Salah Almudhhi | Petroleum Engineering | Best Researcher Award

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Prof. Salah Almudhhi | Petroleum Engineering | Best Researcher Award

Professor at Kuwait University, Kuwait

Dr. Salah M. Almudhhi is a distinguished academic and expert in petroleum engineering, renowned for his multidisciplinary approach that combines traditional petroleum technologies with cutting-edge innovations like nanotechnology and machine learning. With a professional journey spanning over three decades, Dr. Almudhhi currently serves as an Assistant Professor at Kuwait University, where he has played integral roles in both academic and administrative capacities. His academic credentials are rooted in petroleum engineering, having earned his B.S. from Kuwait University and his M.S. and Ph.D. from the Colorado School of Mines in the USA. Dr. Almudhhi has held leadership roles in national environmental bodies, including serving as Director General of the Environment Public Authority in Kuwait. He has published extensively in high-impact journals, with key contributions in enhanced oil recovery, wettability measurements, and rock-fluid characterization. Dr. Almudhhi has supervised numerous graduate research projects and has actively participated in national and international committees related to energy and environmental policy. Recognized with multiple honors, including the “Environment Person of the Year in Asia 2012,” he continues to bridge academia, industry, and policy through his expertise and dedication. His work is distinguished by its practical impact on sustainable energy production and environmental stewardship in the petroleum sector.

Professional Profile

Education

Dr. Salah M. Almudhhi’s educational journey reflects a robust and focused progression in the field of petroleum engineering. He began his academic pursuits at Kuwait University, where he earned a Bachelor of Science degree in Petroleum Engineering in 1994. Building upon this foundation, he pursued advanced studies at the prestigious Colorado School of Mines in the United States, where he obtained both his Master of Science in 1998 and his Doctor of Philosophy in 2003. His M.S. thesis, titled “The ‘Spinning Disk’ Approach to Capillary Pressure Measurement with a Centrifuge Experiment,” demonstrated his early focus on experimental techniques in reservoir engineering. For his Ph.D. dissertation, “Experimental Evaluation of the Petrophysical Algorithm in an Integrated Flow Model,” Dr. Almudhhi explored the integration of petrophysical data into dynamic reservoir simulations, establishing his specialization in enhanced recovery modeling. His academic training provided him with a deep understanding of both theoretical and applied aspects of petroleum systems. This solid educational background laid the groundwork for his innovative research and teaching in reservoir characterization, rock mechanics, and environmental impact assessments in the oil and gas industry. His education has continuously informed his interdisciplinary approach to engineering challenges and policy leadership.

Professional Experience

Dr. Salah M. Almudhhi brings a wealth of professional experience that bridges academia, industry, and environmental governance. He began his academic career as a Teaching Assistant at the Colorado School of Mines from 2000 to 2002. Following his Ph.D., he joined Kuwait University as an Assistant Professor in 2003 and resumed this role after a leadership stint, continuing from 2014 to the present. He served as Acting Chairman of the Petroleum Department in 2004 and played a key role in curriculum development and faculty advancement. From 2009 to 2014, Dr. Almudhhi was appointed Director General of Kuwait’s Environment Public Authority, where he simultaneously chaired multiple national environmental and energy committees. His portfolio included roles such as Executive Secretary of the Supreme Council for the Environment and State Representative to numerous UN and GCC environmental programs. He has also held prominent advisory positions in Kuwait’s Ministry of Public Works and Ministry of Education. Within the university, he has served on various departmental, college, and university-level committees, emphasizing research development, international cooperation, and strategic planning. Dr. Almudhhi’s blend of technical expertise, academic rigor, and environmental advocacy positions him as a highly influential figure in both scientific and governmental domains.

Research Interest

Dr. Salah M. Almudhhi’s research interests focus on the interplay between rock-fluid properties, enhanced oil recovery, and the integration of emerging technologies in petroleum engineering. His foundational work in rock and fluid characterization laid the basis for deeper exploration into wettability, a key factor influencing reservoir performance. His investigations into wettability measurements—particularly in carbonate and shale reservoirs—have enhanced understanding of capillary pressure behavior and contact angle variability. Dr. Almudhhi has also directed research toward the application of nanotechnology in improving oil recovery, emphasizing the role of nanoparticle-engineered fluids in tight formations. His current research delves into machine learning applications for modeling heavy oil viscosity and rock mechanics, aiming to bridge data science with traditional reservoir engineering. Through collaborative graduate research projects, he supervises work on fluid dynamics, permeability modeling, and tensile strength in relation to brine salinity. Additionally, Dr. Almudhhi maintains an active interest in environmental monitoring and its implications for upstream petroleum operations. His research is geared toward solutions that improve reservoir performance while maintaining ecological balance. With an integrative approach that spans experimental, computational, and environmental disciplines, Dr. Almudhhi continues to contribute significantly to the evolution of petroleum science and sustainability.

Research Skills

Dr. Salah M. Almudhhi possesses a comprehensive array of research skills that underscore his interdisciplinary and application-focused approach to petroleum engineering. His core technical strengths lie in rock and fluid characterization, including advanced wettability analysis, capillary pressure evaluation, and relative permeability measurements. He has significant experience with both conventional laboratory techniques and modern analytical methods such as nuclear magnetic resonance (NMR) and spinning disk centrifuge experiments. Dr. Almudhhi has developed proficiency in modeling and simulation, particularly in the use of integrated flow models to interpret petrophysical data. His recent work involves leveraging machine learning tools to predict oil viscosity and compressive strength in reservoir rocks, showcasing his adaptability in digital technologies. He also has expertise in environmental assessment methodologies, having designed impact studies and coordinated national reports under frameworks like the UNFCCC. Dr. Almudhhi’s ability to bridge experimental research with computational analytics has been reflected in over 17 peer-reviewed publications. He actively applies his research skills in supervising student projects, grant acquisition, and curriculum development. His scientific rigor, coupled with policy-driven applications, allows him to contribute meaningfully to both academic and environmental solutions in the petroleum and energy sectors.

Awards and Honors

Dr. Salah M. Almudhhi has received multiple awards and recognitions for his exceptional contributions to petroleum engineering and environmental policy. Among his most prestigious accolades is the “Environment Person of the Year in Asia” award, conferred in 2012 in Dubai, UAE. This award acknowledged his pioneering work in bridging petroleum science with environmental stewardship during his tenure as Director General of the Environment Public Authority in Kuwait. He was also the recipient of the “Award of Recognition in Environment” from the Kuwait Oil Company in 2010, reflecting his national impact on sustainable practices in the energy sector. Additionally, Dr. Almudhhi was honored with the GCC Environmental Achievement Award in Oman in 2011, which recognized his efforts in regional environmental collaboration and policy development. His involvement in numerous high-level environmental committees, both regionally and internationally, underscores the respect he commands as a scientific advisor and public policy expert. His memberships in professional societies, such as the Society of Petroleum Engineers and the Kuwait Society of Engineers, further affirm his standing in the global engineering community. These honors collectively reflect a career committed to excellence in research, teaching, and service to society.

Conclusion

In conclusion, Dr. Salah M. Almudhhi stands as a highly accomplished and visionary figure in the realm of petroleum engineering, whose work seamlessly integrates academic excellence, research innovation, and public policy leadership. With advanced degrees from the Colorado School of Mines and a longstanding commitment to Kuwait University, he has shaped a generation of engineers through his teaching, mentorship, and curricular contributions. His diverse research portfolio—ranging from wettability and nanofluid applications to machine learning modeling—demonstrates a proactive engagement with the evolving challenges of energy production. His leadership roles in environmental governance, including his service as Director General of the Environment Public Authority, reflect his dedication to sustainability and international collaboration. A recipient of multiple national and international awards, Dr. Almudhhi continues to influence both academia and public institutions through his strategic insight and interdisciplinary expertise. His legacy is not only marked by his scholarly publications and student mentorship but also by his commitment to integrating technological advancement with environmental responsibility. As a leader, educator, and researcher, Dr. Almudhhi exemplifies the transformative power of science in addressing real-world challenges in the oil and energy sectors.

Publications Top Notes

  1. Application of Machine Learning for Modeling Heavy Oil Viscosity
    Authors: Salah Almudhhi, Haitham M.S. Lababidi, Ali A. Garrouch
    Year: 2025

  2. Are Natural Fractures in Sandstone Reservoir: Water Wet – Mixed Wet – Or Oil Wet?
    Authors: Salah Almudhhi, Laila Abdullah, Waleed Al-Bazzaz, Saleh Alsayegh, Hussien Alajaj, Ralph Flori
    Year: 2022

  3. An Unconventional Approach in Investigating Wettability Contact Angle Measurement in Shale Resources
    Author: Salah Almudhhi
    Year: 2021

  4. Predicting the Flow Zone Indicator of Carbonate Reservoirs Using NMR Echo Transforms and Routine Open-Hole Log Measurements
    Authors: Salah Almudhhi, M. Al-Dousari, A. Garrouch
    Year: 2021

  5. Investigating Wettability Contact Angle Measurement in Kuwaiti Heavy Oil Reservoir and Modeling Using 2D Imaging Technologies
    Authors: Waleed Albazzaz, Salah Almudhhi, Mohammed Alostath
    Year: 2019

  6. Recovery of Crude from OVL in Joint Operations, Wafra, Kuwait
    Author: Salah M. Almudhhi
    Year: 2016

  7. Histopathological Survey of Potential Biomarkers for the Assessment of Contaminant Related Biological Effects in Species of Fish and Shellfish Collected from Kuwait Bay, Arabian Gulf
    Authors: S. Masoud, Salah Almudhhi, M. Alenezi
    Year: 2014

  8. Investigating Rock-Face Boundary Effects on Capillary Pressure and Relative Permeability Measurements
    Authors: O. A. Alomair, Salah M. Almudhhi, M. M. Aldousari
    Year: 2011

  9. An Experimental Investigation of the Impact of Diffusion Osmosis and Chemical Osmosis on the Stability of Shales
    Authors: T. Al-Bazali, Salah Almudhhi, M. Chenevert
    Year: 2011

  10. Averaging Effect on Elastic Wave Velocity in an Integrated Flow Model
    Authors: S. M. Almudhhi, O. Alomair
    Year: 2009

  11. Experimental Evaluation of the Petrophysical Algorithm in an Integrated Flow Model
    Authors: S. M. Almudhhi, J. R. Fanchi
    Year: 2009

  12. Experimental Presentation of an Integrated Flow Model
    Author: S. M. Almudhhi
    Year: 2007

Likun Gao | Energy Sustainability | Best Researcher Award

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Prof. Dr. Likun Gao | Energy Sustainability | Best Researcher Award

Professor at Northeast forestry University, China

Professor Likun Gao is a pioneering researcher in the interdisciplinary field of advanced wood-based materials, serving at the School of Materials Science and Engineering, Northeast Forestry University, China. His work is at the forefront of integrating wood science with cutting-edge nanotechnology, particularly focusing on wood nanogenerators, electrocatalytic wood, and multifunctional self-healing materials. With a robust foundation in wood science and engineering, he has rapidly ascended as an influential academic voice in materials research. His innovations have practical implications for sustainable energy, water splitting, environmental sensing, and extreme-condition applications. Professor Gao has authored over 40 peer-reviewed publications in premier journals such as Chem. Soc. Rev., PNAS, Energy & Environmental Science, and Advanced Functional Materials. His contributions include several highly cited papers and journal covers, affirming the novelty and impact of his research. He also holds multiple patents and has co-authored important book chapters related to electrocatalysis and wood-based functional materials. Recognized through prestigious programs like China’s National Ten Thousand Talents and the CAST Young Elite Scientists Sponsorship, Gao exemplifies the next generation of scientific leadership in sustainable and intelligent materials. His commitment to interdisciplinary collaboration and scientific innovation positions him as a transformative figure in applied materials science.

Professional Profile

Education

Likun Gao’s educational journey reflects a deep and consistent focus on wood science and materials engineering, beginning with a Bachelor of Science in Wood Science and Engineering from Northeast Forestry University in 2014. Demonstrating early academic promise, he pursued his doctoral studies at the same institution, earning a Ph.D. in Wood Science and Technology in 2020. His doctoral research was marked by a growing interest in integrating biological materials with nanotechnology to produce functional composites. As part of his Ph.D. program, Gao was selected for an international research stint at the Georgia Institute of Technology, USA, from 2018 to 2020. There, he expanded his expertise in materials science and engineering, engaging with global experts and exploring the intersection of nanomaterials and bio-based resources. This international exposure enriched his methodological rigor and allowed him to contribute to several high-impact collaborations. His academic background forms the backbone of his innovative research portfolio and underpins his current leadership in multifunctional wood-based materials. The comprehensive, cross-continental training he received has equipped him with a unique perspective on the potential of sustainable materials in modern technology.

Professional Experience

Since March 2021, Professor Likun Gao has been serving as a full Professor at Northeast Forestry University’s School of Materials Science and Engineering. In this role, he leads a dynamic research group exploring the frontier of wood nanotechnology and sustainable energy materials. Building on his doctoral and international postdoctoral experiences, he has established an impressive track record of research output and innovation. Under his leadership, the lab has produced over 40 peer-reviewed journal articles, numerous high-impact papers, and several patents. His collaborations span interdisciplinary teams focused on energy conversion, smart materials, and environmental responsiveness. In addition to his scientific output, Professor Gao is also dedicated to mentoring students and early-career researchers. He regularly supervises graduate students, fostering an environment of creativity, innovation, and academic rigor. His teaching responsibilities include advanced courses in nanomaterials, wood science, and electrocatalysis. Beyond academic instruction, Gao actively contributes to national and international research projects and often serves as a reviewer for top-tier journals. His role as a professor is multifaceted—blending research, mentorship, collaboration, and academic service—which has rapidly elevated his stature in China’s scientific community and beyond.

Research Interest

Professor Likun Gao’s research interests lie at the convergence of sustainable materials science and advanced nanotechnology, focusing particularly on wood-derived functional materials. One of his core areas is the development of wood nanogenerators, including piezoelectric and triboelectric devices, as well as cellulose-based systems. These innovations provide new pathways for harvesting renewable energy from environmental sources, especially in flexible and wearable electronics. Another major focus is electrocatalytic wood, where Gao engineers wood-based single-atom electrocatalysts for applications like water splitting, targeting efficient and green hydrogen production. He also pioneers in multifunctional, self-healing wood-based materials that exhibit unique properties such as photothermal responsiveness, anti-icing, sensing, and environmental adaptability. These materials are particularly promising for use in extreme weather conditions and smart infrastructure. His research approach is distinctly bioinspired, aiming to replicate or enhance natural functionalities through molecular-level material engineering. By leveraging the structural anisotropy and hierarchical nature of wood, Gao is able to design novel platforms for catalysis and energy generation. His interests also span surface reconstruction mechanisms, dynamic active-site modulation, and intelligent material design, reflecting a deep commitment to creating smart, eco-friendly technologies.

Research Skills

Professor Gao possesses a robust and multifaceted skill set that bridges wood science, nanotechnology, materials engineering, and electrocatalysis. His expertise includes the fabrication and functionalization of wood-derived nanogenerators, capable of converting mechanical energy into electrical energy through triboelectric and piezoelectric effects. He is also skilled in the design and synthesis of single-atom electrocatalysts embedded in wood substrates, which are essential for enhancing the kinetics of water-splitting reactions. Gao’s technical toolkit includes advanced material characterization techniques such as SEM, TEM, XPS, Raman spectroscopy, and in situ operando methods, which he uses to explore catalytic mechanisms and interface dynamics. Additionally, he has substantial experience in surface modification strategies to imbue wood-based composites with photothermal, hydrophobic, and self-healing properties. His lab routinely integrates superhydrophobic coatings, carbonization techniques, and atomic doping to create responsive multifunctional materials. Professor Gao also has notable strengths in writing scientific publications, securing research grants, and patenting novel technologies. His collaborative work with international teams underscores his ability to work across disciplines and cultural contexts, making him an agile and resourceful scientist in the global research landscape.

Awards and Honors

Professor Likun Gao has garnered widespread recognition for his pioneering work in wood-based functional materials, receiving numerous prestigious awards that underscore his contributions to scientific innovation and academic excellence. In 2023, he was selected for China’s National Ten Thousand Talents Program for High-level Young Talents—one of the country’s highest honors for young researchers. A year prior, in 2022, he was awarded the Young Elite Scientists Sponsorship Program by the China Association for Science and Technology (CAST), an accolade reserved for researchers demonstrating extraordinary potential in advancing science and technology. He also received the Excellent Young Scholar Award from the Natural Science Foundation of Heilongjiang Province, recognizing his outstanding research in applied materials. Professor Gao has contributed to 3 book chapters and authored over 40 high-quality journal articles, several of which were highlighted as ESI Highly Cited Papers, journal cover stories, or Hot Papers. His intellectual property portfolio includes five patents, reflecting a commitment to practical innovation. These honors collectively affirm his leadership in the field and serve as milestones in a career defined by creativity, scientific rigor, and impactful problem-solving.

Conclusion

In summary, Professor Likun Gao stands as a dynamic and forward-thinking figure in the fields of materials science and wood-based nanotechnology. His research bridges the gap between nature and cutting-edge engineering, offering solutions for sustainable energy, smart materials, and functional composites. With a strong academic foundation, international exposure, and a commitment to interdisciplinary research, Gao has built a formidable reputation as a scientist, educator, and innovator. His work is not only scientifically profound but also socially and environmentally relevant, addressing global challenges like clean energy, climate resilience, and sustainable resource use. Through a combination of technical expertise, scholarly productivity, and leadership, Professor Gao has earned national and international recognition. As a young academic leader, he continues to push the boundaries of material innovation while fostering the next generation of researchers. With a track record of high-impact publications, prestigious awards, and cross-disciplinary collaboration, he is well-positioned to influence both academic advancements and industrial applications. The trajectory of his career reflects a deep-seated passion for discovery and a vision for materials that are both intelligent and sustainable.

Publications Top Notes

  1. Title: Wood-based triboelectric nanogenerator integrated with superhydrophobicity and photothermal-induced self-healing for high-temperature and high-humidity environment
    Authors: M. Wang, X. Li, D. Lv, P. He, C. Yang, J. Li, L. Gao*
    Year: 2025

  2. Title: High-Loading Single Atoms via Hierarchically Porous Nanospheres for Oxygen Reduction Reaction with Superior Activity and Durability
    Year: 2025

  3. Title: Self-supported N-doped carbon-coupled Ni–Co binary nanoparticle electrodes derived from bionic design of wood cell walls for durable overall water splitting
    Authors: C. Yang, R. Jin, Z. Liu, S. Li, D. Lv, J. Liu, J. Li, Z. Lin*, L. Gao*
    Journal: Journal of Materials Chemistry A
    Year: 2024

  4. Title: Collaborative integration of ultrafine Fe₂P nanocrystals into Fe, N, P-codoped carbon nanoshells for highly-efficient oxygen reduction
    Year: 2023
    Citations: 56

Quanbing Liu | Energy Sustainability | Best Researcher Award

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Prof. Quanbing Liu | Energy Sustainability | Best Researcher Award

Professor of Guangdong University of Technology, China

Professor Quanbing Liu is a distinguished figure in the field of applied chemistry and electrochemical energy systems, currently serving as a full professor and doctoral supervisor at Guangdong University of Technology. With a strong foundation in applied chemistry, he has emerged as a key contributor to innovations in energy storage technologies, including lithium-ion, lithium-sulfur batteries, fuel cells, and supercapacitors. Dr. Liu has led numerous national and industrial research projects, with an extensive portfolio of 118 peer-reviewed scientific publications and 111 patents, showcasing his capacity for both academic excellence and practical innovation. His contributions have significantly advanced China’s energy technology sector. Recognized for his excellence, he holds prestigious titles such as Guangdong “Pearl River Scholar” and Guangzhou “Pearl River Science Star.” Dr. Liu has also served as a science advisor and expert reviewer for national science foundations and has held visiting scholar roles at leading international institutions. His robust collaboration with industry and government, combined with editorial roles in reputed scientific journals, reinforces his standing as a leading applied scientist. He is currently nominated for the Best Researcher Award for his pioneering contributions to the field of electrochemical energy.

Professional Profile

Education

Professor Quanbing Liu’s educational foundation in applied chemistry laid the groundwork for his successful research career. He earned his Bachelor of Science degree in Applied Chemistry from Wuhan Institute of Technology in 2007, where he developed a deep interest in chemical engineering and materials science. He then pursued doctoral studies at the South China University of Technology, completing his Ph.D. in Applied Chemistry in 2012. During his doctoral work, he focused on advanced materials and electrochemical energy systems, setting the stage for his subsequent innovations in lithium-ion battery technologies and energy storage solutions. His academic background has been instrumental in his ability to translate theoretical knowledge into high-impact industrial applications. This strong educational base continues to influence his current roles in mentoring doctoral students and leading breakthrough research at Guangdong University of Technology.

Professional Experience

Professor Liu’s professional journey is marked by a blend of academic, industrial, and governmental engagement. He began his career in research and development roles at the China Electric Power Research Institute (2012–2015), where he worked on lithium battery technologies. This was followed by a strategic role at Guanyu Battery (2015–2016), where he contributed to the commercialization of energy storage solutions. Since 2016, he has served as a Professor and Doctoral Supervisor at Guangdong University of Technology. He has also been a visiting scholar at the University of California, Riverside (UCR) and the Hong Kong University of Science and Technology (HKUST) in 2018, reflecting his international collaboration and research outreach. In 2017, he began serving in advisory roles for the National Natural Science Foundation of China (NSFC). His career trajectory demonstrates a rare ability to bridge academic theory and real-world application, making him an ideal candidate for awards recognizing applied scientific excellence.

Research Interests

Professor Liu’s research is centered on the development of advanced electrochemical energy storage and conversion systems, with a specific focus on lithium-ion and lithium-sulfur batteries, fuel cells, and supercapacitors. His work aims to address critical challenges in the new energy chemical industry by enhancing the energy density, cycle life, and safety of batteries and storage devices. A core component of his research involves material innovation—synthesizing novel electrode and electrolyte materials that improve electrochemical performance. He also investigates mechanisms at the atomic and molecular level using advanced characterization techniques. By integrating theory, experimentation, and industrial needs, Dr. Liu contributes to green energy transition efforts, supporting both electric mobility and large-scale energy storage applications. His projects often receive support from national and defense sectors, reflecting the strategic relevance of his research. Through multidisciplinary collaboration and cutting-edge science, his work plays a vital role in shaping the future of energy technology.

Research Skills

Professor Liu brings a comprehensive skill set in the domain of electrochemical materials and systems, combining deep scientific expertise with practical innovation capabilities. He is adept at battery design, electrode material synthesis, electrochemical performance analysis, and in-situ/operando characterization techniques. His ability to lead multi-disciplinary teams is evident in his coordination of national-level projects, where he integrates knowledge from chemistry, materials science, and electrical engineering. He possesses strong technical writing and presentation skills, having authored over 110 high-impact SCI papers and filed more than 100 patents. His industry exposure allows him to bridge the gap between laboratory findings and product development. Furthermore, Dr. Liu has experience with scientific instrumentation, safety protocols in battery testing, and lifecycle assessment methodologies. As a doctoral mentor and journal editorial board member, he demonstrates critical reviewing and mentoring skills, fostering academic rigor and ethical research standards in the scientific community. His strong analytical mindset and results-oriented approach make him a leader in applied scientific research.

Awards and Honors

Professor Quanbing Liu has received multiple prestigious recognitions for his outstanding contributions to science and technology. He is a recipient of the Guangdong “Pearl River Scholar” and Guangzhou “Pearl River Science Star” titles, awards that highlight top scientific talent in the region. His innovative research on lithium-ion battery systems earned him the Second Prize for Scientific Progress from Guangdong Province. Dr. Liu’s academic impact is further validated by his impressive citation record, with over 2,500 citations of his published works. He is regularly invited to serve as an expert reviewer for China’s Ministry of Science and Technology, the National Natural Science Foundation, and the Guangdong Department of Science and Technology. His achievements also include numerous invitations to editorial boards of high-ranking journals such as Chinese Chemical Letters, Rare Metals, and the Journal of Power Sources. These honors recognize not only his scientific innovation but also his influence on policy, education, and research leadership in China and abroad.

Conclusion

Professor Quanbing Liu embodies the qualities of an outstanding applied scientist—innovation-driven, industry-connected, and academically accomplished. His prolific output, including over 110 journal publications, 111 patents, and several high-impact research projects, stands as a testament to his dedication to advancing electrochemical energy systems. Through sustained collaborations with both international universities and domestic industry, Dr. Liu bridges the gap between fundamental research and practical application. His dual focus on scientific discovery and commercialization has helped shape battery technologies that serve real-world needs in energy storage and electric mobility. As an editorial board member, doctoral mentor, and governmental advisor, he continues to shape the broader research ecosystem in China. His work not only propels forward the field of electrochemical energy but also contributes to the nation’s strategic energy goals. In recognition of his transformative contributions and leadership in applied chemistry, Professor Liu is a deserving nominee for the Best Researcher Award under the Applied Scientist Awards program.

Publications Top Notes

  • Title: Construction of high-throughput interface phase using boron containing anions to regulate solvation structure and achieve high-performance sodium metal batteries
    Year: 2025

  • Title: Research progress on the structure design of nano-silicon anode for high-energy lithium-ion battery
    Year: 2025

  • Title: D-Band Center Modulation of Fe-Doping CoSe₂ to Accelerate Polysulfide Conversion for High-Performance Lithium–Sulfur Battery
    Year: 2025

  • Title: Heterogeneity-Segment Charge-Induced-Coupling Catalysis of Component-Selective-Type Covalent Organic Frameworks Interface toward Stabilizing Lithium Metal Anode
    Year: 2025
    Citations: 1

  • Title: Synthesis of a hollow MoSe₂@MXene anode material for sodium-ion batteries
    Year: 2025
    Citations: 1

  • Title: Functional gel materials for next-generation electrochromic devices and applications
    Type: Review
    Year: 2025

  • Title: Morphology engineering of hollow core@shell structured Co₃O₄@CuO-NiO for fast hydrogen release from ammonia borane methanolysis
    Year: 2025
    Citations: 11

  • Title: Small intestinal structure Ni₂P-CNTs@NHCF nanoreactor accelerating sulfur conversion kinetics for high performance lithium-sulfur batteries
    Year: 2025
    Citations: 3

  • Title: Tuning the Unloading and Infiltrating Behaviors of Li-Ion by a Multiphases Gradient Interphase for High-Rate Lithium Metal Anodes
    Year: 2025
    Citations: 1

  • Title: Sodium Phytate Cross-Linked Polyacrylic Acid as Multifunctional Aqueous Binder Stabilizes LiNi₀.₈Co₀.₁Mn₀.₁O₂ to 4.6 V

Shedrack Mgeni | Energy Sustainability | Applied Research Award

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Mr. Shedrack Mgeni | Energy Sustainability | Applied Research Award

Mkwawa University, Tanzania

Shedrack Thomas Mgeni is a dedicated and accomplished Senior Teacher of Chemistry and Biology with over 17 years of teaching experience. He is passionate about bioenergy research, with a particular focus on bioethanol production from fruit wastes as an alternative energy source. Mgeni holds a Master of Science (Biology) with Education from the University of Dar es Salaam, Tanzania, earned in 2024. His Master’s research, under the supervision of Dr. Lewis Atugonza Mtashobya, Dr. Jovine Kamuhabwa Emmanuel, and Dr. Herieth Rhodes Mero, explored bioethanol production from fruit wastes. He also holds a Bachelor of Science in Chemistry and Biology with Education from Sokoine University of Agriculture (2015) and a Diploma in Secondary Science Education from Morogoro Teacher’s College (2010). Currently, Mgeni teaches at Miyuji Secondary School, Dodoma, where he also serves as the Academic Master and Sports & Games Master. He is widely published in biofuels research and is recognized for his innovative work on circular economy and renewable energy solutions. His dedication to advancing sustainable energy and promoting environmental conservation earned him the University of Dar es Salaam’s Distinguished Innovator of the Year award in 2024.

Professional Profiles

Education

Shedrack Thomas Mgeni has an extensive academic background, showcasing his dedication to science and education. He began his educational journey at Lugoda Primary School in Tanzania (1994–2000), followed by secondary education at Kibao Secondary School (2001–2004) and Kidugala Lutheran Seminary (2005–2007). In 2010, he earned a Diploma in Secondary Science Education (Chemistry and Biology) from Morogoro Teachers College. Building on this foundation, he obtained a Bachelor of Science (Chemistry & Biology) with Education from Sokoine University of Agriculture in 2015. In 2024, he completed his Master of Science (Biology) with Education at the University of Dar es Salaam. His postgraduate research focused on bioethanol production from fruit wastes as a renewable energy source. His diverse educational background reflects his strong foundation in both teaching and scientific research, equipping him with expertise in education, bioenergy, and sustainability.

Professional Experience

Shedrack Thomas Mgeni has an extensive teaching career spanning over 17 years, coupled with leadership roles and research experience. He began as a teacher at Matola Secondary School (2007–2010) in Njombe, where he taught Chemistry and Biology. He later became Head of the Chemistry and Biology departments (2010–2011), overseeing curriculum development and departmental activities. Mgeni also worked as a part-time teacher at St. Gertrude Secondary School in Njombe (2010–2011). His teaching practice (T.P) experiences include Bihawana High School (2013), Morogoro Teachers College (2014), and Mbeya Day High Secondary School (2015). From 2011 to 2015, he taught at Mabatini Secondary School, before moving to Kifanya Secondary School (2016–2021). In 2021, he joined Miyuji Secondary School in Dodoma, where he currently teaches Chemistry and Biology. Since 2022, he has served as the Academic Master, overseeing academic activities, and in 2024, he took on the role of Sports & Games Master, organizing sports events and fostering students’ extracurricular growth.

Research Interests

Shedrack Thomas Mgeni’s primary research interests lie in bioenergy generation, particularly bioethanol production from fruit wastes. His work focuses on exploring renewable energy sources and promoting circular economy practices. Through his research, Mgeni aims to develop sustainable bioenergy alternatives to fossil fuels, contributing to cleaner energy solutions and reducing environmental pollution. His recent studies involve using fruit waste juice enhanced with fermentable sugars, such as sorghum and millet, to increase bioethanol yields. Additionally, he is interested in converting bioethanol into value-added products, promoting waste recycling, and contributing to environmental conservation. Mgeni is committed to advancing biofuel technology and promoting sustainable practices, which aligns with global efforts toward cleaner and greener energy sources. His research directly contributes to renewable energy innovation and circular economy advancement.

Research Skills

Shedrack Thomas Mgeni possesses a diverse set of research skills, particularly in bioenergy production and sustainable waste management. His expertise includes bioethanol production processes, fermentation techniques, and bio-waste recycling. He is proficient in laboratory experimentation, biofuel yield optimization, and the application of sorghum and millet as fermentable sugar enhancers. Mgeni has extensive skills in experimental design, data analysis, and scientific documentation, demonstrated by his publications in peer-reviewed journals. His technical skills extend to biofuel characterization, evaluating the efficiency and quality of bioethanol produced from fruit wastes. Additionally, Mgeni is adept at academic writing, having co-authored multiple journal articles and review papers. His skills in presenting research findings at conferences, such as the University of Dar es Salaam Research and Innovation Week, showcase his ability to effectively communicate scientific results.

Awards and Honors

Shedrack Thomas Mgeni is recognized for his outstanding contributions to bioenergy research and innovation. In 2024, he was awarded the First Winner for Best Innovator of the Year during the 9th University of Dar es Salaam Research and Innovation Week at Mkwawa University College of Education. His award-winning project, titled Preparation of Value-Added Products Using Bioethanol Produced from Fruit Wastes, highlighted his innovative approach to renewable energy production. Additionally, Mgeni received the First Winner for Best Innovator of the Year award at the 9th University of Dar es Salaam Research and Innovation Week held from June 5th to 7th, 2024, for the same project. These prestigious awards underscore his significant contributions to sustainable energy research and his impact on promoting environmentally friendly technologies. His recognition as a distinguished innovator showcases his dedication to advancing bioenergy solutions.

Conclusion

Shedrack Thomas Mgeni is a highly accomplished educator and researcher with a strong commitment to advancing sustainable energy solutions. His expertise in bioethanol production from fruit wastes, coupled with his dedication to promoting circular economy practices, highlights his impactful contributions to renewable energy research. With over 17 years of teaching experience, Mgeni plays a vital role in shaping the academic and extracurricular development of students at Miyuji Secondary School. His numerous publications in biofuels research reflect his scholarly excellence and scientific impact. Through his innovative projects, Mgeni has demonstrated a keen ability to develop practical solutions to environmental challenges. His recognition as the Best Innovator of the Year underscores his influence in bioenergy innovation. Mgeni’s ongoing work in biofuel generation and his passion for education position him as a key advocate for cleaner energy and sustainable practices, driving positive change in both academia and society.

 Publications Top Notes

  1. Title: Bioethanol production from fruit wastes juice using millet and sorghum as additional fermentable sugar

    • Authors: Shedrack Thomas Mgeni, Lewis Atugonza Mtashobya, Jovine Kamuhabwa Emmanuel

    • Year: 2025

  2. Title: Potential Contributions of Banana Fruits and Residues to Multiple Applications: An Overview

    • Authors: Jovine Kamuhabwa Emmanuel, Lewis Atugonza Mtashobya, Shedrack Thomas Mgeni

    • Year: 2025

  3. Title: Bioethanol production from pineapple fruit waste juice using bakery yeast

    • Authors: Shedrack Thomas Mgeni, Lewis Atugonza Mtashobya, Jovine Kamuhabwa Emmanuel

    • Year: 2024

  4. Title: The prospect of fruit wastes in bioethanol production: A review

    • Authors: Shedrack Thomas Mgeni, Herieth Rhodes Mero, Lewis Atugonza Mtashobya, Jovine Kamuhabwa Emmanuel

    • Year: 2024