Assoc. Prof. Dr. Ji-Chi Liu | Electrochemistry | Best Researcher Award

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Assoc. Prof. Dr. Ji-Chi Liu | Electrochemistry | Best Researcher Award

Assoc. Prof. Dr. Ji-Chi Liu ,  Electrochemistry , Associate Professor at Liaoning University, China

Dr. Ji-Chi Liu is an accomplished Associate Professor at the College of Chemistry, Liaoning University, China. He received his Ph.D. in 2022 from the same institution and rapidly progressed to a faculty position due to his exemplary research in advanced energy materials. His work focuses on the rational design and controlled synthesis of novel materials for electrochemical energy storage, particularly aqueous ion batteries and supercapacitors. In just a few years, Dr. Liu has published multiple high-impact papers in reputed journals and filed five patents, establishing himself as a promising researcher in the field. With an innovative mindset and deep scientific acumen, he has led three funded research projects and continues to collaborate across institutions. His scientific contributions are aligned with sustainable energy solutions, making a significant impact in materials chemistry and energy technology. Dr. Liu is a committed educator and researcher, dedicated to advancing the frontier of clean energy systems.

Professional Profile : 

Orcid

Scopus 

Summary of Suitability for Award:

Dr. Ji-Chi Liu holds a Ph.D. in Chemistry from Liaoning University (2022) and currently serves as an Associate Professor at the same institution. His rapid academic progression within three years of receiving his doctorate demonstrates exceptional promise and capability. He has published five high-impact SCI-indexed papers in leading journals such as Nano Energy, Journal of Materials Chemistry A, and Energy & Environmental Materials, all within a short span. His focus on electrochemical energy storage, particularly aqueous ion batteries and supercapacitors, addresses global priorities in sustainable and safe energy technologies. This aligns well with international goals for climate action and clean energy. With five patents filed, his work exhibits a clear translational value from lab-scale innovation to real-world applications, reinforcing the relevance of his research beyond academia. Dr. Liu has led three funded research projects, evidencing his capability in securing competitive funding and managing research teams effectively. Dr. Ji-Chi Liu is highly suitable for the “Best Researcher Award”. His outstanding publication record, innovation through patents, impactful research in sustainable energy, and growing academic leadership present a compelling case for recognition. Despite being early in his career, his trajectory clearly indicates a strong and consistent commitment to high-quality research with both academic and societal relevance.

🎓Education:

Dr. Ji-Chi Liu pursued all his higher education at Liaoning University, a prestigious institution in China. He earned his Ph.D. in Chemistry in 2022, specializing in the design and synthesis of advanced materials for electrochemical applications. During his doctoral research, he developed deep expertise in the electrochemical behavior of aqueous ion battery systems and supercapacitors. His academic journey is marked by a strong foundation in both theoretical understanding and hands-on experimental techniques in materials science and energy storage. His research during his Ph.D. led to several publications in SCI-indexed journals and laid the groundwork for postdoctoral innovations. Dr. Liu has also continuously upgraded his academic qualifications through participation in workshops, scientific conferences, and research collaborations. His education has provided him with a multidisciplinary skill set spanning solid-state chemistry, electrochemistry, and nanomaterials, enabling him to contribute meaningfully to the field of clean and sustainable energy technologies.

🏢Work Experience:

Dr. Ji-Chi Liu currently serves as an Associate Professor at the College of Chemistry, Liaoning University. Since completing his Ph.D. in 2022, he has rapidly grown into a leadership role, heading several research initiatives focused on energy storage systems. Dr. Liu has successfully led three major research projects, supported by national or institutional grants. In addition to his research contributions, he plays a key role in mentoring undergraduate and graduate students and actively contributes to curriculum development in electrochemistry and materials science. His teaching is enriched by his cutting-edge research experience, enabling him to bridge theory and application in classroom and laboratory settings. Dr. Liu also participates in academic reviewing and has contributed to several international conferences. With his academic rigor and leadership qualities, he has established strong research collaborations and is an active member of the global electrochemical materials research community.

🏅Awards: 

Dr. Ji-Chi Liu’s innovative research in electrochemical energy storage has garnered significant recognition. He has been nominated for the Best Researcher Award by the International Chemistry Scientist Awards in 2025, reflecting the global appreciation of his scientific contributions. Despite being in the early stages of his academic career, Dr. Liu has already published in prestigious journals like Nano Energy and Journal of Materials Chemistry A, with first or corresponding author roles, demonstrating leadership in his field. He has filed five patents, underscoring the originality and applicability of his research. His projects have also received institutional funding, a testament to the confidence placed in his work by the scientific and academic community. As a rising star in materials chemistry and clean energy research, Dr. Liu’s accolades affirm his commitment to impactful research and innovation, positioning him as a significant contributor to future energy technologies.

🔬Research Focus:

Dr. Ji-Chi Liu’s research is centered on electrochemical energy storage devices, particularly aqueous ion batteries and supercapacitors. His work focuses on the rational design and controlled synthesis of advanced electrode materials with high stability, efficiency, and energy density. He employs techniques in nanostructure engineering and electrochemical characterization to develop sustainable energy materials. By integrating principles from materials science and electrochemistry, Dr. Liu seeks to overcome challenges in scalability, safety, and cost-efficiency in energy storage technologies. His recent projects involve the development of environmentally friendly, high-performance aqueous-based systems, which are safer and more sustainable than traditional lithium-ion batteries. Dr. Liu’s research outputs include innovative electrode architectures that enhance charge/discharge cycles, energy retention, and conductivity. He is also exploring hybrid systems that combine the benefits of batteries and supercapacitors. His work contributes significantly to advancing clean energy technologies that can support the transition to a greener and more sustainable future.

Publication Top Notes:

1. Current Collectors for Supercapacitors: Objectives, Modification Methods and Challenges

2. P-n Junction Built-in Electric Field and Electrochemical In-situ Intercalation Enabled Ultra-Stable and High-Energy Ammonium-Ion Storage

3. Integrated Electrode-Electrolyte Optimization to Manufacture a Real-Life Applicable Aqueous Supercapacitor with Record-Breaking Lifespan

4. Aqueous Supercapacitor with Ultrahigh Voltage Window Beyond 2.0 Volt

5. Structural Engineering to Maintain the Superior Capacitance of Molybdenum Oxides at Ultrahigh Mass Loadings

 

 

 

Dr. Chenxu Wang | Electrochemistry | Green Chemistry Award

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Dr. Chenxu Wang | Electrochemistry | Green Chemistry Award

Dr. Chenxu Wang , Electrochemistry ,Research associate at University of Texas at Dallas, United States

Dr. Chenxu Wang is a dynamic and innovative Research Associate at the BEACONS Center, University of Texas at Dallas. With a solid foundation in electrochemical energy storage, he completed his Ph.D. in 2023 from Washington State University under the mentorship of Dr. Weihong Zhong. Since 2016, he has consistently contributed to the field of battery technology, focusing on lithium-ion, lithium-metal, and sodium-ion systems. His research incorporates cutting-edge innovations such as protein-based solid-state materials for enhanced battery safety and performance. Alongside academic excellence, Dr. Wang brings hands-on experience from the battery manufacturing industry, enriching his practical insights. He has published over 18 scientific papers and is the lead author of a technical book. He actively engages with the scientific community through editorial roles and collaborations. Dr. Wang is dedicated to advancing green, safe, and high-performance battery technologies for a sustainable energy future.

Professional Profile :         

Google Scholar

Summary of Suitability for Award:

Dr. Chenxu Wang is an exceptional candidate for the Green Chemistry Award due to his innovative integration of biological and natural materials—particularly silk fibroin proteins—into the design of advanced battery components. His work directly aligns with the principles of green chemistry. Dr. Wang has demonstrated that green materials can match or surpass traditional materials in performance. His contributions include the development of protein-based solid electrolytes, eco-friendly binders, and non-toxic separators, which not only advance battery safety and efficiency but also minimize environmental impact. Dr. Chenxu Wang’s pioneering work in applying natural biomolecules to battery technology presents a paradigm shift toward eco-conscious energy storage solutions. His holistic approach—spanning green material synthesis, automation, and recycling—makes him an ideal recipient of the “Green Chemistry Award”. His research not only addresses key environmental challenges but also offers scalable solutions for the clean energy transition.

🎓Education:

Dr. Chenxu Wang earned his Ph.D. in Materials Science and Engineering from Washington State University (WSU) in 2023, where he conducted advanced battery research under Dr. Weihong Zhong. His doctoral work focused on sustainable energy storage systems, particularly lithium-metal and lithium-sulfur batteries. During his time at WSU, he received prestigious awards recognizing both academic excellence and research contributions. Prior to his Ph.D., Dr. Wang obtained his undergraduate and possibly a master’s degree (details unspecified) in fields related to chemistry or materials science, laying the groundwork for his later specialization in electrochemical systems. His academic training has been marked by a strong emphasis on interdisciplinary problem-solving, including materials synthesis, electrochemical characterization, and green chemistry applications. Throughout his education, Dr. Wang developed a strong technical foundation and research mindset that continue to fuel his contributions to battery innovation and electrochemical energy storage.

🏢Work Experience:

Dr. Chenxu Wang is currently serving as a Research Associate at the BEACONS Center, University of Texas at Dallas, where he contributes to groundbreaking projects in next-generation battery technologies. Since 2016, he has worked extensively on battery research, accumulating a unique blend of academic and industrial experience. He previously worked in the battery manufacturing industry, where he gained hands-on experience in the development and scaling of energy storage materials and systems. During his Ph.D. at WSU, he managed several interdisciplinary research projects on solid-state electrolytes and sustainable battery materials. Dr. Wang is involved in both laboratory experimentation and theoretical modeling. In addition to his research roles, he is active in the scientific publishing ecosystem, serving on the Youth Editorial Board of Exploration and as a Guest Editor for Batteries. His contributions span project leadership, material innovation, and research communication within the energy storage field.

🏅Awards: 

Dr. Chenxu Wang has been recognized with multiple prestigious awards that highlight his exceptional academic and research performance. In 2023, he received the Outstanding Dissertation Award and the Outstanding Research Assistant Award from Washington State University, acknowledging the novelty and impact of his Ph.D. work in the field of electrochemical energy storage. These accolades are a testament to his contributions toward addressing real-world energy challenges through scientific innovation. Dr. Wang’s leadership and editorial responsibilities also reflect his growing recognition in the global research community. He currently serves as a Guest Editor for the journal Batteries and is a Youth Editorial Board Member for the journal Exploration. His research excellence and dedication to sustainable energy have also led to collaborative opportunities and growing citations (over 253 citations) across reputable journals. These honors reflect Dr. Wang’s commitment to advancing green chemistry and sustainable battery technology.

🔬Research Focus:

Dr. Chenxu Wang’s research is centered on electrochemical energy storage systems, with a strong emphasis on green chemistry, sustainability, and advanced battery materials. His innovative work involves integrating natural proteins such as silk fibroin into solid-state battery components, which significantly improve safety, ionic conductivity, and performance. He has developed protein-based solid electrolytes, binders, and separators, targeting the challenges of dendrite formation and the polysulfide shuttle effect in lithium-metal and lithium-sulfur batteries. His research also explores automated synthesis, material characterization, and battery recycling, aiming to create scalable, eco-friendly solutions for energy storage. Dr. Wang’s unique blend of academic research and industry exposure allows him to bridge theory and practice, contributing meaningfully to real-world battery innovations. His projects on high-energy-density lithium/sodium-ion batteries and advanced liquid electrolytes further reflect his comprehensive approach to solving multi-faceted challenges in next-generation energy storage.

Publication Top Notes:

A water-soluble binary conductive binder for Si anode lithium ion battery
Citations: 57

Natural protein as novel additive of a commercial electrolyte for Long-Cycling lithium metal batteries
Citations: 30

Protein-modified SEI formation and evolution in Li metal batteries
Citations: 29

A protein-enabled protective film with functions of self-adapting and anion-anchoring for stabilizing lithium-metal batteries
Citations: 26

Synthesis of β-FeOOH nanorods adhered to pine-biomass carbon as a low-cost anode material for Li-ion batteries
Citations: 20

A bioinspired coating for stabilizing Li metal batteries
Citations: 18

Promising sustainable technology for energy storage devices: Natural protein-derived active materials
Citations: 15

Incorporating SnO2 nanodots into wood flour-derived hierarchically porous carbon as low-cost anodes for superior lithium storage
Citations: 12

Interface-tailored forces fluffing protein fiber membranes for high-performance filtration
Citations: 10

Highly dispersed SnO2 nanoparticles confined on xylem fiber-derived carbon frameworks as anodes for lithium-ion batteries
Citations: 7

An amino acid-enabled separator for effective stabilization of Li anodes
Citations: 6

Effects of Anions and Protein Structures on Protein‐Based Solid Electrolytes
Citations: 6

Assoc. Prof. Dr. Xiaolong Li | Electrochemistry | Material Chemistry Award

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Assoc. Prof. Dr. Xiaolong Li | Electrochemistry | Material Chemistry Award

Assoc. Prof. Dr. Xiaolong Li | Electrochemistry | Engineering at Shangluo University, China

Dr. Xiaolong Li is an Associate Professor at the School of Chemical Engineering and Modern Materials, Shangluo University. He earned his Ph.D. in Materials Science from Tongji University in 2010 and has since contributed extensively to electrochemical sensors and nanomaterials research. With a career spanning academia and industry, Dr. Li has worked as a lecturer and senior researcher, holding key roles at Shanghai Nanotechnology Research Center and other institutions. His research explores advanced sensing materials, electrochemical gas sensors, and environmental monitoring technologies. Dr. Li has secured multiple research grants and patents, demonstrating his innovation in applied chemistry. He has published widely in high-impact journals and collaborates actively on interdisciplinary projects. His contributions to chemical sensing and nanomaterials are recognized through numerous academic achievements and patents. Currently, he continues to mentor students and lead research on next-generation sensor technologies.

Professional Profile :         

Scopus

Summary of Suitability for Award:

Dr. Xiaolong Li is highly suitable for the “Material Chemistry Award” due to his extensive contributions to materials science, particularly in electrochemical sensors, functional nanomaterials, and thin-film electrodeposition. His research focuses on developing advanced nanomaterials for gas sensors, heavy metal detection, and energy applications, directly aligning with the objectives of material chemistry. His work on C-loaded CuO-CeO₂ composites and electrochemical gas sensors has advanced environmental monitoring and industrial safety, showcasing the real-world impact of his innovations. Dr. Xiaolong Li’s groundbreaking work in electrochemical sensors and nanomaterials has significantly contributed to materials chemistry and environmental applications. His innovations in thin-film materials, composite sensors, and functional coatings have practical applications in pollution control, industrial monitoring, and energy storage. Given his outstanding research output, patents, and recognition in material chemistry, he is an excellent nominee for the “Material Chemistry Award”, representing a blend of academic excellence, industrial impact, and future potential in the field.

🎓Education:

Dr. Xiaolong Li holds a Ph.D. in Materials Science from Tongji University (2007-2010), where he focused on the electrodeposition and characterization of thermoelectric materials. His research explored the fabrication of Bi₂Se₃ thin films, contributing to advancements in energy conversion and sensor applications. Prior to his doctoral studies, he earned an M.Sc. in Applied Chemistry from Xi’an University of Architecture and Technology (2002-2005), specializing in environmental chemistry and chemical sensor development. His master’s research emphasized novel analytical techniques for detecting pollutants, laying the foundation for his work in electrochemical sensing. He began his academic journey with a Diploma in Environmental Monitoring from Baoji University of Arts and Sciences (1996-1999), gaining essential skills in pollution control and environmental analysis. His interdisciplinary education, spanning materials science, chemistry, and environmental monitoring, has shaped his expertise in developing functional nanomaterials and high-sensitivity sensors for industrial and environmental applications.

🏢Work Experience:

Dr. Xiaolong Li has a diverse professional background, blending academic research and industry experience. He currently serves as an Associate Professor at Shangluo University’s School of Chemical Engineering and Modern Materials (2024-present), where he focuses on electrochemical sensor development and nanomaterials research. Prior to this, he worked as a Lecturer at the same institution (2018-2023), mentoring students and conducting research on advanced sensing technologies. His industry experience includes serving as a Senior Manager at Shanghai Yuxing Technology Co., Ltd. (2016-2018), where he led R&D projects in sensor fabrication. From 2013 to 2015, he was an Assistant Researcher at the Shanghai National Engineering Research Center for Nanotechnology, working on surface technology and functional coatings. Earlier in his career, he was a Senior Engineer at Shanghai Hengwei Information Technology (2011-2013), focusing on environmental monitoring systems. His extensive experience bridges fundamental research and practical applications in sensor technology.

🏅Awards: 

Dr. Xiaolong Li has received numerous accolades for his contributions to materials science and sensor technology. In 2021, he was awarded the Provincial Key Research Grant Award for his innovative work in developing electrochemical sensors for heavy metal detection. His advancements in gas sensor technology earned him the Industry Innovation Award in 2017, recognizing his role in designing high-sensitivity electrochemical sensors for environmental applications. He received the Best Paper Award in 2015 for his pioneering research on amperometric CO sensors. In 2024, he was honored with a Patent Recognition Award for securing multiple patents related to electrochemical gas sensors and functional nanomaterials. Additionally, he was named an Outstanding Researcher in 2022 for his significant contributions to applied nanotechnology. His achievements reflect his commitment to advancing sensor materials and environmental monitoring, bridging the gap between academic research and industrial applications.

🔬Research Focus:

Dr. Xiaolong Li’s research is centered on the development of electrochemical sensors, functional nanomaterials, and environmental monitoring technologies. His work in electrochemical gas sensors has led to the creation of high-sensitivity detection devices for pollutants such as carbon monoxide and heavy metals. He explores nanomaterials for sensing applications, particularly C-loaded CuO-CeO₂ composites and other advanced materials, to enhance sensor performance. His expertise in environmental chemistry is evident in his development of novel chemical detection methods for wastewater treatment and air quality monitoring. Additionally, he investigates thin film electrodeposition, optimizing electrode materials for energy and sensor applications. His interdisciplinary approach integrates nanotechnology with analytical chemistry, fostering innovation in real-world applications such as industrial safety, healthcare diagnostics, and environmental protection. His research has led to groundbreaking advancements in chemical sensing, contributing to sustainable and efficient monitoring technologies for diverse industrial and scientific fields.

Publication Top Notes:

  • “A V₁₀O₂₄·nH₂O Layered Material with Low Crystal Water Content as a High-Performance Cathode for Aqueous Zinc-Ion Batteries

  • “The Effect of Zn²⁺ on the Positive Electrolyte for All-Vanadium Redox Flow Battery”

  • “High-Sensitivity CO Electrochemical Gas Sensor Based on Superconductive C-Loaded CuO-CeO₂ Nanocomposite”

 

Prof. Dr. AFZAL SHAH | Photoelectrochemistry | Best Researcher Award

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Prof. Dr. AFZAL SHAH | Photoelectrochemistry | Best Researcher Award

Prof. Dr. AFZAL SHAH , Quaid-i-Azam University, Islamabad, Pakistan

Prof. Dr. Afzal Shah is a distinguished Professor of Chemistry at Quaid-i-Azam University, Islamabad, specializing in Physical Chemistry. His expertise lies in electrochemical sensors, catalysis, and environmental chemistry. With over 307 publications, multiple patents, and significant research grants, his work has gained international recognition. He has an impressive H-index and thousands of citations, reflecting the impact of his research. His work focuses on developing sensors for detecting pollutants, cancer biomarkers, and renewable energy applications. He has been consistently ranked among the top 2% scientists globally and has received prestigious awards, including gold medals and international research honors. He has supervised numerous Ph.D. and M.S. scholars, contributing to academic excellence. His collaborations extend across China, Canada, Europe, the USA, and Turkey, fostering global scientific advancements. As a researcher, mentor, and innovator, he continues to shape the future of chemical sciences and sustainable technologies.

Professional Profile:

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Summary of Suitability for Award:

Prof. Dr. Afzal Shah is an exceptional candidate for the “Best Researcher Award” due to his remarkable contributions to physical chemistry, electrochemical sensing, and catalysis. With 307 publications in high-impact journals, over 10,000 citations, and an H-index exceeding 50, his research has had a profound global impact. His pioneering work in electrochemical sensors for detecting pollutants, cancer biomarkers, and renewable energy applications has led to innovative patents, including a granted US and UAE patent. He has also secured numerous national and international research grants, reflecting his strong research leadership. Recognized as one of the top 2% scientists globally, he has received multiple gold medals, best paper awards, and international fellowships.Prof. Dr. Afzal Shah’s outstanding research achievements, innovation, and global recognition make him a highly deserving candidate for the Best Researcher Award. His groundbreaking contributions to chemical sciences and commitment to research excellence set him apart as a leader in the field.

🎓Education:

Prof. Dr. Afzal Shah holds a Ph.D. in Physical Chemistry from Quaid-i-Azam University (Pakistan) and Universidade de Coimbra (Portugal) (2005–2010). He completed his postdoctoral research at the University of Toronto, Canada (2014) and served as a Visiting Scientist at Ankara University, Turkey (2017). His academic journey began with an M.Sc. in Physical Chemistry from the University of Peshawar (1994), where he secured the 1st position. With a strong foundation in electrochemistry, catalysis, and material sciences, his expertise extends across photocatalysis, electrocatalysis, and biosensor development. His education laid the groundwork for groundbreaking research in environmental chemistry and renewable energy solutions. Throughout his academic career, he has remained dedicated to advancing chemical sciences through interdisciplinary research and high-impact publications. His extensive knowledge and academic excellence have positioned him as a leader in chemical sensor development, sustainable energy solutions, and analytical chemistry techniques.

🏢Work Experience:

Prof. Dr. Afzal Shah has over 25 years of teaching and research experience in Physical Chemistry. He is currently a Professor at Quaid-i-Azam University (since March 2022), previously serving as Associate Professor (2017-2022), including a two-year tenure at the University of Bahrain (2018-2020). Before that, he was an Assistant Professor at Quaid-i-Azam University (2011-2017). He has taught various courses, including Electrochemistry, Quantum Mechanics, Thermodynamics, Biophysical Chemistry, and Advanced Research Methods. He has supervised 11 Ph.D. and 56 M.S. students, along with two postdoctoral researchers. His international exposure includes academic visits to China, Canada, Turkey, Portugal, Saudi Arabia, Bahrain, and Sharjah. As a prolific researcher, he has authored over 307 scientific articles, secured 6 patents, and received 15 research grants. His leadership roles include serving as an editor of six journals, head of research committees, and executive council member of the Chemical Society of Pakistan.

🏅Awards: 

Prof. Dr. Afzal Shah has received numerous awards for his contributions to chemistry. He was honored with two Gold Medals, one at the university level and another at the national level (Pakistan Academy of Sciences, 2021). He won the Young Researcher Award (2013) and Gold Medal (2014) for outstanding research. His ACS Cash Award (2016) recognized his publications in ACS flagship journals. He received Elsevier’s Royalty Award (2019) for his book contributions. His Best Paper Award (2015), A-Category Research Productivity Award (2015), and multiple Performance-Based Annual Increment Awards (2012-2023) highlight his research excellence. His inclusion in Stanford-Elsevier’s Top 2% Scientists ranking (4 consecutive years) cements his impact on global research. As a Fellow of the Chemical Society of Pakistan (2023) and recipient of certifications from Elsevier for contributions to SDGs in health & environment, he continues to shape the field of chemical sciences.

🔬Research Focus:

Prof. Dr. Afzal Shah’s research is centered on electrochemical sensors, catalysis, and environmental chemistry. His work includes developing sensors for detecting water contaminants, cancer biomarkers, and chemical/biological entities. He specializes in photocatalysis, electrocatalysis, and photoelectrocatalysis for energy applications such as carbon dioxide reduction, nitrogen reduction, and hydrogen production. His research extends to bioelectrochemical systems, microbial fuel cells, and advanced optical sensor technologies. He has pioneered new methods for the degradation of water contaminants using electrochemical and photocatalytic techniques. His contributions to renewable energy solutions, electrochemical biosensors, and sustainable water treatment technologies are widely recognized. With 307 publications, 6 patents, and 15 research grants, his research has significantly advanced nanotechnology-based sensing techniques. His collaborations with scientists from China, Europe, the USA, Canada, and Turkey continue to enhance global efforts in environmental sustainability and healthcare diagnostics.

Publication Top Notes:

An electroanalytical sensor for the detection of antibiotic cefoperazone sodium sulbactam sodium residue in wastewater

Authors: Mohsin Usman Javed, Afzal Shah, Muhammad Umar Farooq

Year: 2025

Harnessing the power of MXenes: a comprehensive exploration of their photocatalytic potential in mitigating hazardous dyes and CO2 reduction

Authors: Ayesha Gulzar, Abdul Haleem, Touseef Ur Rehman, Afzal Shah, Ihsan Ullah

Year: 2024

Citations: 7

Novel interfaces for internet of wearable electrochemical sensors

Authors: Suniya Shahzad, Faiza Jan Iftikhar, Afzal Shah, Hassan Abdur Rehman, Emmanuel Iheanyichukwu Iwuoha

Year: 2024

Electrochemical analysis of anticancer and antibiotic drugs in water and biological specimens

Authors: Ayesha Qureshi, Afzal Shah, Faiza Jan Iftikhar, Abdul Haleem, Muhammad Abid Zia

Year: 2024

Thermo-catalytic decomposition of cotton seed press cake over nickel doped zeolite Y, hydrogen: enhanced yield of bio-oil with highly selective fuel-range hydrocarbons

Authors: Marrij Afraz, Jan Nisar, Afzal Shah, Farooq Anwar, Wan Azlina Wan Abdul Karim Ghani

Year: 2024

Citations: 1

Electrochemical and optical protocols for the detection and removal of an antibiotic drug rifaximin from wastewater

Authors: Ifra Riffat, Afzal Shah

Year: 2024

Citations: 1

In-Depth Photocatalytic Degradation Mechanism of the Extensively Used Dyes Malachite Green, Methylene Blue, Congo Red, and Rhodamine B via Covalent Organic Framework-Based Photocatalysts

Authors: Abdul Haleem, Mohib Ullah, Saif Ur Rehman, Ishan Ullah, Hao Li

Year: 2024

Citations: 10

Effect of helium ion irradiation on the microstructure, mechanical properties and surface morphology of Inconel 625 alloy

Authors: Muhammad Meesum Bilal, Kashif Shahzad, Peng Lv, I. Ahmad, Tieshan Wang

Year: 2024

Citations: 2

Nanoporous Metal/Covalent Organic Framework-Based Electrocatalysts for Water Splitting

Authors: Syed Haider Ali Shah, Afzal Shah, Faiza Jan Iftikhar

Year: 2024

Citations: 4

Comprehensive assessment of carbon-, biomaterial- and inorganic-based adsorbents for the removal of the most hazardous heavy metal ions from wastewater

Authors: Nashra Sheraz, Afzal Shah, Abdul Haleem, Faiza Jan Iftikhar

Year: 2024

Citations: 25