Jinlong Wang | Materials Science | Best Researcher Award

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Assoc. Prof. Dr. Jinlong Wang | Materials Science | Best Researcher Award

Teacher at Tongling University, China

Wang Jinlong is a highly accomplished researcher in the field of condensed matter physics, with a specialization in the study of materials used in nuclear fusion devices. He has an extensive background in material simulation using first-principles and molecular dynamics methods, with a focus on the behavior of tungsten under helium irradiation. His work contributes significantly to understanding the properties of materials used in high-energy environments, specifically in fusion reactors. Wang’s research is not only academically rich but also practically relevant, as it informs the development of better materials for nuclear fusion technology. His contributions extend to the publication of numerous papers in leading journals, the co-authoring of textbooks, and leading several high-profile research projects. Throughout his career, he has demonstrated expertise in computational modeling and material science, cementing his reputation as a leader in his field.

Professional Profile

Education

Wang Jinlong’s educational journey reflects his dedication to condensed matter physics and material science. He completed his Ph.D. in Condensed Matter Physics at Beihang University in January 2016, under the guidance of leading experts in the field. Before that, he earned a Master’s degree in Condensed Matter Physics from Henan Normal University in 2011 and a Bachelor’s degree in Applied Physics from Henan University of Technology in 2008. His solid academic background provided a strong foundation for his research career, particularly in the areas of material simulation and nuclear fusion. After his doctoral studies, he pursued postdoctoral research in nuclear science and technology at the Hefei Institute of Plasma Physics, where he advanced his expertise in the field.

Professional Experience

Wang Jinlong’s professional experience spans academia and research institutions. From 2016 to 2022, he served as an Associate Professor at Xinxiang University, where he taught courses on electrodynamics, electromagnetic fields and waves, university physics, and MATLAB programming. His teaching responsibilities have been complemented by his active research career, contributing to multiple scientific projects and collaborations. His experience as a project leader on research related to the irradiation damage mechanisms in nuclear fusion materials further highlights his leadership and expertise in his field. Wang’s professional trajectory reflects his strong combination of academic teaching, research leadership, and significant contributions to scientific knowledge in the area of materials science.

Research Interests

Wang Jinlong’s primary research interests lie in the area of condensed matter physics, with a specific focus on material simulations using first-principles and molecular dynamics. His work is deeply concerned with understanding the mechanical, thermal, and electronic properties of materials under extreme conditions, especially in the context of nuclear fusion. One of his key research areas is studying the effects of helium irradiation on tungsten, a material widely used in fusion reactors. He aims to understand how helium atoms behave within tungsten, specifically their clustering and migration behavior, which can have profound implications for the material’s performance under fusion conditions. Additionally, Wang’s research also delves into other material properties, such as heat resistance and mechanical strength, contributing to the development of better materials for future nuclear energy applications.

Research Skills

Wang Jinlong’s research skills are extensive and include expertise in computational modeling and material science. He is highly skilled in using software such as C++ and Python for developing machine learning-based molecular dynamics force fields. His proficiency in first-principles simulations enables him to model complex materials at the atomic level, providing valuable insights into their behavior under various conditions. Wang’s research also involves advanced simulation techniques to study the interactions between helium atoms and materials, which is critical for understanding irradiation damage in nuclear fusion reactors. Furthermore, his experience in using various computational tools for materials modeling, combined with his solid theoretical knowledge in condensed matter physics, allows him to approach complex problems from a variety of angles, making him a versatile researcher in the field.

Awards and Honors

Throughout his career, Wang Jinlong has received several prestigious awards and honors that recognize his outstanding contributions to the field of condensed matter physics. His research has been funded by major national and provincial scientific organizations, including the National Natural Science Foundation of China and the Henan Provincial Department of Education. His leadership in several research projects, particularly those focused on nuclear fusion materials, has garnered recognition within the academic community. Wang has published multiple high-impact papers in leading scientific journals such as Nuclear Materials and Energy and Journal of Nuclear Materials, further establishing his reputation in the field. Additionally, he has been honored for his academic achievements through co-authoring books on intelligent science and technology, solidifying his role as both a researcher and educator.

Conclusion

Wang Jinlong is a highly qualified candidate for the Best Researcher Award, given his substantial contributions to the field of condensed matter physics, particularly in the context of nuclear fusion. His leadership in groundbreaking research, strong publication record, and academic contributions underscore his exceptional abilities. To further strengthen his position, expanding collaborations and increasing public engagement with his research would be beneficial. His ongoing work on the development of nuclear fusion materials is highly significant, marking him as a leader in his field with the potential to drive future advancements.

Publication Top Notes

  • B-N Co-Doped Graphene: Stability and Catalytic Activity in Oxygen Reduction Reaction – A Theoretical Insight
    • Authors: Wang, J., Guo, J., Liu, Y.-Y., Li, X.-C., Song, W.
    • Year: 2024
    • Journal: ChemPhysChem
    • Volume: 25
    • Issue: 20
    • Citations: 1
  • Phosphorus and nitrogen co-doped-graphene: Stability and catalytic activity in oxygen reduction reaction
    • Authors: Guo, J., Shao, W., Yan, H., Wang, J., Li, X.-C.
    • Year: 2024
    • Journal: Carbon Trends
    • Volume: 16
    • Article: 100379
  • Molecular dynamics investigation of dislocation-hydrogen/helium interactions in tungsten
    • Authors: Xu, B.-C., Li, X.-C., Wang, J., Zhou, H.-S., Luo, G.-N.
    • Year: 2024
    • Journal: Journal of Nuclear Materials
    • Volume: 592
    • Article: 154948
    • Citations: 2
  • Possible approaches for simulating the formation of fuzz structure on tungsten surface under helium irradiation
    • Authors: Wang, J., Guo, J., Liu, Y.-Y., Li, X.-C., Luo, G.-N.
    • Year: 2024
    • Journal: Computational Materials Science
    • Volume: 235
    • Article: 112807
  • A DFT Investigation of B-Doped C3N as Single Atom Electrocatalysts for N2-to-NH3 Conversion
    • Authors: Ma, P., Du, P., Song, W., Wang, J.
    • Year: 2024
    • Journal: ChemPhysChem
    • Volume: 25
    • Issue: 2
    • Article: e202300497
    • Citations: 1
  • Diffusion and incidence of helium on tungsten surface
    • Authors: Wang, J., Guo, J., He, B., Li, X.-C., Luo, G.-N.
    • Year: 2023
    • Journal: Journal of Nuclear Materials
    • Volume: 586
    • Article: 154689
    • Citations: 4
  • Interaction of 1/2〈111〉 interstitial dislocation loop with hydrogen and helium in tungsten: molecular dynamics simulation
    • Authors: Xu, B.-C., Li, X.-C., Wang, J., Zhou, H.-S., Luo, G.-N.
    • Year: 2023
    • Journal: Materials Research Express
    • Volume: 10
    • Issue: 8
    • Article: 086509
    • Citations: 4
  • Atomic study of the trapped and migration patterns of point defects around screw dislocation in tungsten
    • Authors: Xu, B.-C., Li, X.-C., Wang, J., Zhou, H.-S., Luo, G.-N.
    • Year: 2023
    • Journal: Nuclear Materials and Energy
    • Volume: 34
    • Article: 101400
    • Citations: 3
  • First-principles insight of hydrogen dissolution and diffusion properties in γ-Al2O3
    • Authors: Pan, X.-D., Li, X.-C., Wang, J., Zhou, H.-S., Luo, G.-N.
    • Year: 2023
    • Journal: Journal of Nuclear Materials
    • Volume: 574
    • Article: 154156
    • Citations: 3
  • Molecular dynamics study on melting point of tungsten nanostructures
    • Authors: Wang, J., Chai, J., Dang, W., Li, X.-C., Luo, G.-N.
    • Year: 2022
    • Journal: Nuclear Materials and Energy
    • Volume: 33
    • Article: 101260
    • Citations: 4

 

Feng Yu | Composite Structures | Best Researcher Award

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Mr. Feng Yu | Composite Structures | Best Researcher Award

Professor/Dean at Anhui University of Technology, China

Feng Yu is an accomplished scholar and leading figure in civil engineering with expertise in composite structures, the application of Fiber Reinforced Polymer (FRP) materials, and the development of sustainable building solutions. Serving as Dean of the School of Civil Engineering at Anhui University of Technology, he holds multiple prestigious titles, including Wanjiang Scholar Distinguished Professor and Anhui Province Outstanding Young Scientist. His career is marked by significant academic contributions, including 145 published papers—81 of which are SCI-indexed—demonstrating his dedication to advancing civil engineering technology and sustainability. Feng Yu also leads critical industry-focused research as the Director of the Anhui Metallurgical Solid Waste Green Construction Engineering Technology Research Center and has secured funding for numerous national projects. His practical achievements include 30 invention patents and participation in setting industry standards. Feng Yu’s commitment to teaching, mentorship, and technological innovation highlights his influence and dedication to advancing civil engineering and supporting young researchers in the field.

Professional Profile

Education

Feng Yu’s academic journey in civil engineering is distinguished by advanced degrees from top Chinese institutions. He completed his Bachelor’s degree in Civil Engineering at Nanchang University in 2002. Subsequently, he pursued a Master’s degree (2002–2005) and a Ph.D. (2004–2007) in Structural Engineering at Xi’an University of Architecture and Technology. This dual focus provided him with a comprehensive foundation in structural engineering principles, materials science, and innovative civil engineering applications. His expertise was further refined through a postdoctoral fellowship at Chang’an University (2007–2009), where he researched under a distinguished supervisor, focusing on composite materials and structural integrity. This extensive educational background laid a solid foundation for his future research in composite structures, FRP applications, and concrete durability. His academic achievements positioned him well for an influential role in civil engineering, both in academia and in practical engineering solutions for industry challenges.

Professional Experience

Feng Yu has developed an impressive professional trajectory since 2008, primarily at Anhui University of Technology’s School of Civil Engineering, where he has progressed from lecturer to professor and Dean of the School. His roles extend beyond academia, as he serves as Director of the Anhui Metallurgical Solid Waste Green Construction Engineering Technology Research Center and holds leadership positions in various engineering organizations, such as the China Steel Structure Association. His work emphasizes sustainable engineering practices, the application of solid waste materials, and the reinforcement of engineering structures. As a distinguished academic leader, Feng Yu also contributes significantly to standards and policy development in China’s construction industry. His professional background illustrates a commitment to bridging academic research with practical engineering applications and policy, enhancing both the academic landscape and industrial practices in civil engineering.

Research Interests

Feng Yu’s research focuses on the innovative application of composite materials in civil engineering, specifically in FRP materials for structure reinforcement and sustainable building practices. His work addresses critical issues in engineering maintenance, the durability of concrete structures, and the use of solid waste in construction, aligning with global sustainability goals. His projects often explore ways to improve the resilience and longevity of civil infrastructure, making substantial contributions to sustainable engineering. Feng Yu is particularly interested in FRP-reinforced concrete structures, which offer durability and environmental benefits by utilizing advanced composite materials. His research efforts aim to integrate eco-friendly solutions into traditional civil engineering practices, paving the way for greener construction technologies and resilient infrastructures that address modern environmental challenges.

Research Skills

Feng Yu is highly skilled in structural analysis, materials testing, and composite design, with particular expertise in FRP applications and concrete durability testing. His work involves advanced experimental techniques and simulations to assess the mechanical behavior of composite materials under various conditions. Feng Yu’s experience in managing large-scale, multi-disciplinary research projects demonstrates his strengths in project coordination, data analysis, and problem-solving within civil engineering contexts. Additionally, he possesses significant expertise in developing and evaluating sustainable materials, such as the use of solid waste in civil engineering, which requires an intricate understanding of material properties and environmental impact assessments. His research skills are complemented by his ability to lead cross-functional teams, secure funding, and manage technical collaborations with academic and industrial stakeholders.

Awards and Honors

Feng Yu’s contributions to civil engineering have earned him numerous accolades, both for his scientific research and his teaching. Recognized as a Wanjiang Scholar Distinguished Professor, he is celebrated for his outstanding contributions to composite materials and FRP applications. He has been honored with awards from the China Steel Structure Association, including first prizes for science and technology achievements. Additionally, he received the Anhui Province Outstanding Young Scientist Award, acknowledging his leadership and technical contributions in civil engineering. Feng Yu has also been awarded provincial and ministerial prizes for his teaching and research efforts, emphasizing his commitment to both academic excellence and practical impact. His honors reflect a career dedicated to advancing the field of civil engineering, from pioneering sustainable building materials to supporting the next generation of engineers.

Conclusion

Feng Yu is a well-qualified candidate for the Young Scientist Award in Research, particularly due to his contributions in civil engineering materials, innovation in FRP applications, and dedication to sustainable building practices. With an impressive record in academic publication, industry standards, and national research leadership, he embodies the qualities sought in this award. With enhanced international collaboration and further diversification of research themes, Feng Yu’s work could achieve even broader impact in the field. Overall, his achievements and potential for future advancements make him a strong nominee for the award.

Publications Top Publications

  1. Crack-healing and rheological properties of high content fly ash/slag/silica fume green and sustainable cement-based materials incorporating crystalline admixture and calcium alginate biomass hydrogel
    • Authors: He, P., Yu, F., Yu, J., Yang, Z., Zhang, S.
    • Journal: Case Studies in Construction Materials, 2024, Vol. 21, Article e03598
  2. Experimental study on PVC-CFRP confined concrete column-beam interior joint reinforced with core steel tube under low cyclic loading
    • Authors: Yu, F., Liu, W., Feng, C., Fang, Y.
    • Journal: Archives of Civil and Mechanical Engineering, 2024, Vol. 24(4), Article 213
  3. Investigation on chloride resistance of high-volume slag low-carbon cement-based materials with crystalline admixture under seawater
    • Authors: He, P., Yu, J., Yu, F., Fang, Y., Du, W.
    • Journal: Journal of Materials Science, 2024, Vol. 59(37), pp. 17708–17729
  4. A MODEL FOR PREDICTING THE MOMENT-CURVATURE BEHAVIOR OF STEEL TUBE CONFINED REINFORCED SELF-STRESSING STEEL SLAG CONCRETE COLUMNS UNDER CYCLIC LOADING
    • Authors: Yu, F., Liu, W., Bu, S.-S., Kuang, G.-F., Fang, Y.
    • Journal: Advanced Steel Construction, 2024, Vol. 20(3), pp. 310–318
  5. Flexural performance tests and numerical analysis of fabricated light-gauge steel reinforced foam concrete filled steel mesh formwork wallboards
    • Authors: Yu, F., Kuang, G., Bu, S., Chen, L.
    • Journal: Structures, 2024, Vol. 66, Article 106813
  6. A review of the application of steel slag in concrete
    • Authors: Li, Y., Liu, F., Yu, F., Du, T.
    • Journal: Structures, 2024, Vol. 63, Article 106352
    • Citations: 8
  7. Finite element analysis of the seismic performance of PVC-CFRP confined concrete column-ring beam interior joints
    • Authors: Yu, F., Xu, B., Wu, C., Fang, Y., Lin, X.
    • Journal: Structures, 2024, Vol. 62, Article 106186
  8. Influence of joint forms on the seismic behavior of concrete-filled PVC-CFRP tubular column-RC beam joints connected with core steel tubes
    • Authors: Yu, F., Xu, B., Wang, J., Chen, Z., Zhang, Y.
    • Journal: Engineering Structures, 2024, Vol. 303, Article 117499
    • Citations: 1
  9. Flexural behavior evaluation of PET foam core curved sandwich beam: Experimental study and numerical simulation
    • Authors: Xie, H., Hou, X., Fang, H., Fang, Y., Yu, F.
    • Journal: Construction and Building Materials, 2024, Vol. 414, Article 135000
    • Citations: 4
  10. Flexural behavior evaluation of a foam core curved sandwich beam
    • Authors: Xie, H., Li, W., Fang, H., Fang, Y., Yu, F.
    • Journal: Composite Structures, 2024, Vol. 328, Article 117729
    • Citations: 11

 

Mohammad Ehtisham Khan | Chemical Engineering | Outstanding Scientists Awards

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Mohammad Ehtisham Khan | Chemical Engineering | Outstanding Scientists Awards

Assistant Professor at Jazan University, Saudi Arabia.

Dr. Mohammad Ehtisham Khan is an Assistant Professor in the Department of Chemical Engineering at Jazan University, Saudi Arabia. With a robust academic and research background, he specializes in nanotechnology, wastewater treatment, and environmental remediation. Dr. Khan has published numerous high-impact research articles in leading journals and has played a key role in advancing chemical engineering technologies, particularly in sustainable practices for water purification. His work spans diverse fields including nanocomposites, biosensors, and renewable energy applications, showcasing his commitment to addressing environmental challenges. Dr. Khan’s international exposure through postdoctoral research in South Korea and extensive experience in academia highlights his dedication to fostering scientific innovation. He has earned multiple prestigious awards and consistently contributes to scientific literature, editorial responsibilities, and advanced research projects, further solidifying his reputation as a leading researcher in his field.

Profile👤

Google Scholar

Education📝

Dr. Khan holds a Ph.D. in Chemical Engineering from Yeungnam University, South Korea, where he completed a dissertation on graphene-based nanocomposites for photocatalytic and photoelectrochemical applications. His doctoral research encompassed advanced coursework and experimental work, achieving an A+ in all subjects. Prior to his Ph.D., he earned a Master’s in Technology (M. Tech) in a related engineering discipline. He also undertook a postdoctoral research position at the same university, contributing to cutting-edge studies in chemical engineering. His academic journey is marked by a strong focus on nanotechnology and environmental sciences, equipping him with the expertise to address complex challenges in water purification and renewable energy systems. His education, combined with his global exposure, positions him as an expert in chemical engineering technology.

Experience👨‍🏫

Dr. Khan has accumulated a wealth of academic and research experience. He is currently an Assistant Professor in the Department of Chemical Engineering at Jazan University, where he has been since 2018. Prior to this, he held a postdoctoral research associate position at Yeungnam University, South Korea, working on advanced chemical engineering projects. Dr. Khan also served as a researcher at the Institute of Clean Technology and the School of Chemical Engineering at Yeungnam University, focusing on sustainable technologies for environmental applications. Additionally, he has taken on administrative responsibilities as the head of the Chemical Engineering Technology Department at Jazan University, overseeing academic programs and student projects. His experience also includes supervising final-year projects, mentoring undergraduate students, and managing multiple funded research projects.

Research Interest🔬 

Dr. Khan’s primary research interests lie in the development of nanotechnology-based solutions for environmental and industrial applications. His work focuses on the synthesis of nanocomposites and their use in photocatalytic and photoelectrochemical processes, particularly for water treatment and energy applications. He is also deeply involved in the fabrication of biosensors for environmental monitoring and medical diagnostics. Dr. Khan is interested in the intersection of chemical engineering with sustainability, exploring carbon-based nanomaterials for wastewater purification and renewable energy storage. His ongoing research includes projects on smart nanostructured catalysts, recycling of wastewater, and the development of affordable, environmentally-friendly materials for energy and environmental applications. His expertise positions him at the forefront of efforts to address global environmental challenges through innovative chemical engineering technologies.

Awards and Honors🏆

Dr. Khan has been recognized for his significant contributions to chemical engineering and environmental science. He was listed among the top 2% of scientists in the world based on a 2023 analysis by Stanford University. He has also received the prestigious “Best Young Scientist Award (Male)” at the International Academic and Research Excellence Awards (IARE) in 2019. Additionally, he has been appointed as the “Bentham Brand Ambassador” by the Editor-in-Chief of the journal Current Medicinal Chemistry, a reflection of his influence in the scientific community. He is also a member of several editorial boards of international journals, further acknowledging his role in shaping the field through peer review and scientific discourse. His achievements underscore his dedication to advancing research in chemical engineering and environmental sustainability.

Skills🛠️

Dr. Khan possesses a comprehensive skill set that spans across chemical engineering, nanotechnology, and environmental sciences. He has expertise in the synthesis and characterization of nanocomposites, specifically for use in photocatalytic, photoelectrochemical, and biosensor applications. His technical skills also include advanced laboratory techniques, project management, and the use of analytical tools for environmental monitoring. As an academic, he has strong teaching and mentoring skills, having supervised numerous final-year student projects and managed research teams. Dr. Khan is also proficient in coordinating interdisciplinary research projects, as demonstrated by his leadership roles in various funded initiatives. His skills in scientific writing, peer review, and editorial responsibilities are further enhanced by his contributions to high-impact journals and international conferences.

Conclusion 🔍 

Dr. Mohammad Ehtisham Khan is a distinguished academic and researcher whose contributions to chemical engineering and environmental sustainability have earned him international recognition. His extensive research in nanotechnology, particularly in the development of materials for water purification and renewable energy, aligns with global efforts to combat environmental degradation. Dr. Khan’s expertise, coupled with his leadership roles in academia, make him a strong candidate for research-focused awards. His accolades, including being listed among the top 2% of scientists, highlight his impact on the field. Overall, his dedication to advancing chemical engineering technologies, mentoring students, and contributing to scientific discourse solidifies his position as a leading figure in his field.

Publication Top Notes

A focused review on organic electrochemical transistors: A potential futuristic technological application in microelectronics
Authors: A Raza, U Farooq, K Naseem, S Alam, ME Khan, A Mohammad, W Zakri, et al.
Year: 2024
Journal: Microchemical Journal, Article 111737

Comparative analysis of dye degradation methods: Unveiling the most effective and environmentally sustainable approaches, a critical review
Authors: FU Nisa, K Naseem, A Aziz, W Hassan, N Fatima, J Najeeb, SU Rehman, et al.
Year: 2024
Journal: Review in Inorganic Chemistry, Vol. 1, pp. 1-27

Advancement in optical and dielectric properties of unsaturated polyester resin/zinc oxide nanocomposite: Synthesis to application in electronics
Authors: H Noor, A Zafar, A Raza, A Baqi, U Farooq, ME Khan, W Ali, SK Ali, et al.
Year: 2024
Journal: Journal of Materials Science: Materials in Electronics, Vol. 35(23), pp. 1598
Citations: 1

Excellent electrochemical performance of N and Mn doped NiCo2O4 functional nanostructures: An effective approach for symmetric supercapacitor application
Authors: A Sasmal, AK Nayak, ME Khan, W Ali, SK Ali, AH Bashiri
Year: 2024
Journal: Physica Scripta, Vol. 99(8), Article 085919

Fabrication and characterization of binary composite MgO/CuO nanostructures for the efficient photocatalytic ability to eliminate organic contaminants: A detailed spectroscopic analysis
Authors: U Farooq, M Raza, SA Khan, S Alam, ME Khan, W Ali, W Al Zoubi, SK Ali, et al.
Year: 2024
Journal: Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, Vol. 315, Article 124264
Citations: 9

Insight into mechanism of excellent visible-light photocatalytic activity of CuO/MgO/ZnO nanocomposite for advanced solution of environmental remediation
Authors: M Imran, M Raza, H Noor, SM Faraz, A Raza, U Farooq, ME Khan, SK Ali, et al.
Year: 2024
Journal: Chemosphere, Vol. 359, Article 142224
Citations: 5

An affordable label-free ultrasensitive immunosensor based on gold nanoparticles deposited on glassy carbon electrode for the transferrin receptor detection
Authors: A Ahmad, G Rabbani, MA Zamzami, S Hosawi, OA Baothman, H Altayeb, ME Khan, et al.
Year: 2024
Journal: International Journal of Biological Macromolecules, Vol. 273(2), Article 133083
Citations: 3

Computational Drug Discovery of Medicinal Compounds for Cancer Management -Volume II
Authors: K Ahmad, S Shaikh, FI Khan, ME Khan
Year: 2024
Journal: Frontiers in Chemistry, Vol. 1, Article 1446510

Temperature and pressure dependent tunable GaAsSb/InGaAs QW heterostructure for application in IR-photodetector
Authors: W Ali, AM Quraishi, K Kumawat, ME Khan, SK Ali, AU Khan, AH Bashiri, et al.
Year: 2024
Journal: Physica E: Low-dimensional Systems and Nanostructures, Vol. 160, Article 115939

Solving the fouling mechanisms in composite membranes for water purification: An advanced approach
Authors: Y Ezaier, A Hader, A Latif, ME Khan, W Ali, SK Ali, AU Khan, AH Bashiri, et al.
Year: 2024
Journal: Environmental Research, Vol. 250, Article 118487
Citations: 4

Synthesis and characterization of X (X= Ni or Fe) modified BaTiO3 for effective degradation of Reactive Red 120 dye under UV-A light and its biological activity
Authors: K Balu, T Abisheik, T Niyitanga, S Kumaravel, W Ali, ME Khan, SK Ali, et al.
Year: 2024
Journal: Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, Article 124556
Citations: 1

Applications of nanomedicine-integrated phototherapeutic agents in cancer theranostics: A comprehensive review of the current state of research
Authors: A Shoaib, S Javed, M Tabish, ME Khan, M Zaki, SS Alqahtani, MH Sultan, et al.
Year: 2024
Journal: Nanotechnology Reviews, Vol. 13, Article 20240023

Preparation and Spectrochemical characterization of Ni-doped ZnS nanocomposite for effective removal of emerging contaminants and hydrogen production: Reaction kinetics and mechanisms
Authors: M Raza, U Farooq, SA Khan, Z Ullah, ME Khan, SK Ali, OY Bakather, et al.
Year: 2024
Journal: Spectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy, Article 124513
Citations: 6

Non-Enzymatic Glucose Sensors Composed of Polyaniline Nanofibers with High Electrochemical Performance
Authors: N Sobahi, MM Alam, M Imran, ME Khan, A Mohammad, T Yoon, et al.
Year: 2024
Journal: Molecules, Vol. 29(11), Article 2439

Sustainable Engineering Solutions Award

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Introduction Sustainable Engineering Solutions Award

Welcome to the forefront of innovation where engineering meets sustainability. The Sustainable Engineering Solutions Award honors visionaries driving change in the engineering landscape by creating sustainable solutions that address pressing global challenges. Join us in celebrating those who are shaping a future where engineering not only solves problems but does so responsibly and sustainably.

About the Award:

The Sustainable Engineering Solutions Award is open to engineers and teams committed to crafting solutions that balance technological advancement with environmental responsibility. Eligibility extends to all age groups, recognizing the importance of diverse perspectives in creating sustainable change.

Qualifications and Publications:

Candidates should showcase a commitment to sustainable engineering through academic qualifications, practical experience, or a combination of both. While there are no age restrictions, qualifications may include relevant degrees and a portfolio of publications highlighting the impact of sustainable solutions.

Evaluation Criteria:

The evaluation process emphasizes the sustainability, scalability, and real-world impact of the nominee's engineering solutions. Judges will assess the innovation's contribution to solving environmental challenges and promoting sustainable practices.

Submission Guidelines:

Applicants are encouraged to submit a comprehensive biography, an abstract detailing their sustainable engineering project, and supporting files illustrating the project's implementation and environmental impact. All submissions must adhere to the specified guidelines for fair and thorough evaluation.

Recognition and Community Impact:

The Sustainable Engineering Solutions Award not only celebrates individual accomplishments but also recognizes the broader influence on the engineering and sustainability communities. Winners become ambassadors for responsible engineering, inspiring others to prioritize sustainability in their projects.

Biography, Abstract, and Supporting Files:

Craft a compelling biography that narrates your journey in sustainable engineering. The abstract should succinctly convey the project's goals and environmental impact, while supporting files offer a tangible view of the project's implementation and outcomes.

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