Assoc Prof Dr. Kader Dağcı Kıranşan, High energy physics, Best Researcher Award
PHD at Atatürk University, Turkey
Associate Professor Kader Dağcı Kiranşan is an accomplished academic with expertise in Analytical Chemistry. Holding a Ph.D. and M.Sc. from Atatürk University, he specializes in topics such as thin films, graphene, and electrochemical synthesis. Currently an Associate Professor at Atatürk University’s Faculty of Science, he has also served as a Doctor Lecturer and Research Assistant. Throughout his career, he has supervised impactful theses, focusing on areas like sustainable water purification and hydrogen production. His research contributions, especially in flexible electrodes and nanomaterial applications, showcase his commitment to advancing analytical chemistry and its practical applications. High energy physics
Professional Profiles:
Education📚
Ph.D. in Analytical Chemistry: Awarded on 12/June/2015 from Atatürk University/Institute of Science and Science. Thesis title: “Poly(Pyronin Y) thin films and freestanding graphene/poly(pyronin y)/silver nanoparticle Preparation and characterization of electrodes and their use in amperometric determination of nitrite.” Thesis Advisor: Murat Alanyalıoğlu. M.Sc. in Analytical Chemistry: Degree awarded on 4/June/2010 from Atatürk University/Institute of Science and Science. Thesis title: “Electrochemical synthesis of methylene blue ordered monolayer structures and characterization.” Thesis Advisor: Murat Alanyalıoğlu.
Academic Positions:🏆
Associate Professor: Currently holding the position at Atatürk University/Faculty of Science/Department of Chemistry since 2020. Doctor Lecturer: Currently holds a position at Atatürk University/Faculty of Science/Department of Chemistry/Analytical Chemistry since 2019. Research Assistant: Worked as a research assistant at Atatürk University/Faculty of Science/Department of Chemistry/Analytical Chemistry from 2009 to 2019.
Research Focus:
Associate Professor Kader Dağcı Kiranşan’s research primarily focuses on the development and application of advanced materials for electrochemical sensing and energy storage. His expertise spans the preparation of innovative electrode materials, such as free-standing and flexible graphene/Ag nanoparticles/poly (pyronin Y) hybrid paper, and MoS2/rGO composite paper. Additionally, his work explores the electrochemical properties of polymeric films, including catalase-Fe3O4/reduced graphene oxide paper. He has made significant contributions to the field, particularly in the design of flexible electrodes for amperometric detection of various analytes, such as nitrite, NADH, folic acid, and hydrogen peroxide. His research demonstrates a commitment to advancing electroanalytical chemistry and materials science for diverse applications. High energy physics
Publications (TOP NOTES)
Design of metal phosphite decorated sponge materials for high‐performance flexible battery‐type supercapacitors, cited by: 1, Publication date: 2022.
Design and synthesis of a MnCo-MOF modified flexible 3D graphene sponge electrode for an asymmetric supercapacitor with high power and energy density, cited by: 1, Publication date: 2023.
Three-dimensional FeNiP decorated graphene sponge: A novel flexible electrode for high-performance asymmetric supercapacitor, cited by: 2, Publication date: 2023.
The Construction and Testing of an Amperometric Biosensor for Oxidized Glutathione with Glutathione Reductase Immobilized on Reduced Graphene Oxide Paper Modified with Cobalt, cited by: 4, Publication date: 2020.