Andrea LandƔzuri | Nanomaterials for Energy | Best Researcher Award

Posted on by ScienceFather

Prof. Andrea LandƔzuri | Nanomaterials for Energy | Best Researcher Award

Prof. Andrea LandƔzuri, Universidad San Francisco de Quito, Ecuador

Prof. Andrea LandĆ”zuri is a visionary chemical engineer from Ecuador šŸ‡ŖšŸ‡Ø. Holding a Ph.D. from the University of Arizona, she leads the Applied Circular Engineering & Simulation Group (GICAS) at Universidad San Francisco de Quito. Her diverse research interests span sustainable electronics, environmental transport, and wastewater treatment. Driven by a passion for green science, she founded the Engineers Without Borders chapter in Ecuador and directs projects fostering circular engineering. As a Full Professor, she imparts knowledge in subjects like Transport Phenomena and Computational Methods. An advocate for STEM entrepreneurship, she is also the owner of Natural Eco ā€“ Body, Home & HealthĀ®, crafting vegan cosmetics with ecological packaging. Prof. LandĆ”zuri’s impactful contributions extend globally, focusing on innovation, sustainability, and the water, energy, and food (WEF) nexus. šŸŒ±šŸŒŽšŸ”¬

šŸŽ“ Education:

Ph.D. in Chemical Engineering, The University of Arizona, 2016. M.Sc. in Chemical Engineering, The University of Arizona, 2011. B.S. in Chemical Engineering (Cum Laude), USFQ, Ecuador, 2007.

šŸ† Recognitions:

USFQ College of Science and Engineering Award of Leadership 2017. USFQ College of Science and Engineering Award of Entrepreneurship 2016. Newton Scholar for Undergraduate Studies-USFQ.

šŸŒ Memberships:

Science Academy of Ecuador. American Institute of Chemical Engineers (AIChE). Women in Science and Engineering (WISE), USFQ. BiĆ³sfera Institute of Environmental and Biological Studies, USFQ.

šŸŒ± Relevant Experience:

Founder and Director of the Applied Circular Engineering & Simulation Group (GICAS) since 2014. Founder of Engineers Without Borders-Ecuador in 2015. Owner of Natural Eco ā€“ Body, Home & HealthĀ® since 2020. Public servant in the Program for the Decontamination of Quitoā€™s Rivers (2012-2014). Research Assistant at the University of Arizona (2007-2011).

šŸ”¬ Relevant Grants:

Leader in projects on hydrochars, nanomedicine, and removal of pollutants, securing grants from various sources including CEDIA, Ben Gurion University, and the Inter-American Development Bank.

šŸ“š Academic Contributions:

Actively involved in academia, serving as a Board Member of the Science Academy of Ecuador, AIChE Student Chapter Advisor, and a 21st Century Faculty member at Virginia Tech.

šŸŒŸ Entrepreneurship:

Dr. LandƔzuri supports entrepreneurship projects by advising the AIChE Student Chapter and has founded a vegan cosmetics brand, Natural Eco.

šŸŒ Global Impact:

Her Applied Circular Engineering & Simulation Group focuses on developing sustainable solutions with a global perspective, contributing to fields like green process engineering, electronics, and wastewater treatment.

šŸ“ Publications and Editorial Roles:

Dr. LandĆ”zuri serves as an Editorial Board member in the Journal “Avances en Ciencias e IngenierĆ­a” at USFQ and has contributed to education blogs and papers.

Professional Profiles:

The impact of her research is evident in citation metrics and indices from Google Scholar:

  • Cited by: All ā€“ 996.
  • Citations ā€“ 996.
  • h-index ā€“ 8.
  • Documents ā€“ 53.

A prolific researcher making meaningful contributions to the academic world!

šŸ”¬ Research Focus:

Prof. Andrea LandĆ”zuri’s research focuses on environmental engineering šŸŒæ, with a particular emphasis on sustainable water treatment technologies šŸ’§. Her work delves into the intricate interplay between contaminants and natural resources, such as metals and metalloids from mining operations, and explores innovative methods for their removal and mitigation. Through her studies on materials like Moringa oleifera Lam., she seeks to harness nature’s potential in addressing water pollution challenges sustainably. Dr. LandĆ”zuri’s dedication to circular bioeconomy šŸ”„ and zero-waste technologies underscores her commitment to advancing environmental sustainability and fostering sustainable development šŸŒ.

Publications Top Note:

Yonghong Fu | Nanomaterials for Energy | Best Researcher Award

Posted on by ScienceFather

Dr. Yonghong Fu | Nanomaterials for Energy | Best Researcher Award

Dr. Yonghong Fu, School of Earth Science and Technology, Southwest Petroleum University, China

šŸŽ“ Dr. Yonghong Fu is a distinguished scholar from the School of Earth Science and Technology at Southwest Petroleum University, China. Over a decade of academic pursuit led him to achieve bachelor’s, master’s, and doctoral degrees in Geological Resources and Geological Engineering. Noteworthy accolades include the Second Prize of Chongqing Science and Technology Progress Award and a string of scholarships for academic excellence. His impactful research encompasses over 20 publications, including 8 SCI papers and 4 national invention patents. An adept project leader, Dr. Fu successfully secured funding for multiple key initiatives from prestigious institutions, showcasing his commitment to advancing geological sciences. šŸŒā›ļøšŸ“š

šŸŽ“ Education:

Bachelor’s, Master’s, and Doctoral degrees in Geological Resources and Geological Engineering from the School of Earth Science and Technology, Southwest Petroleum University (2010 – Present)

šŸ† Academic Achievements:

Second Prize of Chongqing Science and Technology Progress Award (7th place). National Scholarship, National Inspirational Scholarship. First Class Academic Scholarship. Outstanding Student Cadre, Outstanding Youth League Member. Outstanding Three Good Students, Outstanding Graduates at the school level. Approved for a key project of Sichuan Provincial Department of Science and Technology‘s Seedling Engineering. Published more than 20 domestic and foreign papers, including 8 SCI papers and 4 national invention patents. Published one monograph. Attended one international academic conference in the United States and five domestic academic conferences. Approved for the 2019 China Association for Science and Technology‘s Excellent Sino-foreign Youth Exchange Program.

šŸ”¬ Research & Development Contributions:

Led over 10 scientific research projects funded by the National Natural Science Foundation of China, PetroChina, Sinopec, and others. Conducted groundbreaking research on micro- and nano-scale pores in shale reservoirs. Developed innovative testing methods using field emission-scanning electron microscopy and methane-saturated nuclear magnetic resonance tests. Investigated Longmaxi shale cores from different burial depths in Zhaotong, Weiyuan, and Luzhou areas. Established an NMR method for saturated methane to test free gas content and predict shale reservoirs at different burial depths. Revealed the impact of burial depth and pore structure on shale gas content. Predicted total gas content in deep shale reservoirs, enhancing confidence in exploration and development possibilities.

šŸŒ International Recognition:

Successfully approved for the 2019 China Association for Science and Technology‘s Excellent Sino-foreign Youth Exchange Program. Presented research findings at an international academic conference in the United States.

šŸ” Current Focus:

Continuing research and exploration in the field of Geological Resources and Geological Engineering. Actively involved in ongoing scientific research projects and contributing to advancements in shale gas reservoir understanding.

Professional Profiles:

The impact of her research is evident in citation metrics and indices from Google Scholar:

  • Cited by: All ā€“ 359.
  • Citations ā€“ 301.
  • h-index ā€“ 33.
  • Documents ā€“ 12.

A prolific researcher making meaningful contributions to the academic world!

šŸŒ‹ Research Focus

Dr. Yonghong Fu specializes in the sedimentology and geochemistry of shale formations, particularly focusing on the Lower Permian Shanxi Formation Shan 23 Submember Transitional Shale in the Eastern Ordos Basin, North China. His research has garnered attention with 14 citations in 2022, highlighting the significance of his contributions. Dr. Fu’s work extends to the characterization of pore structure and heterogeneity in Western Chongqing’s Wufeng Formation-Sublayers Long-11 shale, as well as lithofacies division and reservoir development factors in the Luzhou region. His expertise also delves into nanoscale pore characteristics, influencing shale gas occurrence and exploration potential in various basins, showcasing a comprehensive understanding of shale reservoirs. šŸŖØšŸ”¬

Publications Top Note:

Fan Shu | Nanomaterials for Energy | Best Researcher Award

Posted on by ScienceFather

Mr. Fan Shu | Nanomaterials for Energy | Best Researcher Award

Mr. Fan Shu, Shanghai Jiao Tong University, China

šŸŒŸ Mr. Fan Shu is a dynamic researcher at Shanghai Jiao Tong University, China, specializing in the synthesis and characterization of organic materials. With over 3 years of laboratory experience, he excels in constructing and testing two-terminal memristors. His proficiency extends to analyzing materials using TEM, SEM, UV-Vis, IR, Raman, PL, and 1H-NMR, employing software like MestReNova and NanoScope Analysis. As a project leader and first author, Fan Shu has contributed significantly to studies on photoelectric memristive properties and metal-organic framework-based electronic materials. Currently pursuing a master’s in Electronic Information, his dedication is reflected in numerous academic honors and certifications. šŸ§ŖšŸ”¬āœØ

šŸŽ“ Education:

Fan Shu is currently pursuing a Master’s degree in Electronic Information at Shanghai Jiao Tong University, building on his solid foundation in Chemistry earned during his Bachelor’s (2019-2023). His academic journey reflects excellence, receiving the School’s Excellent Scholarships B and C in consecutive academic years. Beyond his core curriculum, he has demonstrated proficiency in English, holding certificates for College English Test Band 4 and Band 6, as well as achieving an IELTS score of 6.0.

šŸ“„ Research Achievements:

As a Project Leader for the “Interface Preparation of Two-Dimensional Polymer Films,” Fan Shu conducted experiments under the Participation in Research (PRP) Program. Additionally, he authored a review article, “Metal-Organic Framework based Electronic Materials and Devices,” demonstrating his comprehensive understanding of the field. Furthermore, his published research paper, “Functionalization of Violet Phosphorus Quantum Dots with Azo-Containing Star-Shape Polymer for Optically Controllable Memory,” highlights his impactful contributions.

šŸ† Honors & Certificates:

Apart from academic achievements, Fan Shu has been recognized with multiple scholarships, including the Excellent Scholarship B and C. He holds certificates for College English Test Band 4 and Band 6, showcasing his linguistic proficiency. As a member of the Chinese Institute of Electronics, he actively engages with professional communities.

Professional Profiles:

šŸ”¬ Research Focus:

šŸ‘Øā€šŸ”¬ Mr. Fan Shu, a dedicated researcher at Shanghai Jiao Tong University, focuses on the cutting-edge intersection of chemistry and electronics. His primary research thrust lies in the functionalization of Violet Phosphorus Quantum Dots using Azo-Containing Star-Shape Polymer, a groundbreaking exploration with implications for optically controllable memory. Additionally, his work extends to the realm of Metalā€“Organic Frameworks (MOFs), delving into the synthesis and application of MOFs in memristors. With an astute understanding of materials and their device-level applications, Fan Shu emerges as a promising contributor to the evolving landscape of nanoelectronics and optoelectronics. šŸŒŒšŸ§ 

Publications Top Note:

Jude Iroh | Nanomaterials for Energy | Best Researcher Award

Posted on by ScienceFather

Prof Dr. Jude Iroh | Nanomaterials for Energy | Best Researcher Award

Prof Dr. Jude Iroh, University of Cincinnati, United States

šŸŽ“šŸ”¬ Prof Dr. Jude Iroh is a distinguished materials scientist and educator. With a Ph.D. in Materials Science from the University of Connecticut, his expertise spans polymer science, engineering, and condensed matter physics. Currently a Professor at the University of Cincinnati, he has demonstrated outstanding leadership, heading departments and research centers. Prof. Iroh is a recognized Fellow of the Society for the Advancement of Materials and Process Engineering, with a trail of accolades, including the Distinguished Researcher Award. His contributions to journals, conference organization, and editorial roles underscore his commitment to advancing materials science. šŸ†šŸ“ššŸ”

šŸŽ“ Education:

B.Sc. in Applied Chemistry, University of Jos, Nigeria (1980). M.Sc. in Polymer Science & Engineering, University of Manchester, England (1984). Ph.D. in Materials Science (Polymers), University of Connecticut (1990).

šŸ‘Øā€šŸ« Academic Positions:

Professor, University of Cincinnati, Materials Science and Engineering (2002-Present). Director, Polymer Research Center (2009-2020). Vice-Chairman, Surface Engineering Sector, ASM International (2000-01).

šŸ† Honors & Awards:

Distinguished Researcher Award, University of Cincinnati (2015). Fellow, Society for the Advancement of Materials and Process Engineering (2004). Sigma Xi Young Investigator, University of Cincinnati (2001). ONR Young Investigator Award, Office of Naval Research (1995-1999).

šŸ“š Professional Activities:

Director, Graduate Program, Materials Science and Engineering Dept. (2000-01, 2008-09). Chair, MSE Department Program Review (2011-2012). Guest Editor, Topical Collection in Discover Nano, Springer Nature (2023-24). Associate Editor, Polymeric and Composite Materials, Frontiers in Materials (2023-).

šŸ… Leadership Roles:

Director, Graduate Program. Chair, MSE Faculty. Faculty Advisor, Society for Plastic Engineers. Vice-Chairman, Surface Engineering Sector, ASM International.

Professional Profiles:

šŸ”¬ Research Focus:

šŸ§ŖšŸ”¬ Prof. Dr. Jude Iroh, based at the University of Cincinnati, is a trailblazer in materials science. His research spans a diverse array of topics, showcasing a keen interest in the synthesis, properties, and applications of advanced materials. His contributions include elucidating the degradation mechanism of polymeric structures, fabricating high-impact-resistant nanocomposites, and enhancing electrode materials for energy storage devices. Prof. Iroh’s expertise extends to self-healing materials, thermal stability studies, and the development of fire-retardant polyimide copolymers. His work epitomizes a commitment to advancing materials for a spectrum of applications, from electronics to energy storage. šŸŒšŸ”šŸŒŸ

Publications Top Note:

Shizhi Dong | Nanomaterials for Energy | Best Researcher Award

Posted on by ScienceFather

Prof. Shizhi Dong: Nanomaterials for Energy: Best Researcher Award

Prof. Shizhi Dong, Liaoning Technical University, China

Prof. Shizhi Dong is a distinguished academic and researcher with a robust background in materials science and engineering. He embarked on his educational journey at Liaoning Technical University, culminating in a Ph.D. in Mechanical Design and Theory. With post-doctoral research at Beihang University’s School of Chemistry, he has honed expertise in controlled preparation and characterization of micro- and nanomaterials. Prof. Dong served as Deputy Secretary at Liaoning Technical University’s College of Materials Science and Engineering, assuming the role of Vice President since July 2019. His commitment to advancing material surface modification underscores his impactful contributions to the field. šŸŒšŸ‘Øā€šŸ”¬

šŸŽ“ Education:

1999-2003: Undergraduate in Materials Science and Engineering, Liaoning Technical University. 2003-2006: Master’s in Materials Processing Engineering, Liaoning Technical University. 2009-2016: PhD in Mechanical Design and Theory, Liaoning Technical University. 2017-2023: Post-doctoral research at Beihang University, School of Chemistry.

šŸ‘Øā€šŸ« Professional Experience:

2017-2019: Deputy Secretary, College of Materials Science and Engineering, Liaoning Technical University. 2019-Present: Vice President, College of Materials Science and Engineering, Liaoning Technical University.

šŸ† Mentoring Achievements:

Mentored students to win numerous awards in national and provincial-level innovation and creativity competitions. Notable achievements include awards in material forming technology, smart agriculture, smart ocean innovation, and more.

šŸŒŸ Recognition:

Received accolades in various competitions, showcasing excellence in research and innovation. A dynamic educator and researcher, Prof. Dong’s contributions continue to shape the landscape of Materials Science and Engineering.

šŸŽ–ļø Honors:

Acknowledged with provincial first prizes, special prizes, and outstanding awards in multiple competitions. Demonstrated leadership through roles such as Deputy Secretary and Vice President.

Professional Profiles:

The impact of her research is evident in citation metrics and indices from Google Scholar:

  • Cited by: All ā€“ 145.
  • Citations ā€“ 137.
  • h-index ā€“ 6.
  • Documents ā€“ 50.

A prolific researcher making meaningful contributions to the academic world!

Research Focus: šŸ§¬

Prof. Shizhi Dong’s research encompasses a diverse range of materials science and electrocatalysis. His notable contributions include pioneering work on the application of rare-earth high entropy boride in electrocatalytic hydrogen evolution reactions, presenting a promising avenue for clean energy production. šŸ”¬āš”ļøHe has delved into the impact of diffusion barriers, specifically Re-base, on the oxidation performance of gradient NiCoCrAlY coatings. Additionally, his investigations into controllable synthesis of crystal-amorphous heterostructures in transition metal phosphide shed light on enhancing overall water splitting efficiency. šŸŒŠProf. Dong’s expertise extends to optimizing Co content in intermetallic L10-FeCoPt nanoparticles for enhanced electrocatalytic performance, and exploring the effects of molybdenum phosphorus-based single/double-atom catalysts on the hydrogen evolution reaction. His work also involves utilizing machine learning for the accelerated design and optimization of catalysts in transition metal phosphides. šŸ¤–āš™ļø

Publications Top Note:

 

Jocenir Boita | Nanomaterials for Energy | Best Researcher Award

Posted on by ScienceFather

Prof Dr. Jocenir Boita: Nanomaterials for Energy: Best Researcher Award

Prof Dr. Jocenir Boita, Federal University of Santa Maria (UFSM), Brazil

Prof Dr. Jocenir Boita is a distinguished physicist and educator, holding a Doctorate in Physics from Universidade Federal do Rio Grande do Sul, Brazil. His groundbreaking research in nanomaterials, particularly in the formation and reactivity of mono- and bi-metallic nanoparticles, has earned him recognition, including the prestigious 2015 UFRGS Thesis Award. Boita’s extensive academic journey also includes a Master’s in Physics and a Licenciatura Plena em FĆ­sica. As a Professor Adjunto at Universidade Federal de Santa Maria, he continues to inspire future physicists, contributing significantly to research, education, and community impact. šŸŒšŸ”¬šŸŽ“

šŸŽ“ Formal Education:

Doctorate in Physics (2010-2014). Universidade Federal do Rio Grande do Sul (UFRGS), Porto Alegre, Brazil. Title: “Estudos por Espectroscopia de AbsorĆ§Ć£o de Raios X in situ da FormaĆ§Ć£o e Reatividade de NanopartĆ­culas Mono – e Bi – metĆ”licas: Pt, Cu e Pt-Cu”. Advisor: Jonder Morais. Scholarship: Conselho Nacional de Desenvolvimento CientĆ­fico e TecnolĆ³gico. Master’s in Physics (2008-2010). Universidade Federal do Rio Grande do Sul (UFRGS), Porto Alegre, Brazil. Title: “Estudos In-Situ da formaĆ§Ć£o de compostos de cobre nanoparticulados“. Advisor: Jonder Morais. Scholarship: CoordenaĆ§Ć£o de AperfeiƧoamento de Pessoal de NĆ­vel Superior. Graduation in Licenciatura Plena em FĆ­sica (2004-2007). Universidade ComunitĆ”ria da RegiĆ£o de ChapecĆ³ (UNOCHAPECO), Chapeco, Brazil. Title: “O Potencial Das ExperimentaƧƵes HistĆ³ricas Para Ensinar FĆ­sica Na EducaĆ§Ć£o BĆ”sica”. Advisor: Neila Salete Rupolo. Scholarship: CoordenaĆ§Ć£o de AperfeiƧoamento de Pessoal de NĆ­vel Superior.

šŸ” Complementary Education:

Continuing Education in 2nd School on Advanced X-Ray Spectroscopy Methods, IV Curso TeĆ³rico-PrĆ”tico de MET, Escola HERCULES, and more.

šŸ’¼ Professional Experience:

Professor Adjunto at Universidade Federal de Santa Maria (UFSM) since 2015. Engaged in various councils, commissions, and managerial positions, contributing significantly to educational and research leadership.

šŸ“š Areas of Expertise:

Nanoparticles, Nanomaterials, Nanocomposites, Electronic and Structural Properties of Advanced Materials, Magnetic Materials, Nanostructured Materials and Components in Engineering.

šŸŽ‰ Recognition and Achievements:

Acknowledged for outstanding contributions to nanomaterial research, with numerous publications and participation in significant scientific events.

šŸ… Awards and Honors:

Recipient of the 2015 “PrĆŖmio UFRGS de Tese” and recognized in the “PrĆŖmio 40 Melhores – 30ĀŖ JAI,” showcasing excellence in doctoral research.

šŸ” Editorial Board Membership:

Contributing as a part-time member of the editorial boards for prestigious journals like “CiĆŖncia e Natura” and “International Journal of Physical Sciences.”

Professional Profiles:

The impact of her research is evident in citation metrics and indices from Google Scholar:

  • Cited by: All ā€“ 73.
  • Citations ā€“ 58.
  • h-index ā€“ 5.
  • Documents ā€“ 7.

A prolific researcher making meaningful contributions to the academic world!

Research Focus: šŸ§¬

Prof Dr. Jocenir Boita’s research is at the forefront of understanding and controlling nanoparticle formation, with a significant emphasis on polyol synthesis. His groundbreaking work in 2014, “Observing Pt Nanoparticle Formation at the Atomic Level during Polyol Synthesis,” cited 30 times, reflects his expertise in unraveling atomic-level processes. In subsequent studies, such as “Controlled Growth of Metallic Copper Nanoparticles” (2017, cited 15 times) and “A Reaction Cell for Time-Resolved In Situ XAS Studies during Wet Chemical Synthesis” (2014, cited 14 times), Dr. Boita has demonstrated controlled growth mechanisms and innovative in situ techniques. His contributions extend to apparatus design, as seen in “A Dispenser-Reactor Apparatus Applied for In Situ XAS Monitoring of Pt Nanoparticle Formation” (2015, cited 8 times).

Publications Top Note:

 

Abdul Basit | Nanomaterials for Energy | Best Researcher Award

Posted on by ScienceFather

Mr. Abdul Basit: Nanomaterials for Energy: Best Researcher Award

Mr. Abdul Basit, an ambitious mathematician hailing from Lodz University of Technology. With an MS in Mathematics from the University of Management and Technology in Lahore, he has proven his dedication to academic excellence. As a Teacher Assistant, he contributed to courses in Numerical Analysis and Fluid Mechanics. Beyond academia, Abdul served as a home tutor, showcasing his commitment to education. Proficient in languages such as Urdu and English, he possesses a skill set encompassing LaTeX, Mathematica, Microsoft Office, and more. His honors include recognition from the Khwarizmi Mathematical Society for his contributions to Graph Theory and Combinatorics. šŸŽ“āœØšŸ“Š

šŸŽ“ Education:

MS Mathematics (14/09/2019 ā€“ 10/11/2021). University of Management and Technology, Lahore. BS Mathematics (15/09/2014 ā€“ 10/10/2018). University of Education, Lahore.

šŸŒ Work Experience:

Teacher Assistant (10/09/2020 ā€“ 15/06/2021). University of Management and Technology, Lahore. Grader and Teacher Assistant for Numerical Analysis and Fluid Mechanics courses.. Home Tutor (05/07/2020 ā€“ Current). Providing academic support as a home tutor in Lahore.

šŸ’¼ Digital Skills:

Proficient in LaTeX, PTC Mathcad, Mathematica, Scientific Workplace, Microsoft Office, Google Drive, Modelling software (Weka), Maple.

šŸ† Honours and Awards:

1st UMT International Symposium on Graph Theory and Combinatorics (26/10/2019). 2nd One Day Training Workshop on Artificial Intelligence with Python (19/12/2019). 3rd UMT Symposium on Fuzzy Analysis, Decision Making and Soft Sets (27/01/2020). 6th UMT International Conference on Pure and Applied Mathematics (21/02/2020). Participation in the ā€œTechnical and Fundamental Analysis of Crypto market predicting future value of stocks and crypto coin using major mathematics toolsā€ seminar at GCU Lahore (15/07/2019).

Professional Profiles:

The impact of her research is evident in citation metrics and indices from Google Scholar:

  • Cited by: All ā€“ 39.
  • Citations ā€“ 35.
  • h-index ā€“ 4.
  • Documents ā€“ 5.

A prolific researcher making meaningful contributions to the academic world!

šŸ‘Øā€šŸ”¬ Research Focus:

Mr. Abdul Basit, a distinguished researcher, specializes in the convective flow of fractional second-grade fluids containing various nanoparticles. Their groundbreaking work, cited 29 times in 2021, explores the intricacies of Prabhakar fractional derivatives in the context of non-uniform velocity at the boundary. In parallel, their contributions extend to advances in transport phenomena with nanoparticles and generalized thermal processes for vertical plates, cited 17 times. Furthermore, their research delves into the generalized thermal flux flow for Jeffrey fluids with Fourier law over infinite plates, cited 13 times.

Publications Top Note:

 

Dr. Santunu Ghosh | Nanomaterials for Energy

Posted on by ScienceFather
Dr. Santunu Ghosh: Surface Analysis for Solar Cell Devices

He is currently looking for a challenging research oriented job in the areas of physics, materials science or engineering in a high quality research environment that offers growth opportunities and allows me to utilize my leadership quality and experience.

Congratulations, Dr. Santunu Ghosh, on winning the esteemed Best Researcher Award from ScienceFather! Congratulations on reaching this significant milestone in your journey. Over the past year, you’ve undoubtedly achieved incredible feats and contributed immensely to your field. Here’s to many more years of success, innovation, and fulfillment in your endeavors. Wishing you continued growth, prosperity, and joy in the years to come. Keep shining and making a difference in the world!

Current Research Interest:Ā Ā 
  • Semiconductors, Thin Films and Solar-Cells.
  • Inorganic Crystal Growh and Characterization.
  • Dirac Materials (Graphene and Topological Insulators).
  • Nanostructured Materials.
  • Electron Collision With Biomolecules.
  • Vibrational Spectroscopy.
Education:
  • FEMTO-ST, UniversitĆ© de Franche-ComtĆ©, France. PhD in Applied Physics and Engineering, October 2014. Dissertation: Study on the origin of 1/f noise in bulk acoustic wave quartz crystal resonators.
  • Indian Institute of Technology Roorkee, India. M.Sc. in Physics, June 2011. Specialization: Condensed Matter Physics. Thesis: Tight binding band structure and massless Dirac fermions in graphene. Grade: 7.75/10 (First Class).
  • University of North Bengal, India. B.Sc. in Physics, July 2008. Grade: 61.75% (First Class Hons).
Professional Profiles:
Conferences:
  • European Frequency and Time Forum, NeuchĆ¢tel, Switzerland. Poster Presentation (June 2014).
  • IEEE Joint UFFC-EFTF and PFM Symposium, Prague, Czech Republic, Poster Presentation (July 2013).
  • ED SPIM Days of Young researchers, BesanƧon, France, Poster Presentation (June 2012).
  • IEEE 7th Latin American Symposium on Circuits & Systems (LASCAS), FlorianĆ³polis, Santa Catarina (February 2016), Brazil.

The impact of her research is evident in citation metrics and indices from Google Scholar:

  • Cited by: All ā€“ 184.
  • Citations ā€“ 108.
  • h-index ā€“ 8.
  • Documents ā€“ 23.

A prolific researcher making meaningful contributions to the academic world!

Publications Top Note:
  1. Synthesis, Thermal Analysis, Spectroscopic Properties, and Degradation Process of Tutton Salts Doped with AgNO3or H3BO3
    • Published in ACS Omega in 2023 with 0 citations.
  2. Comparative Study of Nanostructured TiO2 and SLA Surface Modifications for Titanium Implants: Surface Morphology and in vitro Evaluation
    • Published in Materials Research in 2022 with 1 citations.
  3. Magnetic characterization, electronic structure and vibrational properties of (NH4)2 M(SO4)2Ā·6H2O (M=Mn, Ni) crystals
    • Published in Solid State Communications in 2021 with 4 citations.
  4. Growth and optical properties of nanocrystalline Sb2Se3 thin-films for the application in solar-cells
    • Published in Solar Energy in 2020 with 15 citations.
  5. Synthesis and vibrational spectroscopy of (NH4)2Coā€‰CrxS1-xO42.6H2O Tutton’s salt
    • Published in Vibrational Spectroscopy in 2020 with 3 citations.
  6. Growth and vibrational spectroscopy of K2LiyNixCo1-xSO42.6H2O (y=0.1;0.2;0.3;0.4) crystals
    • Published in Vibrational Spectroscopy in 2020 with 7 citations.
  7. Electron impact ionization and fragmentation of biofuels
    • Published in European Physical Journal in 2020 with 14 citations.
  8. Electronic Conduction Mechanisms and Defects in Polycrystalline Antimony Selenide
    • Published in Journal of Physical Chemistry in 2020 with 13 citations.
  9. Epitaxial growth and characterization of Cd1āˆ’xMnxTe films on Si(1ā€Æ1ā€Æ1) substrates
    • Published in Journal of Crystal Growth in 2019 with 4 citations.
  10. Electronic properties and vibrational spectra of (NH 4 ) 2 Mā€³(SO 4 ) 2 Ā·6H 2 O (Mā€Æ=ā€ÆNi, Cu) Tutton’s salt: DFT and experimental study
    • Published in Spectrochimica Acta – Part A: Molecular and Biomolecular Spectroscopy in 2019 with 15 citations.