Yu Shen | Environment and Ecology | Best Researcher Award

Prof Dr. Yu Shen | Environment and Ecology | Best Researcher Award🏆

Nanjing Forestry University, China

Author Profile

Early Academic Pursuits

His academic journey began with a Bachelor's degree in Biological Science from Nanjing Forestry University in 2011. Subsequently, he pursued a Master's degree in Environmental Science under the supervision of Dr. Yanming Fang at the same institution, demonstrating an early interest in environmental studies. His educational trajectory culminated in a Ph.D. in Agricultural Engineering supervised by Dr. Xinhua Zhan at Nanjing Agricultural University from 2015 to 2018. This foundational education equipped him with a robust interdisciplinary background spanning biology, environmental science, and agricultural engineering.

Professional Endeavors

Following his doctoral studies, Yu Shen embarked on a series of impactful professional endeavors. He engaged in postdoctoral research at the University of South Carolina and later at the Center of Sustainable Nanotechnology, University of Madison-Wisconsin. These experiences broadened his expertise and exposed him to cutting-edge research methodologies in environmental science and chemistry. His  research has centered on critical issues in environmental science, particularly focusing on the fate of environmental organic contaminants and nano-biased plant immunity in both environmental and agricultural contexts. His work addresses pressing challenges such as the impact of nanoparticles on agricultural systems and the development of innovative solutions for environmental remediation. Through his projects and publications, he has contributed significantly to advancing understanding in these areas.

Accolades and Recognition

His contributions have earned him recognition within the scientific community. He has received grants to support his research, including the prestigious ASPIRE grant for his work on apoplastic peptides in plant immunity. Additionally, his efforts have been acknowledged through patents that highlight the practical applications of his research findings.

Impact and Influence

His work has made a tangible impact on both academia and industry. His publications in reputable journals and participation as a guest editor demonstrate his scholarly influence. Furthermore, his patents underscore the translational relevance of his research, indicating potential applications in environmental protection and agricultural sustainability.

Legacy and Future Contributions

Looking ahead, Yu Shen's legacy lies in his commitment to addressing pressing environmental challenges through interdisciplinary research. His supervision of graduate students and engagement with professional affiliations reflect his dedication to nurturing the next generation of scientists and fostering collaborations across disciplines. As he continues his academic journey, Yu Shen is poised to make further contributions to environmental science and shape the future of sustainable agriculture.

Citations

A total of  1215 citations for his publications, demonstrating the impact and recognition of his research within the academic community.

  • Citations           1215
  • h-index              20
  • i10-index           29

Notable Publications 

Silica Nanoparticle Dissolution Rate Controls the Suppression of Fusarium Wilt of Watermelon (Citrullus lanatus)

Apoplastic and symplastic uptake of phenanthrene in wheat roots

Role of nano-biochar in attenuating the allelopathic effect from Imperata cylindrica on rice seedlings

Copper nanomaterial morphology and composition control foliar transfer through the cuticle and mediate resistance to root fungal disease in tomato (Solanum lycopersicum)

Metalloid and metal oxide nanoparticles suppress sudden death syndrome of soybean

Emerging investigator series: molecular mechanisms of plant salinity stress tolerance improvement by seed priming with cerium oxide nanoparticles

Advanced material modulation of nutritional and phytohormone status alleviates damage from soybean sudden death syndrome

Carotenoid and superoxide dismutase are the most effective antioxidants participating in ROS scavenging in phenanthrene accumulated wheat leaf

Mechanism of zinc oxide nanoparticle entry into wheat seedling leaves

 

Lingfeng Long | Biomass Valorization | Best Researcher Award

Assoc Prof Dr. Lingfeng Long | Biomass Valorization | Best Researcher Award

Jiangnan University, China

Author Profile

Early Academic Pursuits

Dr. Lingfeng Long embarked on his academic journey with a Bachelor's degree in Chemical Engineering from Nanjing Forestry University, China, in 2013. He continued his educational pursuit with a Ph.D. in Chemical Engineering of Forest Products from the same university, graduating in 2019. During his doctoral studies, Dr. Long also broadened his academic horizons through visiting research positions at prominent institutions such as the Georgia Institute of Technology, USA, and the University of British Columbia, Canada.

Professional Endeavors

Following his doctoral studies, He transitioned into various professional roles within academia. He began his postdoctoral career as a Postdoctoral Fellow at Jiangnan University, China, where he conducted research in the School of Biotechnology from 2020 to 2021. Subsequently, he assumed the position of Lecturer at the same institution before being promoted to Associate Professor in 2022, where he continues to contribute to the field of biotechnology and biomass valorization.

Contributions and Research Focus

His research interests revolve around biomass valorization and the development of bioinspired materials/systems for energy, environmental, and biomedical applications. His work encompasses areas such as metabolic engineering, bioenergy, and biotechnology. Through his innovative research, Dr. Long aims to address pressing global challenges related to sustainable energy production, environmental conservation, and healthcare.

Accolades and Recognition

His contributions to the field have been recognized with several prestigious awards and distinctions. These include the Postdoctoral Innovative Talent Support Program (Boxin plan) in 2020, the "Shuangchuang Program" of Jiangsu Province in 2022, the High-Level Talent of Jining City in 2023, and the Outstanding Postdoctoral Fellow in National Innovation and Entrepreneurship in 2023. These accolades underscore his exceptional achievements and contributions to the field of biotechnology.

Impact and Influence

Dr. Lingfeng Long's research has made a significant impact on the field of biomass valorization and biotechnology. His innovative work in developing bioinspired materials and systems has the potential to revolutionize various industries, including energy, environment, and healthcare. Through his patents, research grants, and publications, Dr. Long continues to influence and inspire fellow researchers and students alike.

Legacy and Future Contributions

As His career progresses, his legacy in the field of biotechnology and biomass valorization is poised to grow further. With a track record of successful research projects, patents, and publications, he is well-positioned to continue making significant contributions to sustainable development and innovation. Dr. Long's future endeavors are likely to focus on advancing our understanding of biomass valorization and translating research findings into real-world applications for the betterment of society.

Citations

  • Citations               164
  • h-index                  6
  • Documents          11

Notable Publications 

Improved secretory expression and characterization of thermostable xylanase and β-xylosidase from Pseudothermotoga thermarum and their application in synergistic degradation of lignocellulose
Chen, J., Qin, H., You, C., Long, L.

Advances in lytic polysaccharide monooxygenases with the cellulose-degrading auxiliary activity family 9 to facilitate cellulose degradation for biorefinery
Long, L., Hu, Y., Sun, F., ...Hao, Z., Yin, H.

Constructing a bacterial cellulose-based bacterial sensor platform by enhancing cell affinity: Via a surface-exposed carbohydrate binding module
Long, L., Hu, Y., Xie, L., ...Xu, Z., Hu, J.

Improving microbial oil yield in Trichosporon dermatis by mutagenesis | 复合诱变野生酵母ZZ-46选育高产油脂菌株
Zhou, Q., Gu, Z., Long, L., ...Sun, H., Sun, F.

Synergism of Recombinant Podospora anserina PaAA9B with Cellulases Containing AA9s Can Boost the Enzymatic Hydrolysis of Cellulosic Substrates
Long, L., Yang, H., Ren, H., ...Hu, J., Xu, Z.

 

Yu Wang | Civil and Environmental Engineering | Best Researcher Award

Assoc Prof Dr. Yu Wang | Civil and Environmental Engineering | Best Researcher Award

University of Salford, United Kingdom

Author Profile

Early Academic Pursuits

His academic journey commenced with a BEng in Automotive Engineering from Wuhan University of Technology, China. This was followed by an MSc in Engineering Mechanics from Chongqing University, China. He furthered his academic pursuits with a PhD in Civil Engineering from Aston University, UK, where he delved deep into the realm of civil engineering.

Professional Endeavors

His professional journey saw him occupy various roles, from Research Fellow at the University of Plymouth, UK, where he focused on advanced composite molding manufacturing processes, to his current position as an Associate Professor/Reader at the University of Salford, UK. Throughout his career, he has been actively engaged in teaching civil engineering programs at both undergraduate and postgraduate levels.

Contributions and Research Focus

His research primarily revolves around construction materials, structural durability, and environmental aspects. He has made significant contributions to the understanding of hydro-physics of construction materials, unsaturated hydrology, geomaterial mechanics, and material-environment interaction. His expertise lies in the domain of sustainable infrastructure, with a particular focus on advancing recycled aggregate concrete.

Accolades and Recognition

His dedication and contributions to the field have garnered him recognition and accolades. Notably, he has been honored with the title of Fellow of the Higher Education Academy (FHEA) and holds professional memberships in esteemed organizations such as the Institution of Civil Engineers (MICE) and the International Association of Advanced Materials (IAAM).

Impact and Influence

His impact extends beyond academia. As a Review Editor for Frontiers in Materials and an Academic Editor for Advances in Civil Engineering, he actively contributes to the scholarly dissemination of knowledge. Additionally, his role as a PhD co-supervisor at the Department of Civil Engineering, State Central University, Taiwan, underscores his commitment to fostering the next generation of researchers and professionals in the field.

Legacy and Future Contributions

With over 70 research articles and two books to his name, He has already left a substantial mark on the field of civil engineering. His ongoing supervision of PhD candidates and continued engagement in research and knowledge transfer activities promise a future characterized by further advancements in sustainable infrastructure and construction materials. His legacy will undoubtedly endure through his impactful contributions to academia and the broader engineering community.

Citations

A total of  380 citations for his publications, demonstrating the impact and recognition of his research within the academic community.

  • Citations            380
  • h-index              11
  • i10-index           12

Notable Publications 

A sustainable pavement concrete using warm mix asphalt and hydrated lime treated recycled concrete aggregates
A Albayati, Y Wang, Y Wang, J Haynes
[57] 2018

An experimental study of cathodic protection for chloride contaminated reinforced concrete
HM Oleiwi, Y Wang, M Curioni, X Chen, G Yao, L Augusthus-Nelson, ...
[23] 2018

María Blecua | Medioambiente | Best Researcher Award

Dr. María Blecua | Medioambiente | Best Researcher Award

Fundación CIRCE, Spain

Author Profile

Early Academic Pursuits:

Maria Blecua began her academic journey with an internship at the University of Tübingen's Institute of Physiology I during her Erasmus year (15/09/2012 – 15/07/2013). Here, she was involved in the Voltage-Clamp department, conducting experiments on genetically modified oocytes, performing voltage clamp tests, and analyzing data from chemical techniques. She completed her Bachelor's thesis and contributed to two publications.

Professional Endeavors:

Her professional journey kicked off as a Researcher Student in the R&D Electrical Laboratories at Exide Technologies (01/10/2013 – 30/09/2015). During this time, she worked on data analysis for Lead Acid Batteries, collaborated in calibration plans, and contributed to tear-down analyses. Following this, she pursued a Ph.D. in Nanotechnology and Advanced Materials at Universidad Autónoma de Madrid (14/02/2016 – 28/02/2020), specializing in Electrochemistry. Her research focused on Lead Acid Batteries for Micro Hybrid Electrical Vehicles, specifically examining the influence of different carbon materials and organic expanders on the performance of negative plates. She manages the environmental laboratory, contributes to H2020 and Spanish public projects, and actively engages in tasks related to Life Cycle Analysis, technology acceptance, and proposal writing.

Contributions and Research Focus:

Her research contributions span a wide range, including the improvement of negative plate performance in Lead Acid Batteries, hydrometallurgy recycling of lithium-ion batteries, Life Cycle Analysis, and the upscaling of recycling processes for solar panels. Her work extends to technology acceptance and proposal writing, showcasing a holistic understanding of the research and development process.

Accolades and Recognition:

She completed her International Ph.D. with distinction, earning a Cum Laude distinction. This recognition underscores the excellence and impact of her research in the field of Electrochemistry.

Impact and Influence:

Her work has made a significant impact on the development and understanding of battery technologies, with a focus on sustainability and recycling processes. As a leader in various projects, Maria has been instrumental in shaping the direction of research and development in her field.

Legacy and Future Contributions:

Her legacy lies in her extensive research and leadership roles, contributing to the advancement of battery technologies and recycling processes. Her future contributions are likely to further shape sustainable practices in the energy storage industry, considering her ongoing role at Fundación CIRCE and her expertise in diverse aspects of battery research and development.

Citations

A total of  112 citations for his publications, demonstrating the impact and recognition of his research within the academic community.

  • Citations             112
  • h-index               5
  • Documents        7

Notable Publications 

Effect on water consumption by metallic impurities into electrolyte of lead-acid batteries

Improvement of the lead acid battery performance by the addition of graphitized carbon nanofibers together with a mix of organic expanders in the negative active material

Graphitized Carbon Nanofibers: new additive for the Negative Active Material of Lead Acid Batteries

Influences of carbon materials and lignosulfonates in the negative active material of lead-acid batteries for microhybrid vehicles

Electrochemical evaluation of lead-carbon electrodes for micro hybrid vehicle applications

SPAK-Sensitive Regulation of Glucose Transporter SGLT1

Down-regulation of the Na+-coupled phosphate transporter NaPi-IIa by AMP-activated protein kinase

 

Mr. Rehan Abid | Editorial Board Member | Clean and Renewable Energy

Mr. Rehan Abid | Editorial Board Member | Clean and Renewable Energy

International Islamic University Islamabad, Pakistan

Author Profile

Early Academic Pursuits:

Rehan Abid began his academic journey with a focus on the physical sciences. He completed his Higher Secondary School Certificate (HSSC) in Pre-Engineering from Army Public School and College for Boys, Rawalpindi Cantt., followed by his Secondary School Certificate (SSC) in Science from Aviation Army Public School and College, Rawalpindi. He further pursued his passion for physics by completing his Bachelor of Science (BS) in Physics at the University of Gujrat, Pakistan. His major project during this period involved radiation detection and measurement using a Geiger Mueller Counter, showcasing his early interest in experimental physics. Rehan continued his academic pursuits by earning his Master of Science (MS) in Physics from the International Islamic University Islamabad, Pakistan. His master's thesis, titled "Supercapacitive properties of PANI/rGO/Mn3O4 ternary nanocomposites," underscored his commitment to exploring advanced materials and their applications.

Professional Endeavors:

His professional journey reflects his dedication to scientific research and teaching. After completing his MS, he served as a Research Assistant at the International Islamic University Islamabad. His responsibilities included contributing to the Pak-UK Project on Advanced Energy Harvesters and Energy Storage Devices for Self-powered Flexible Energy Systems under the guidance of Dr. Imran Murtaza. In addition to his research role, Rehan also took on a lecturing position at Riphah International University, where he taught graduate courses in Physics, focusing on Elementary Differential Equations and laboratory courses. This experience showcased his versatility in both research and education. Rehan returned to the International Islamic University Islamabad as a full-time Research Assistant, continuing his work on the Pak-UK Project. His tasks involved the synthesis, characterization, and fabrication of electrochemical energy storage devices. His multifaceted role included mentoring and assisting undergraduate and master's students, emphasizing his commitment to fostering the next generation of scientists.

Contributions and Research Focus:

His research portfolio demonstrates a diverse set of skills and expertise in material science and physics. He has been involved in various synthesis techniques, such as chemical synthesis of nanostructures, electrode, and electrolyte preparation. His research spans the fabrication of devices, handling lab equipment, and actively contributing to article writing and submission. His focus areas include the modification of Hummers Method for 2D materials, chemical oxidative polymerization, in-situ bulk polymerization, and synthesis of inorganic nanomaterials using bottom-up techniques. Rehan is adept at various electrode fabrication methods, electrolyte formulation, and device fabrication for applications such as supercapacitors and sensors.

Accolades and Recognition:

Rehan Abid's academic achievements are underscored by his impressive academic records, including a CGPA of 3.65/4.00 during his MS and 3.25/4.00 during his BS. His contributions to research are evident in his authorship of seven SCI publications, highlighting the impact of his work in the scientific community. His role as a Research Assistant and Lecturer reflects recognition of his skills and knowledge, contributing to the collaborative research environment at the International Islamic University Islamabad and Riphah International University.

Impact and Influence:

His impact extends beyond his individual contributions to research and teaching. His involvement in collaborative projects, such as the Pak-UK Project, showcases his commitment to addressing real-world challenges in the field of energy storage and flexible electronics. Through mentoring and assisting students, he has played a role in shaping the future of aspiring scientists.

Legacy and Future Contributions:

He has laid a strong foundation in the fields of material science and physics through his early academic pursuits and professional endeavors. His legacy includes impactful research, successful mentoring, and contributions to academia. Looking ahead, He is poised to continue making significant contributions to scientific research. His expertise in advanced materials, electrochemical devices, and fabrication techniques positions him as a valuable asset in the pursuit of scientific excellence. Whether through continued research, teaching, or industry collaborations, Rehan is likely to leave a lasting imprint on the field of physics and material science.

Citations

A total of  1733 citations for his publications, demonstrating the impact and recognition of his research within the academic community.

  • Citations            1733
  • h-index              23
  • i10-index           33

Notable Publications 

Room temperature NH3 gas sensor based on PMMA/RGO/ZnO nanocomposite films fabricated by in-situ solution polymerization
A Raza, R Abid, I Murtaza, T Fan
(9 ) 2023

Enhanced Energy Density of PANI/Co3O4/Graphene Ternary Nanocomposite in a Neutral Aqueous Electrolyte of Na2SO4 for Supercapacitor Applications
S Haider, I Murtaza, A Shuja, R Abid, H Ali, MA Asghar, Y Khan
(8)  2022

Fluorene substituted thieno [3, 2-b] thiophene–a new electrochromic conjugated polymer
M Shah, I Murtaza, R Abid, A Shuja, H Meng, N Ahmed
(8)  2021

Controlled synthesis of the state-of-the-art quasi one-dimensional graphene nanostructure for high performance supercapacitor
T Fan, L Jian, C Liu, I Murtaza, R Abid, A Shuja, Y Liu, Y Min
(6) 2022

Enhanced photocatalytic activity of multifunctional graphene quantum dots decorated TiO2 film for dye-sensitized solar cells
T Fan, L Jian, X Huang, S Zhang, I Murtaza, R Abid, Y Liu, Y Min
(5) 2022

A Comparative Study of Green and Chemical Cerium Oxide Nanoparticles (CeO2-NPs): From Synthesis, Characterization, and Electrochemical Analysis to …
MA Khan, MAR Siddique, M Sajid, S Karim, MU Ali, R Abid, SAI Bokhari
(2) 2023

Effect of different catalysts and growth temperature on the photoluminescence properties of zinc silicate nanostructures grown via vapor-liquid-solid method
G Muhammad, I Murtaza, R Abid, N Ahmad
(2) 2022

Unveiling the electrochemical advantages of a scalable and novel aniline-derived polybenzoxazole-reduced graphene oxide composite decorated with manganese oxide nanoparticles …
MS Khan, I Murtaza, A Shuja, MA Asghar, CG Nuñez, R Abid, A Haider, ...
(1) 2023

Unleashing Enhanced Energy Density with PANI/NiO/Graphene Nanocomposite in a Symmetric Supercapacitor Device, Powered by the Hybrid PVA/Na2SO4 Electrolyte
S Haider, R Abid, I Murtaza, A Shuja
(1) 2023

Exploring the Synergistic Effect of a PANI/Cr2O3/Graphene Nanocomposite in a Hybrid Gel Electrolyte for Supercapacitor Performance
S Haider, R Abid, I Murtaza, A Shuja, A Basit, MA Asghar
(1) 2023