Geraldine Merle | Chemical Engineering | Best Researcher Award

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Prof. Geraldine Merle | Chemical Engineering | Best Researcher Award

Professor from Polytechnique Montreal, Canada

Dr. Geraldine Merle is a distinguished researcher and academic with extensive expertise in her field. Over the years, she has contributed significantly to advancing knowledge through groundbreaking research, innovative methodologies, and dedicated teaching. She has worked in prestigious institutions and collaborated with various researchers to develop impactful solutions. Her research spans multiple disciplines, demonstrating her ability to integrate interdisciplinary approaches to address complex challenges. Dr. Merle is known for her strong leadership, mentorship, and commitment to academic excellence. Through her publications, lectures, and research projects, she continues to influence her field and inspire future scholars. She has received numerous accolades for her work and remains dedicated to pushing the boundaries of scientific discovery.

Professional Profile

Education

Dr. Geraldine Merle holds an impressive academic background, earning degrees from top-tier universities. She completed her undergraduate studies with outstanding performance, followed by a master’s degree where she specialized in advanced research methodologies. Her doctoral studies focused on a groundbreaking topic that contributed to the academic community. She has also pursued postdoctoral research at leading institutions, refining her expertise in specialized areas. Additionally, she has participated in various professional development programs and workshops to stay updated with the latest advancements in her field. Her academic journey showcases her dedication to lifelong learning and scholarly excellence.

Professional Experience

With a wealth of experience in academia and industry, Dr. Geraldine Merle has held several influential positions. She has served as a professor, researcher, and consultant in various esteemed organizations. Her teaching experience includes mentoring undergraduate and graduate students, developing curricula, and leading research projects. In addition, she has worked with government and private institutions on collaborative research initiatives aimed at solving real-world problems. Her contributions extend to editorial boards, advisory committees, and conference panels, highlighting her active role in shaping the future of her discipline. Her professional journey reflects a balance between research, teaching, and leadership.

Research Interests

Dr. Geraldine Merle’s research interests encompass a wide range of topics within her field. She is particularly passionate about exploring emerging trends, developing innovative solutions, and applying interdisciplinary approaches to problem-solving. Her work has addressed pressing societal issues, leveraging data-driven methods and cutting-edge technologies. Additionally, she is interested in policy implications, ethics, and the societal impact of research. She collaborates with scholars from different backgrounds to enhance the depth and breadth of her studies. Her research interests continue to evolve, reflecting her adaptability and curiosity in an ever-changing academic landscape.

Research Skills

Dr. Geraldine Merle possesses a robust set of research skills that make her a leader in her field. She is proficient in data analysis, experimental design, and qualitative and quantitative research methodologies. Her expertise extends to statistical modeling, software applications, and advanced laboratory techniques. She has a strong ability to synthesize complex information, write compelling research papers, and present findings at conferences. Additionally, she has experience securing research grants and managing large-scale projects. Her collaborative approach and problem-solving skills have contributed to numerous successful research endeavors. These skills have been instrumental in her contributions to academia and industry.

Awards and Honors

Dr. Geraldine Merle has received numerous awards and honors in recognition of her contributions to research and academia. Her accolades include prestigious research fellowships, best paper awards, and distinguished teaching recognitions. She has been invited as a keynote speaker at international conferences, further solidifying her reputation as an expert in her field. Her work has been acknowledged by professional organizations and funding agencies, reflecting her influence and impact. Additionally, she has received grants and scholarships that have enabled her to pursue high-impact research. Her dedication and achievements continue to inspire students, colleagues, and aspiring researchers.

Conclusion

Dr. Geraldine Merle’s career is a testament to her dedication, innovation, and passion for research and education. With a strong academic foundation, extensive professional experience, and a commitment to knowledge advancement, she has made significant contributions to her field. Her research interests and skills demonstrate her ability to address complex challenges and provide valuable insights. The numerous awards and honors she has received highlight the impact of her work. As she continues her journey, she remains committed to fostering intellectual growth, mentoring future scholars, and shaping the future of research. Dr. Merle’s contributions leave a lasting legacy in academia and beyond.

Publications Top Notes

  1. Anion exchange membranes for alkaline fuel cells: A review

    • Authors: G Merle, M Wessling, K Nijmeijer

    • Year: 2011

    • Citations: 2057

  2. New cross-linked PVA based polymer electrolyte membranes for alkaline fuel cells

    • Authors: G Merle, SS Hosseiny, M Wessling, K Nijmeijer

    • Year: 2012

    • Citations: 159

  3. Ionic liquid doped polybenzimidazole membranes for high temperature Proton Exchange Membrane fuel cell applications

    • Authors: E van de Ven, A Chairuna, G Merle, SP Benito, Z Borneman, K Nijmeijer

    • Year: 2013

    • Citations: 157

  4. In vitro degradation and in vivo resorption of dicalcium phosphate cement based grafts

    • Authors: Z Sheikh, YL Zhang, L Grover, GE Merle, F Tamimi, J Barralet

    • Year: 2015

    • Citations: 122

  5. Concentric glucose/O2 biofuel cell

    • Authors: A Habrioux, G Merle, K Servat, KB Kokoh, C Innocent, M Cretin, S Tingry

    • Year: 2008

    • Citations: 98

  6. Top-down bottom-up graphene synthesis

    • Authors: Z Zhang, A Fraser, S Ye, G Merle, J Barralet

    • Year: 2019

    • Citations: 82

  7. Hydrocaffeic acid–chitosan nanoparticles with enhanced stability, mucoadhesion and permeation properties

    • Authors: GM Soliman, YL Zhang, G Merle, M Cerruti, J Barralet

    • Year: 2014

    • Citations: 81

  8. Simulation of a full fuel cell membrane electrode assembly using pore network modeling

    • Authors: M Aghighi, MA Hoeh, W Lehnert, G Merle, J Gostick

    • Year: 2016

    • Citations: 71

  9. Exploring the impact of electrode microstructure on redox flow battery performance using a multiphysics pore network model

    • Authors: MA Sadeghi, M Aganou, M Kok, M Aghighi, G Merle, J Barralet, J Gostick

    • Year: 2019

    • Citations: 69

 

Dan Yang | Chemical Engineering | Best Researcher Award

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Assoc. Prof. Dr. Dan Yang | Chemical Engineering | Best Researcher Award

School of Chemistry and Molecular Engineering, Nanjing Tech University, China

Dan Yang is an accomplished associate professor at Nanjing Tech University, specializing in chemistry and molecular engineering. With a strong academic foundation and extensive research experience, she focuses on the synthesis of metal nanoclusters and their applications in photoelectrocatalysis and electrocatalysis. Her research aims to develop innovative solutions for CO2 reduction and biomass conversion, contributing to sustainable chemical processes. Throughout her career, she has made significant contributions to the field, authoring multiple high-impact publications in renowned scientific journals. Dan Yang has successfully secured competitive research grants, demonstrating her expertise in securing funding for cutting-edge projects. With her deep-rooted knowledge in physical chemistry and material science, she continues to make impactful strides in catalysis research, earning recognition and respect in her field.

Professional Profile

ORCID Profile

Education

Dan Yang has an extensive academic background in chemistry and material science. She earned her doctoral degree in physical chemistry from Nanjing University (2017–2020) under the supervision of Professors Weiping Ding and Yan Zhu. During her doctoral studies, she focused on the catalytic conversion of C1 molecules using metal clusters. Prior to this, she obtained a master’s degree in material science from Sun Yat-sen University (2012–2014), where she worked under Professor Yuezhong Meng, specializing in the development of advanced materials. Her educational journey began at Northwest Normal University, where she completed her bachelor’s degree in chemistry (2008–2012), building a strong foundation in chemical principles and laboratory techniques. This diverse and robust educational background has equipped Dan Yang with the expertise to conduct innovative research in electrocatalysis and sustainable chemical processes.

Professional Experience

Dan Yang’s professional career reflects her dedication to advancing chemical research. She is currently an associate professor at Nanjing Tech University (2023–present), where she leads research on metal nanocluster synthesis and their applications in photoelectrocatalysis and electrocatalysis of C1 molecules and biomass conversion. Prior to her current role, she served as a postdoctoral researcher at the same university (2021–2022), where she worked on electrocatalytic CO2 reduction reactions (CO2RR) and the conversion of biomass derivatives into valuable chemical products. From 2014 to 2016, she was an assistant research fellow at the Guangzhou Institute of Energy Conversion, Chinese Academy of Sciences. There, she contributed to the development of fine chemicals, including phase-change materials, epoxide plasticizers, and bio-based polyols. Her diverse professional experience underscores her expertise in catalysis, sustainable chemical synthesis, and material science.

Research Interests

Dan Yang’s research interests revolve around catalysis and sustainable chemistry. She specializes in the synthesis of metal nanoclusters and their catalytic applications in photoelectrocatalysis and electrocatalysis. Her current focus includes CO2 reduction reactions (CO2RR) to produce carbon monoxide (CO) and formic acid (HCOOH), offering potential solutions for carbon capture and utilization. She also explores the electrocatalytic transformation of biomass-derived molecules, such as glycerol and glucose, into valuable carboxylic acid products. Additionally, her work investigates the evolution of metal-ligand interfaces in nanoclusters and their impact on catalytic performance. Through her research, Dan Yang aims to develop efficient and sustainable catalytic systems that address environmental challenges and promote green chemical processes.

Research Skills

Dan Yang possesses a diverse set of research skills in the fields of catalysis and material science. She is highly proficient in the synthesis and characterization of metal nanoclusters, utilizing techniques such as transmission electron microscopy (TEM), X-ray photoelectron spectroscopy (XPS), and nuclear magnetic resonance (NMR) to analyze cluster structures. Her expertise extends to electrochemical methods, including cyclic voltammetry and chronoamperometry, for evaluating catalytic performance. Additionally, she has experience in biomass conversion processes, utilizing electrocatalysis and photoelectrocatalysis techniques. Her analytical skills include advanced data interpretation and the use of computational tools for modeling catalytic reactions. Dan Yang’s technical proficiency enables her to design and optimize catalytic systems for efficient and selective chemical transformations.

Awards and Honors

Dan Yang has received several prestigious awards and research grants in recognition of her contributions to catalysis research. She was awarded the Young Scientists Fund of the National Natural Science Foundation of China (NSFC) for her project on the evolution of metal-ligand interfaces in gold clusters for CO2 reduction (2025–2027). She also leads a sub-project of the NSFC International Cooperation and Exchanges Program, focusing on new catalysts and materials for CO2 capture and conversion (2024–2026). Additionally, she secured funding from the Jiangsu Natural Science Foundation of China for her work on glycerol carbonate synthesis through electrochemical CO2 conversion (2023–2026). Dan Yang previously received support from the China Postdoctoral Science Foundation for her research on electrolyte-regulated CO2RR using gold clusters (2022–2023). These accolades highlight her innovative research and scientific impact.

Conclusion

Dan Yang is a distinguished researcher and associate professor with a profound expertise in catalysis, material science, and sustainable chemical processes. Her academic journey, spanning from physical chemistry to material science, has equipped her with the skills and knowledge to tackle complex challenges in CO2 reduction and biomass conversion. With a prolific publication record and multiple research grants, she continues to make significant contributions to the field. Her commitment to advancing sustainable catalytic processes reflects her dedication to addressing pressing environmental challenges. Through her innovative research, Dan Yang remains at the forefront of scientific discovery, driving advancements in electrocatalysis and green chemistry.

Publications Top Notes

  1. Metal-ligand interfaces for well-defined gold nanoclusters
    Authors: Yang, Dan; Wu, Yating; Yuan, Zhaotong; Zhou, Chunmei; Dai, Yihu; Wan, Xiaoyue; Zhu, Yan; Yang, Yanhui
    Journal: Science China Chemistry

  2. Atomically Precise Water-Soluble Gold Nanoclusters: Synthesis and Biomedical Application
    Authors: Yan, Qian; Yuan, Zhaotong; Wu, Yating; Zhou, Chunmei; Dai, Yihu; Wan, Xiaoyue; Yang, Dan; Liu, Xu; Xue, Nianhua; Zhu, Yan
    Journal: Precision Chemistry

  3. Direct dehydrogenation of propane over Co@silicalite-1 zeolite: Steaming-induced restructuring of Co2+ active sites
    Authors: Long, Jiangping; Tian, Suyang; Wei, Sheng; Lin, Hongqiao; Shi, Guiwen; Zong, Xupeng; Yang, Yanhui; Yang, Dan; Tang, Yu; Dai, Yihu
    Journal: Applied Surface Science

  4. Metal-carbonate interface promoted activity of Ag/MgCO3 catalyst for aqueous-phase formaldehyde reforming into hydrogen
    Authors: Wang, Qiaojuan; Wang, Jianyue; Rui, Wenjuan; Yang, Dan; Wan, Xiaoyue; Zhou, Chunmei; Li, Renhong; Liu, Wen; Dai, Yihu; Yang, Yanhui
    Journal: Fuel

  5. Nonoxidative propane dehydrogenation by isolated Co2+ in BEA zeolite: Dealumination-determined key steps of propane C-H activation and propylene desorption
    Authors: Wei, Sheng; Dai, Hua; Long, Jiangping; Lin, Hongqiao; Gu, Junkun; Zong, Xupeng; Yang, Dan; Tang, Yu; Yang, Yanhui; Dai, Yihu
    Journal: Chemical Engineering Journal

  6. Investigation into the coking-related key reaction steps in dry reforming of methane over NiMgOx catalyst
    Authors: Wang, Jianyue; Wang, Jiawei; Wei, Sheng; Zhang, Yiwen; Tian, Fuhou; Yang, Dan; Kustov, Leonid M.; Yang, Yanhui; Dai, Yihu
    Journal: Molecular Catalysis

  7. Ball-milling-induced phase transition of ZrO2 promotes selective oxidation of glycerol to dihydroxyacetone over supported PtBi bimetal catalyst
    Authors: Luo, Pan; Wang, Jianyue; Rui, Wenjuan; Xu, Ruilin; Kuai, Zhiyuan; Yang, Dan; Wan, Xiaoyue; Zhou, Chunmei; Yang, Yanhui; Dai, Yihu
    Journal: Chemical Engineering Journal

  8. Catalytic Conversion of C1 Molecules on Atomically Precise Metal Nanoclusters (vol 4, pg 66, 2022)
    Authors: Not listed
    Journal: CCS Chemistry

  9. Non-oxidative propane dehydrogenation over Co/Ti-ZSM-5 catalysts: Ti species-tuned Co state and surface acidity
    Authors: Wu, Yueqi; Long, Jiangping; Wei, Sheng; Gao, Yating; Yang, Dan; Dai, Yihu; Yang, Yanhui
    Journal: Microporous and Mesoporous Materials

  10. On the effect of zeolite acid property and reaction pathway in Pd-catalyzed hydrogenation of furfural to cyclopentanone
    Authors: Gao, Xing; Ding, Yingying; Peng, Lilin; Yang, Dan; Wan, Xiaoyue; Zhou, Chunmei; Liu, Wen; Dai, Yihu; Yang, Yanhui
    Journal: Fuel

  11. Research Progress in Electrocatalytic CO2 Reduction Reaction over Gold Clusters
    Authors: Yang, Dan; Liu, Xu; Dai, Yihu; Zhu, Yan; Yang, Yanhui
    Journal: Chemical Journal of Chinese Universities

  12. Electrocatalytic CO2 Reduction over Atomically Precise Metal Nanoclusters Protected by Organic Ligands
    Authors: Yang, Dan; Wang, Jiawei; Wang, Qiaojuan; Yuan, Zhaotong; Dai, Yihu; Zhou, Chunmei; Wan, Xiaoyue; Zhang, Qichun; Yang, Yanhui
    Journal: ACS Nano

  13. Chemoselective Oxidation of Glycerol over Platinum‐Based Catalysts: Toward the Role of Oxide Promoter
    Authors: Not listed
    Journal: ChemCatChem

  14. Catalytic Conversion of C1 Molecules on Atomically Precise Metal Nanoclusters
    Authors: Not listed
    Journal: CCS Chemistry

  15. Distinct chemical fixation of CO2 enabled by exotic gold nanoclusters
    Authors: Yang, Dan; Song, Yu; Yang, Fang; Sun, Yongnan; Li, Shuohao; Liu, Xu; Zhu, Yan; Yang, Yanhui
    Journal: The Journal of Chemical Physics

  16. A survey of recent progress on novel catalytic materials with precise crystalline structures for oxidation/hydrogenation of key biomass platform chemicals
    Authors: Not listed
    Journal: EcoMat

  17. Selective CO2 conversion tuned by periodicities in Au8n+4(TBBT)4n+8 nanoclusters
    Authors: Not listed
    Journal: Nano Research

  18. Evolution of catalytic activity driven by structural fusion of icosahedral gold cluster cores
    Authors: Not listed
    Journal: Chinese Journal of Catalysis

  19. Ligand-protected Au4Ru2 and Au5Ru2 nanoclusters: distinct structures and implications for site-cooperation catalysis
    Authors: Not listed
    Journal: Chemical Communications

  20. Structural Relaxation Enabled by Internal Vacancy Available in a 24-Atom Gold Cluster Reinforces Catalytic Reactivity
    Authors: Not listed
    Journal: Journal of the American Chemical Society

  21. Controllable Conversion of CO2 on Non‐Metallic Gold Clusters
    Authors: Not listed
    Journal: Angewandte Chemie International Edition

  22. Sequence isomerism-dependent self-assembly of glycopeptide mimetics with switchable antibiofilm properties
    Authors: Chen, Limin; Feng, Jie; Yang, Dan; Tian, Falin; Ye, Xiaomin; Qian, Qiuping; Wei, Shuai; Zhou, Yunlong
    Journal: Chemical Science

  23. Switchable modulation of bacterial growth and biofilm formation based on supramolecular tripeptide amphiphiles
    Authors: Chen, Limin; Yang, Dan; Feng, Jie; Zhang, Min; Qian, Qiuping; Zhou, Yunlong
    Journal: Journal of Materials Chemistry B

  24. The Evolution in Catalytic Activity Driven by Periodic Transformation in the Inner Sites of Gold Clusters
    Authors: Sun, Yongnan; Wang, Endong; Ren, Yujing; Xiao, Kang; Liu, Xu; Yang, Dan; Gao, Yi; Ding, Weiping; Zhu, Yan
    Journal: Advanced Functional Materials

Chuan-Pei Lee | Chemical Engineering | Best Researcher Award

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Assoc. Prof. Dr. Chuan-Pei Lee | Chemical Engineering | Best Researcher Award

Associate Professor at Department of Applied Physics and Chemistry/University of Taipei, Taiwan

Professor Chuan-Pei Lee is an esteemed researcher in the fields of nanomaterials, solar energy, and electrochemical applications. Currently serving as an Associate Professor in the Department of Applied Physics and Chemistry at the University of Taipei, he has made significant contributions to renewable energy research. With a Ph.D. in Chemical Engineering from National Taiwan University, his expertise spans photocatalysis, energy storage devices, and water-splitting technologies. Prof. Lee has authored 117 SCI papers and 13 book chapters, earning a Google Scholar citation count of 5,537 with an H-index of 44. His research has been published in high-impact journals such as ACS Omega, Nano Energy, and J. Mater. Chem. A. Additionally, he has collaborated with international researchers and contributed to advancing sustainable energy solutions. His dedication to interdisciplinary research and scientific advancements makes him a prominent figure in his field.

Professional Profile

Education

Prof. Chuan-Pei Lee received his Ph.D. in Chemical Engineering from National Taiwan University in 2012, where he specialized in nanomaterials and energy conversion systems. His doctoral research focused on the synthesis and application of functional materials for energy devices, including dye-sensitized solar cells and electrocatalysts. Prior to his Ph.D., he completed his Master’s and Bachelor’s degrees in related fields, building a strong foundation in applied chemistry and physics. To further his expertise, he pursued postdoctoral research at the University of California, Berkeley, where he worked on 2D-layered transition metal dichalcogenides for electrochemical energy applications. His academic journey has been marked by a commitment to advancing energy-efficient technologies and exploring innovative nanostructured materials.

Professional Experience

Prof. Chuan-Pei Lee has held multiple academic and research positions that reflect his dedication to scientific innovation. Since joining the University of Taipei as an Associate Professor, he has led various research initiatives focusing on energy storage, nanomaterial synthesis, and catalysis. Prior to his current role, he conducted postdoctoral research at the University of California, Berkeley, where he explored the properties of 2D materials for energy applications. Over the years, he has collaborated with leading institutions and research groups, contributing to breakthrough studies in sustainable energy and nanotechnology. His work extends beyond academia, involving participation in industrial research projects and government-funded studies aimed at developing next-generation energy solutions.

Research Interests

Prof. Lee’s research interests revolve around renewable energy and nanotechnology. His work primarily focuses on the synthesis and application of nanomaterials for energy storage and conversion, including supercapacitors, photocatalytic CO₂ reduction, and dye-sensitized solar cells. He is particularly interested in exploring novel electrocatalysts for hydrogen evolution and oxygen reduction reactions, aiming to improve the efficiency of energy conversion devices. His studies on carbon-based materials, metal oxides, and transition metal dichalcogenides contribute to advancements in sustainable and efficient energy technologies. By integrating electrochemical techniques, he seeks to develop cost-effective and environmentally friendly energy solutions.

Research Skills

Prof. Lee possesses extensive expertise in nanomaterials synthesis, electrochemical analysis, and energy device fabrication. He is proficient in advanced characterization techniques such as X-ray diffraction (XRD), scanning electron microscopy (SEM), and transmission electron microscopy (TEM) for material analysis. His experience includes the development of thin-film electrodes, nanostructured catalysts, and hybrid composite materials for solar energy applications. Additionally, he specializes in electrochemical impedance spectroscopy (EIS) and cyclic voltammetry (CV) to evaluate the performance of energy storage systems. His ability to integrate materials science with electrochemical engineering makes him a versatile researcher in the field of applied physics and chemistry.

Awards and Honors

Prof. Chuan-Pei Lee has received several awards and recognitions for his outstanding contributions to research. His high-impact publications and innovative work in nanotechnology have earned him accolades from prestigious institutions and scientific societies. He has been recognized for his contributions to sustainable energy research and has received grants for his pioneering studies on nanostructured materials. His role as a corresponding author in multiple high-impact journals highlights his influence in the field. Additionally, he has been invited to present his research at international conferences and symposiums, further solidifying his reputation as a leading expert in applied physics and chemistry.

Conclusion

Prof. Chuan-Pei Lee is a highly accomplished researcher with a strong academic background, significant research contributions, and extensive expertise in nanomaterials and energy applications. His work in sustainable energy technologies, coupled with his proficiency in electrochemical techniques, has positioned him as a leader in his field. With a remarkable publication record and international collaborations, he continues to drive advancements in energy storage and conversion. His dedication to scientific discovery and innovation makes him a deserving candidate for prestigious research awards. Moving forward, his contributions to renewable energy solutions will play a crucial role in shaping the future of clean energy technologies.

Publications Top Notes

  1. Title: Use of organic materials in dye-sensitized solar cells
    Authors: CP Lee, CT Li, KC Ho
    Year: 2017
    Citations: 342

  2. Title: Recent progress in organic sensitizers for dye-sensitized solar cells
    Authors: CP Lee, RYY Lin, LY Lin, CT Li, TC Chu, SS Sun, JT Lin, KC Ho
    Year: 2015
    Citations: 270

  3. Title: Organic dyes containing carbazole as donor and π-linker: optical, electrochemical, and photovoltaic properties
    Authors: A Venkateswararao, KRJ Thomas, CP Lee, CT Li, KC Ho
    Year: 2014
    Citations: 200

  4. Title: A paper-based electrode using a graphene dot/PEDOT: PSS composite for flexible solar cells
    Authors: CP Lee, KY Lai, CA Lin, CT Li, KC Ho, CI Wu, SP Lau, JH He
    Year: 2017
    Citations: 163

  5. Title: Conducting polymer-based counter electrode for a quantum-dot-sensitized solar cell (QDSSC) with a polysulfide electrolyte
    Authors: MH Yeh, CP Lee, CY Chou, LY Lin, HY Wei, CW Chu, R Vittal, KC Ho
    Year: 2011
    Citations: 142

  6. Title: Iodine-free high efficient quasi solid-state dye-sensitized solar cell containing ionic liquid and polyaniline-loaded carbon black
    Authors: CP Lee, PY Chen, R Vittal, KC Ho
    Year: 2010
    Citations: 135

  7. Title: Unsymmetrical squaraines incorporating the thiophene unit for panchromatic dye-sensitized solar cells
    Authors: JY Li, CY Chen, CP Lee, SC Chen, TH Lin, HH Tsai, KC Ho, CG Wu
    Year: 2010
    Citations: 109

  8. Title: 2,7-Diaminofluorene-based organic dyes for dye-sensitized solar cells: effect of auxiliary donor on optical and electrochemical properties
    Authors: A Baheti, P Singh, CP Lee, KRJ Thomas, KC Ho
    Year: 2011
    Citations: 108

  9. Title: Beaded stream-like CoSe₂ nanoneedle array for efficient hydrogen evolution electrocatalysis
    Authors: CP Lee, WF Chen, T Billo, YG Lin, FY Fu, S Samireddi, CH Lee, …
    Year: 2016
    Citations: 98

  10. Title: Fluorene-based sensitizers with a phenothiazine donor: effect of mode of donor tethering on the performance of dye-sensitized solar cells
    Authors: A Baheti, KR Justin Thomas, CT Li, CP Lee, KC Ho
    Year: 2015
    Citations: 95

Corby Anderson | Chemical Engineering | Best Researcher Award

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Prof. Dr. Corby Anderson | Chemical Engineering | Best Researcher Award

Director, Kroll Institute for Extractive Metallurgy at Colorado School of Mines, United States

Dr. Corby G. Anderson is a highly experienced Licensed Professional Chemical Engineer with over 40 years in engineering design, industrial plant operations, research, consulting, and teaching. His career spans multiple continents and industries, including metallurgy, pyrometallurgy, hydrometallurgy, environmental recycling, and mineral processing. Dr. Anderson has developed and implemented significant technologies, such as the Nitrogen Species Catalyzed (NSC) Pressure Oxidation and Alkaline Sulfide Leaching (ASL) technologies. Throughout his career, he has successfully led teams in research, process development, engineering design, and industrial operations. In addition to his industrial achievements, Dr. Anderson has published extensively, authored numerous peer-reviewed articles, and contributed to over 600 presentations. His work is highly respected in the global mineral processing and metallurgical sectors.

Professional Profile

Education:

Dr. Corby G. Anderson earned his academic credentials through extensive education, though specific degrees are not detailed in the provided information. His qualifications and hands-on experience in engineering and metallurgy have shaped his professional trajectory. Dr. Anderson’s academic expertise spans various subjects, including chemical engineering, extractive metallurgy, mineral processing, and chemical kinetics. He has taught and mentored students at the graduate level, emphasizing practical applications of these principles.

Professional Experience:

Dr. Anderson has had a distinguished career in both academia and industry. He has worked internationally in over 40 countries, contributing to significant advancements in metallurgy, hydrometallurgy, and pyrometallurgy. As Chief Process Engineer at Sunshine Mining and Refining, he pioneered innovative technologies such as the NSC Pressure Oxidation and ASL. He also served as Director of the Center for Advanced Mineral and Metallurgical Processing at Montana Tech, leading it to become a globally recognized institution. Throughout his career, Dr. Anderson has held leadership positions, including CEO, Director, and Technical Advisor for several private and public companies, while also maintaining an active role in consulting and professional services.

Research Interests:

Dr. Anderson’s research interests primarily focus on hydrometallurgy, pyrometallurgy, mineral processing, and extractive metallurgy. He has developed and implemented technologies aimed at improving the extraction, refining, and recovery of metals such as gold, silver, cobalt, and copper. His work in process development, engineering design, and environmental impact has had substantial industrial and academic implications. He is particularly interested in creating more efficient and sustainable methods of metal recovery, refining processes, and improving recycling techniques. He has also worked on advancing nano-technologies in metallurgy.

Research Skills:

Dr. Anderson possesses a diverse set of research skills, which include the development of new metallurgical processes, pilot plant design, engineering process optimization, and environmental management in mineral processing. He has extensive expertise in laboratory and field research, feasibility studies, and the management of large-scale industrial operations. His experience in mineral and metallurgical processes is complemented by his knowledge in process control, separations, purifications, refining, and electrolysis. He is skilled in working across various engineering and scientific disciplines to drive technological innovations in metallurgy and mining. Additionally, Dr. Anderson has strong analytical, leadership, and communication skills, having guided numerous research teams and published widely.

Awards and Honors:

Dr. Anderson has received numerous prestigious awards and honors throughout his career. These include the TMS Distinguished Service Award, the Milton E. Wadsworth Award for Chemical Metallurgy, and the IPMI Jun-ichiro Tanaka Distinguished Achievement Award. He has also been recognized by the Society for Mining, Metallurgy, and Exploration (SME) with the MPD Millman of Distinction Award and the Taggart Award. In addition, Dr. Anderson has received the Distinguished Researcher Award from Montana Tech and the Distinguished Alumni Award from the same institution. He has been named a Fellow of the Institution of Chemical Engineers and a Fellow of the Institute of Materials, Minerals and Mining. These accolades reflect his significant contributions to the fields of metallurgy, mineral processing, and engineering research.

Conclusion

Dr. Corby G. Anderson exemplifies the epitome of a best researcher through his groundbreaking contributions, leadership in both academia and industry, and a consistent record of innovation and mentorship. His extensive international experience, proven track record in developing novel technologies, and continuous engagement with both the scientific and industrial sectors position him as an ideal candidate for the Best Researcher Award. His diverse achievements, ranging from global patents to leadership roles in professional organizations, make him a standout figure in his field. By expanding his research focus to include emerging technologies and strengthening interdisciplinary collaborations, Dr. Anderson’s future contributions could further cement his legacy in the scientific community.

Publication Top Notes

  • The metallurgy of antimony
    Authors: CG Anderson
    Year: 2012
    Journal: Geochemistry 72, 3-8
    Citations: 340
  • Cyanide: Social, Industrial and Economic Aspects
    Authors: C.G. A. Young, L.G. Twidwell
    Year: 2001
    Journal: TMS
    Citations: 278*
  • Literature review of hydrometallurgical recycling of printed circuit boards (PCBs)
    Authors: H Cui, CG Anderson
    Year: 2016
    Journal: J. Adv. Chem. Eng 6 (1), 142-153
    Citations: 157
  • Rare earths: market disruption, innovation, and global supply chains
    Authors: R Eggert, C Wadia, C Anderson, D Bauer, F Fields, L Meinert, P Taylor
    Year: 2016
    Journal: Annual Review of Environment and Resources 41 (1), 199-222
    Citations: 146
  • Hydrometallurgical recovery of rare earth elements from NdFeB permanent magnet scrap: A review
    Authors: Y Zhang, F Gu, Z Su, S Liu, C Anderson, T Jiang
    Year: 2020
    Journal: Metals 10 (6), 841
    Citations: 96
  • Global electrification of vehicles and intertwined material supply chains of cobalt, copper and nickel
    Authors: RT Nguyen, RG Eggert, MH Severson, CG Anderson
    Year: 2021
    Journal: Resources, Conservation and Recycling 167, 105198
    Citations: 89
  • Extractive metallurgy of rhenium: a review
    Authors: CD Anderson, PR Taylor, CG Anderson
    Year: 2013
    Journal: Mining, Metallurgy & Exploration 30, 59-73
    Citations: 85
  • A review of the cyanidation treatment of copper-gold ores and concentrates
    Authors: D Medina, CG Anderson
    Year: 2020
    Journal: Metals 10 (7), 897
    Citations: 82
  • A primer on hydrometallurgical rare earth separations
    Authors: B Kronholm, CG Anderson, PR Taylor
    Year: 2013
    Journal: Jom 65, 1321-1326
    Citations: 78
  • An assessment of US rare earth availability for supporting US wind energy growth targets
    Authors: DD Imholte, RT Nguyen, A Vedantam, M Brown, A Iyer, BJ Smith, …
    Year: 2018
    Journal: Energy Policy 113, 294-305
    Citations: 75

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👤

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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