 |
|
Update Data 
|
mehmetcabuk@mersin.edu.tr |
| Last update: 16/02/2025 | |
|
| |
| Name: |
|
|
|
Institution: |
Mersin University |
|
|
Type of Institution: |
University |
|
|
ORCID number: |
https://orcid.org/0000-0003-4531-3142
|
|
|
Google Scholar: |
36944667100
|
|
|
Country: |
Turkey
|
|
|
WEB address: |
https://apbs.mersin.edu.tr/profiles_mail/mehmetcabuk |
|
|
Working groups of interest |
| - | WG1 - Advances in Porous Materials and Technologies | | - | WG2 - Health | | - | WG4 - Environment |
|
|
| Keywords |
| - | | Environment | | - | | Health | | - | | Macropores | | - | | Mesopores | | - | | Nanopores | | - | | Oxides | | - | | Porous Semiconductors | | - | | Smart Functional Surfaces | | - | | Technology |
|
|
|
Research field (Free keywords) |
Colloidal proporties, semiconducting particles, electrorheological particles |
|
| Materials/technologies |
| - | | Metal-Organic Frameworks (MOFs) | | - | | Covalent Organic Frameworks (COFs) | | - | | Inorganic Porous Materials (Porous Alumina, TiO2, ZnO) | | - | | Porous carbons | | - | | Porous Clays | | - | | Mesoporous silicas | | - | | Porous polymers | | - | | Others |
|
|
|
Scientific expertise |
Polymer synthesis, polymer-clay nanocomposite synthesis, structural and morphological characterization, hydrochars, conducting polymers, conductivity measurement, colloidal properties, electrokinetic properties, electrorheological properties, antimicrobial activity, porous organic and inorganic particles |
|
|
Capabilities |
Polymer and polymer-clay nanocomposite synthesis,
Structural and morphological characterization, conductivity measurement,
Colloidal and electrokinetic properties, electrorheological properties and antimicrobial activities of porous organic and inorganic particles |
|
Relevant publications
(6 max.) |
| Çabuk, M.; Yesil, T.; Yavuz, M.; Ünal, H. “Colloidal and viscoelastic properties of expanded perlite dispersions”. Journal Of Intelligent Material Systems And Structures, 2018, 29, 32-40. |
|
| Cabuk, M., Yavuz, M., Unal H.I., Erol, O. “Synthesis characterization and investigation of electrorheological properties of biodegradable chitosan bentonite nanocomposites”, Clay Minerals, 48(1), 129-141 (2013) |
|
| Çabuk, M., Öztaş, M., Göde, F.; Ünal, H.; Yavuz, M. Effects of zeta-potential on enhanced removal of hexavalent chromium by polypyrrole-graft-chitosan biodegradable copolymer. Colloids And Surfaces A: Physicochemical And Engineering Aspects, 2023, 676, 132104-132114 |
|
| Davraz, M.; Koru, M.; Akdağ, A.; Kılınçarslan, Ş.; Delikanlı, Y.; Çabuk, M. Investigating the use of raw perlite to produce monolithic thermal insulation material. Construction And Building Materials, 2020, 263, 120674-120674. |
|
| Cabuk, M., “Electrorheological response of mesoporous expanded perlite particles”, Microporous and Mesoporous Materials, 247, 60-65 (2017) |
|
| Cabuk, M., Alan, Y., Unal H.I. “Enhanced electrokinetic properties and antimicrobial activities of biodegradable chitosan/organo-bentonite composites”, Carbohydrate Polymers, 161, 71-81 (2017) |
|
|
|
Projects
(3 max.) |
| Development of Alternative Thermal Insulation Materials for Building and Industrial Applications, TUBITAK, TURKEY |
|
| Synthesis of Organo-Perlite/Chitosan-H3BO3 Biocomposite and Investigation of Its Electrorheological Properties, TUBITAK, TURKEY |
|
| Investigation of electrorheological properties and industrial applicability of perlite mineral. TUBITAK, TURKEY |
|
|
|
Technology transfer /
Patents (3 max.) |
|
|
Other relevant information |
I am open to cooperation (such as bilateral projects, Erasmus, Cost) |
|
|
