Главная Наука Международная деятельность Почетные доктора Prof. Mahmut Durmuş

Звание «Почетный доктор ИНХ СО РАН» присваивается выдающимся иностранным ученым, внесшим существенный вклад в развитие сотрудничества между учеными ИНХ СО РАН и зарубежных стран. Звание присваивается решением Ученого совета Института. Почетному доктору на торжественном заседании Ученого совета вручается диплом, доктор облачается в мантию и выступает с научным сообщением.

Prof. Mahmut Durmuş

Professor, Gebze Technical University, Turkey
Research field – metal phthalocyanines and hybrid materials based on them; the use of these materials in photodynamic therapy and as active layers of chemical sensors

The title is awarded by the Scientific Council of the Institute on its special ceremonial meeting (24.11.2022)

 

Gebze Technical University, Cumhuriyet, 2254. Sk. No:2, 41400 Gebze/Kocaeli, Turkey. Адрес электронной почты защищен от спам-ботов. Для просмотра адреса в вашем браузере должен быть включен Javascript., http://www.durmusgroup.com

Махмут Дурмуш является профессором в техническом университете г. Гебзе (Gebze Technical University), Турция. Он - известный специалист в области исследования фталоцианинов металлов и гибридных материалов на их основе и применения этих материалов в фотодинамической терапии и в качестве активных слоев химических сенсоров. Махмут Дурмуш является автором 313 публикаций по данной тематике, индекс Хирша 39 (на ноябрь 2022).

Между ИНХ СО РАН и техническим университетом г. Гебзе на протяжении многих лет существует плодотворное сотрудничество, которое сопровождается регулярными визитами сотрудников института в университет для проведения работ по изучению пленок фталоцианинов металлов в качестве активных слоев адсорбционно-резистивных и электрохимических сенсоров.

Получено и успешно закончено несколько совместных проектов, среди них двухсторонние проекты РФФИ-TÜBITAK “Single-walled carbon nanotube/phthalocyanine hybrid materials: synthesis, characterization and sensing properties” (2012-2014) и “Mesomorphic molecular materials for electronics: structural organization on the substrate surface” (2009-2010).

Опубликованы совместные статьи в международных журналах с высокими импакт-факторами.

  1. Basova T.V., Durmuş M., Gurek A.G., Ahsen V., Hassan A. Effect of Interface on the Orientation of the Liquid Crystalline Nickel Phthalocyanine Films, Phys. Chem. C 113, 2009, P.19251–19257.
  2. Chaure N., Basova T., Zahedi M., Ray A., Sharma A., Durmuş M., Ahsen V. Solution processed tetrasubstituted zinc phthalocyanine as an active layer in organic field effect transistors, Appl. Phys. 107, 2010, P. 114503.
  3. Basova T., Hassan A., Durmuş M., Gürek A.G., Ahsen V. Orientation of the liquid crystalline nickel phthalocyanine films confined between electrodes, Synthetic Metals, 161, 2011, P. 1996-2000.
  4. Tuncel S., Basova T.V., Kiselev V.G., Gromilov S.A., Jushina I.V., Durmuş M., Gürek A.G., Ahsen V. Tetraoctylthio- and tetraoctyloxy-substituted lead phthalocyanines: Synthesis, characterization, liquid-crystalline properties, and thin film studies, Mater. Res. 26, 2011, P. 2962-2973.
  5. Basova T.V., Çamur, Esenpınar A.A., Tuncel S., Hassan A., Alexeyev A., Banimuslem H., Durmuş M., Gürek A.G., Ahsen V. Effect of substituents on the orientation of octasubstituted copper(II) phthalocyanine thin films, Synthetic Metals, 162, 2012, P. 735-742.
  6. Tuncel S., Banimuslem H.A.J., Durmuş M., Gürek A.G., Ahsen V., Basova T.V., Hassan A.K. Liquid Crystalline Octasubstituted Lead(II) Phthalocyanines: Effects of alkoxy and alkylthio substituents on film alignment and electrical properties, New J. Chem. 36, 2012, P. 1665-1672.
  7. Basova T., Esenpinar A.A., Tuncel S., Durmuş M., Gürek A.G., Ahsen V. Thin Films of Liquid Crystalline Phthalocyanines and their Composites with Single-Walled Carbon Nanotubes: Properties and Alignment, Key Engineering Materials, 511-532, 2013, P. 337-341.
  8. Banimuslem H., Hassan A., Basova T., Gülmez A.D., Tuncel S., Durmuş M., Gürek A.G., Ahsen V. Copper phthalocyanine/single walled carbon nanotubes hybrid thin films for pentachlorophenol detection, Sensors Actuators B 190, 2014, P. 990-998.
  9. Tuncel S., Kaya E.N., Durmuş M., Basova T., Gürek A.G., Ahsen V., Banimuslem H., Hassan A. Distribution of Single-Walled Carbon Nanotubes in Pyrene Containing Liquid Crystalline Asymmetric Zinc Phthalocyanine Matrix, Dalton Transactions, 43, 2014, P. 4689–4699.
  10. Banimuslem H., Hassan A., Basova T., Yushina I., Durmuş M., Tuncel S., Esenpınar A.A., Gürek A.G., Ahsen V. Copper Phthalocyanine Functionalized Single-Walled Carbon Nanotubes: Thin Film Deposition and Sensing Properties, Key Engineering Materials, 605, 2014, P. 461-464.
  11. Kaya E.N.,Tuncel S., Basova T.V., Banimuslem H., Hassan A., Gürek A.G., Ahsen V., Durmuş M. Effect of Pyrene Substitution on the Formation and Sensor Properties of Phthalocyanine-Single Walled Carbon Nanotube Hybrids, Sensors Actuators B 199, 2014, P. 277–283.
  12. Faris T., Basova T., Chaure N.B., Sharma A.K., Durmuş M., Ahsen V., Ray A.K. Effects of annealing on device parameters of organic field effect transistors using liquid-crystalline tetrasubstituted zinc phthalocyanine, EPL (Eur. Phys. Lett.) 106, 2014, P. 58002.
  13. Basova T.V., Parkhomenko R.G., Igumenov I.K., Hassan A., Durmuş M., Gürek A.G., Ahsen V. Composites of liquid crystalline nickel phthalocyanine with gold nanoparticles: Liquid crystalline behaviour and optical properties, Dyes Pigments 111, 2014, P. 58-63.
  14. Banimuslem H., Hassan A., Basova T., Durmuş M., Tuncel S., Esenpınar A.A., Gürek A.G., Ahsen V. Copper phthalocyanine functionalized single-walled carbon nanotubes: thin films for optical detection, Nanosci. Nanotechnol. 15, 2015, P. 2157-2167.
  15. Banimuslem H., Hassan A., Basova T., Esenpınar A.A., Tuncel S., Durmuş M., Gürek A.G., Ahsen V. Dye-modified carbon nanotubes for the optical detection of amines vapours, Sensors Actuators B 207, 2015, P. 224–234.
  16. Kaya E.N., Basova T., Polyakov M., Durmuş M., Kadem B., Hassan A. Hybrid Materials of Pyrene Substituted Phthalocyanines with Single-Walled Carbon Nanotubes: Structure and Sensing Properties, RSC Advances 5, 2015, P. 91855–91862.
  17. Hassan A., Banimuslem H., Basova T., Gülmez A.D., Durmuş M., Gürek A.G., Ahsen V. Surface interaction of copper phthalocyanine modified single walled carbon nanotubes with pesticides, Sensors Actuators B 224, 2016, P. 780–788.
  18. Basova T., Hassan A., Durmuş M., Gürek A.G., Ahsen V. Liquid crystalline metal phthalocyanines: structural organization on the substrate surface, Chem. Rev. 310, 2016, P. 131–153.
  19. Kadem B., Göksel M., Şenocak A., Demirbaş E., Atilla D., Durmuş M., Basova T., Shanmugasundaram K., Hassan A. Effect of covalent and non-covalent linking on the structure, optical and electrical properties of novel zinc(II) phthalocyanine functionalized carbon nanomaterials, Polyhedron 110, 2016, P. 37–45.
  20. Kadem B.Y., Hassan A., Göksel M., Basova T., Şenocak A., Demirbaş E., Durmuş M. High performance ternary solar cells based on P3HT:PCBM and ZnPc-hybrids, RSC Adv. 6, 2016, P. 93453–93462.
  21. Gülmez A.D., Polyakov M.S., Volchek V.V., Tuncel Kostakoğlu S., Esenpinar A.A., Basova T.V., Durmuş M., Gürek A.G., Ahsen V., Banimuslem H., Hassan A. Tetrasubstituted copper phthalocyanines: Correlation between liquid crystalline properties, films alignment and sensing properties, Sensors Actuators B, 241, 2017, P. 364-375.
  22. Polyakov M.S., Basova T.V., Göksel M., Şenocak A., Demirbaş E., Durmuş M., Kadem B., Hassan A., Effect of covalent and non-covalent linking of zinc(II) phthalocyanine functionalised carbon nanomaterials on the sensor response to ammonia, Synth. Met. 227, 2017, P. 78–86.
  23. Şenocak A., Göl C., Basova T.V., Demirbaş E., Durmuş M., Al-Sagur H., Kadem B., Hassan A. Preparation of Single Wall Carbon Nanotube-Pyrene 3D Hybrid Nanomaterial and Its Sensor Response to Ammonia, Sensors Actuators B 256, 2018, P. 853–860.
  24. Kaya E.N., Polyakov M.S., Basova T.V., Durmuş M., Hassan A. Pyrene Containing Liquid Crystalline Asymmetric Phthalocyanines and their Composite Materials with Single-Walled Carbon Nanotubes, J. Porphyrins Phthalocyanines 22, 2018, P. 56–63.
  25. Şenocak A., Köksoy B., Demirbaş E., Basova T., Durmuş M. 3D SWCNT-Coumarin Hybrid Material for Ultra-sensitive Determination of Quercetin Antioxidant Capacity, Sensors Actuators B 267, 2018, P. 165–173.
  26. Şenocak A., Kaya E.N., Kadem B., Basova T., Demirbaş E., Hassan A., Durmuş M. Synthesis and organic solar cell performance of BODIPY and coumarin functionalized SWCNT or graphene oxide nanomaterials, Dalton Trans. 47, 2018, P. 9617–9626.
  27. Şenocak A., Köksoy B., Akyüz D., Koca A., Klyamer D., Basova T., Demirbaş E., Durmuş M. Highly selective and ultra-sensitive electrochemical sensor behavior of 3D SWCNT-BODIPY hybrid material for eserine detection, Biosens. Bioelectron. 128, 2019, P. 144–150.
  28. Kaya E.N., Şenocak A., Klyamer D.D., Demirbaş E., Basova T.V., Durmuş M. Ammonia sensing performance of thin films of cobalt(II) phthalocyanine bearing fluorinated substituents, J. Mater. Sci. Mater. Electron. 30 (2019) 7543–7551.
  29. Sarıoğulları H., Şenocak A., Basova T., Demirbaş E., Durmuş M. Effect of Different SWCNT-BODIPY Hybrid Materials for Selective and Sensitive Electrochemical Detection of Paracetamol, Guanine and Adenine, J. Electroanal. Chem. 840, 2019, P. 10-20.
  30. Al-Sagur H., Komathi S., Kaya E.N., Durmuş M., Basova T.V., Hassan A. Amperometric glucose biosensing performance of a novel graphene nanoplatelets-iron phthalocyanine incorporated conducting hydrogel. Biosens. Bioelectron. 139, 2019, P. 111323.
  31. Şenocak A., Basova T., Demirbaş E., Durmuş M. Direct and Fast Electrochemical Determination of Catechin in Tea Extracts using SWCNT-Subphthalocyanine Hybrid Material, Electroanalysis 31, 2019, P. 1697–1707.
  32. Kadem B., Kaya E.N., Hassan A., Durmuş M., Basova T. Composite Materials of P3HT:PCBM with Pyrene Substituted Zinc(II) Phthalocyanines: Characterisation and Application in Organic Solar Cells, Solar Energy, 189, 2019, P. 1-7.
  33. Polyakov M.S., Ivanova V.N., Basova T.V., Saraev A.A., Köksoy B., Şenocak A., Demirbaş E., Durmuş M. 3D, covalent and noncovalent hybrid materials based on 3-phenylcoumarin derivatives and single walled carbon nanotubes as gas sensing layers, Appl. Surf. Sci. 504, 2020, P. 144276.
  34. Polyakov M., Ivanova V., Klyamer D., Köksoy B., Şenocak A., Demirbaş E., Durmuş, Basova T., A Hybrid Nanomaterial Based on Single Walled Carbon Nanotubes Cross-linked via Axially Substituted Silicon(IV) Phthalocyanine for Chemiresistive Sensors, Molecules. 25, 2020, P. 2073.
  35. Bonegardt D., Klyamer D., Köksoy B., Durmuş M., Basova T. Hybrid Materials of Carbon Nanotubes with Fluoroalkyl and Alkyl Substituted Zinc Phthalocyanines and Their Gas Sensing Properties, J. Mater. Sci.: Mater. Electron. 31, 2020, P. 11021–11028.
  36. 1. Klyamer D., Bonegardt D., Krasnov P., Sukhikh A., Popovetskiy P., Khezami K., Durmuş M., Basova T. Halogen-substituted zinc(II) phthalocyanines: spectral properties and structure of thin films, Thin Solid Films, 754, 2022, P. 139301
  37. 2. Ivanova V., Klyamer D., Krasnov P., Kaya E.N., Kulu İ., Tuncel Kostakoglu S., Durmuş M., Basova T. Hybrid materials based on pyrene-substituted metallo phthalocyanines as sensing layers for ammonia detection: Effect of the number of pyrene substituents, Sensors Actuators B 375, 2023, P. 132843.
  38. 3. Şenocak A., Ivanova V., Ganesan A., Klyamer D., Basova T., Makhseed S., Demirbas E., Durmuş M. Hybrid material based on single walled carbon nanotubes and cobalt phthalocyanine bearing sixteen pyrene moieties as a sensing layer for hydrogen sulfide detection, Dyes Pigments, 209, 2023, P. 110903.

  

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