticide exposure on aquatic organisms, and solid waste management initiatives.

IMPACT AND INFLUENCE

Through his research and scholarly activities, Taufiq Ihsan has made a tangible impact on the field of Environmental Science. His work has contributed to advancements in understanding environmental challenges and developing innovative solutions to address them. By disseminating his findings through publications and peer-reviewed journals, he has influenced the discourse surrounding environmental issues and informed policy and decision-making processes.

ACADEMIC CITES

Taufiq Ihsan's research findings have been cited by fellow researchers and scholars in the field of Environmental Science, indicating the significance and relevance of his contributions. His work serves as a valuable resource for further study and exploration, fostering collaboration and knowledge exchange within the academic community.

LEGACY AND FUTURE CONTRIBUTIONS

Taufiq Ihsan's dedication to Environmental Science positions him as a leader in the field, with a legacy of impactful research and scholarly contributions. As he continues to pursue his academic and professional endeavors, his work will undoubtedly shape the future of environmental engineering and contribute to the development of sustainable solutions to pressing environmental challenges.

NOTABLE PUBLICATION

Enhancing rural drinking water safety using an Mg–Al-type layered double hydroxide foias a new point-of-use disinfection tool 2023 (1)

Saleh Mohammed | Sustainable Development | Excellence in Research

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AUTHOR PROFILE
Scopus
ORCID
EARLY ACADEMIC PURSUITS:

Saleh Mohammed initiated his academic journey at Onaizah College, marking the beginning of his scholarly pursuits. Details about his early academic pursuits, including educational achievements, areas of study, and any notable milestones during this formative period, are essential for understanding his intellectual development.

PROFESSIONAL ENDEAVORS:

Transitioning from academia to the professional sphere, Mohammed's career unfolded with diverse professional endeavors. Insights into his roles, projects, and collaborations during this phase, particularly those aligned with his academic background, contribute to comprehending the practical applications of his knowledge and skills.

CONTRIBUTIONS AND RESEARCH FOCUS:

Mohammed's contributions and research focus form a crucial aspect of his academic and professional identity. Whether through scholarly publications, participation in research projects, or advancements within a specific field, understanding the thematic concentration of his contributions offers insights into his academic impact.

IMPACT AND INFLUENCE:

Assessing Mohammed's impact and influence involves recognizing the broader effects of his work. This encompasses positive outcomes in academia, acknowledgment within his professional network, and any influence he may have had on students, colleagues, or the academic community at large.

ACADEMIC CITES:

An indicator of Mohammed's academic influence is reflected in the number of citations his work has garnered. High citation metrics suggest that his research has significantly contributed to the academic discourse, with fellow researchers and scholars referencing his work in their own studies.

LEGACY:

Saleh Mohammed's legacy is defined by the lasting impact he leaves at Onaizah College. This may include contributions to the academic environment, mentorship of students, and the establishment of a positive and collaborative culture within his academic sphere.

FUTURE CONTRIBUTIONS:

Looking ahead, Mohammed's future contributions may involve continued advancements in his academic and professional pursuits. This could encompass further research, participation in impactful projects, mentorship of emerging scholars, and potentially taking on leadership roles that contribute to the growth and development of Onaizah College.

NOTABLE PUBLICATION

Autism Spectrum Disorder detection framework for children based on federated learning integrated CNN-LSTM.  2023 (1)

Sunaina Singh | Sustainable Development | Best Researcher

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AUTHOR PROFILE
Scopus
EARLY ACADEMIC PURSUITS:

Sunaina Singh embarked on her academic journey at IIT Delhi, signaling the initiation of her scholarly pursuits. Information regarding her early academic endeavors, including educational achievements, areas of study, and any notable milestones during this formative period, is crucial for understanding her intellectual development.

PROFESSIONAL ENDEAVORS:

Transitioning from academia to the professional sphere, Singh's career unfolded with diverse professional endeavors. Insights into her roles, projects, and collaborations during this phase, particularly those aligned with her academic background, contribute to comprehending the practical applications of her knowledge and skills.

CONTRIBUTIONS AND RESEARCH FOCUS:

Singh's contributions and research focus are integral to her academic and professional identity. Whether through scholarly publications, participation in research projects, or advancements within a specific field, understanding the thematic concentration of her contributions offers insights into her academic impact.

IMPACT AND INFLUENCE:

Assessing Singh's impact and influence involves recognizing the broader effects of her work. This encompasses positive outcomes in academia, acknowledgment within her professional network, and any influence she may have had on students, colleagues, or the academic community at large.

ACADEMIC CITATIONS:

An indicator of Singh's academic influence is reflected in the number of citations her work has garnered. High citation metrics suggest that her research has significantly contributed to the academic discourse, with fellow researchers and scholars referencing her work in their own studies.

LEGACY:

Sunaina Singh's legacy is defined by the lasting impact she leaves at IIT Delhi. This may include contributions to the academic environment, mentorship of students, and the establishment of a positive and collaborative culture within her academic sphere.

FUTURE CONTRIBUTIONS:

Looking ahead, Singh's future contributions may involve continued advancements in her academic and professional pursuits. This could encompass further research, participation in impactful projects, mentorship of emerging scholars, and potentially taking on leadership roles that contribute to the growth and development of IIT Delhi.

NOTABLE PUBLICATION

Fast and Robust Adaptive LMAT Control for Power Quality Improvement in Grid-Tied SPV System.  2023

SPVA-ES-Based Standalone Microgrid with Power Flow Management and Power Quality Improvements.  2023

Adjoint least mean square control for solar photovoltaic array grid-connected energy generating system.  2022 (4)

Two-Stage 3-Φ Utility Interfaced PV-BES with Synchronization Capability.  2022 (2)

A Multifunctional Three-Phase Grid Coupled Solar PV Energy Conversion System Using Delayed µ-Law   2022 (12)