Çiftçioğlu, Muhsin
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Ciftcioglu, M.
Ciftcioglu, Muhsin
Çiftçioğlu, M.
Çiftçioğlu, M
Ciftcioglu, M
Ciftcioglu, Muhsin
Çiftçioğlu, M.
Çiftçioğlu, M
Ciftcioglu, M
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muhsinciftcioglu@iyte.edu.tr
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03.02. Department of Chemical Engineering
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81
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28
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32
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8
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411
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464
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5.07
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75
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40
| Journal | Count |
|---|---|
| Key Engineering Materials | 11 |
| Ceramics International | 3 |
| Desalination | 2 |
| Journal of Superconductivity and Novel Magnetism | 2 |
| Journal of the Australian Ceramic Society | 2 |
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Master Thesis Processing and Characterization of Novel Graphene Containing Inks(01. Izmir Institute of Technology, 2022) Yüksel, Seda Sultan; Çiftçioğlu, Muhsin; Çiftçioğlu, MuhsinScientific and industrial community currently has an increased interest in printed electronics due to its many advantages. Metallic nanoparticles and conductive polymers are mostly used in the processing of commercial conductive inks. There is extensive research and development efforts on alternative materials as conductive fillers due to high cost, chemical instability in air and liquid media of widely used fillers. Graphene materials comprised of a single layer or multiple layers of graphene flakes have recently attracted great interest and used in applications as an excellent conductive filler due to its optical transparency, high conductivity, and flexibility. The aim of this MSc work was to prepare graphite and carbon black based conductive inks. Effects of graphite (G) to carbon black (CB) ratio and the use of exfoliation liquid on conductivity, rheology and particle size distribution were investigated for graphite containing conductive inks. Inks with the lowest resistance of 0.02 kΩ was obtained by using ball milling in N-metil-2-pirrolidon (NMP) as exfoliation liquid with the lowest particle size with an average of 18.0 µm. Inks prepared in this work showed shear thinning behavior independent of the exfoliation liquid used in their preparation. The highest thixotropy was measured in water exfoliated ink with 1801 Pa.s-1 and this dispersion had the lowest conductivity. A series of inks with different graphite to carbon black ratios were prepared under similar conditions. The lowest resistance 0.045 kΩ was determined at a graphite to carbon black ratio of 1 by using ethylene glycol as an exfoliation liquid. The use of ethylene glycol in commercial ink preparation may be advantageous due to its lower cost and environmentally friendly chemical properties. The highest degree of thixotropy and viscosity was measured in ink prepared at G/CB ratio of 0.5. This ink also had the highest resistance due to low amount of graphite compared to carbon black which indicated the critical importance of G/CB ratio.Article Citation - WoS: 48Citation - Scopus: 49The Effect of Rare Earth Element Doping on the Microstructural Evolution of Sol-Gel Titania Powders(Elsevier Ltd., 2017) Yurtsever, Hüsnü Arda; Çiftçioğlu, MuhsinThe development of a better understanding of the low temperature nanophase evolution of high surface area titania (TiO2) based powders is essential for their use in photocatalytic applications. A series of rare earth (RE) element doped TiO2 powders were prepared by sol-gel processing. The effects of RE doping level, ionic size and heat treatment temperature on the nanophase structure evolution and the dopant ion location in TiO2 main matrix were investigated. Anatase was determined to be the main phase up to 900 °C at all doping levels for all REs. Anatase to rutile phase transformation was inhibited by RE doping. The inhibitory effect of REs increased with increasing ionic radius. Oxide phases of La, Nd, Pr, Sm were not present up to 5% and Nd4Ti9O24 phase was formed at 10% doping level at 800 °C. The formation of RE2Ti2O7 phases were determined for the REs with relatively lower ionic radii at 800 °C.Article Nadir Toprak Elementi Katkılı Kimyasal Çöktürme Titanya Tozları ile Yapay Fotosentezle Hidrojen Üretimi(Dokuz Eylül Üniversitesi, 2015) Yurtsever, Hüsnü Arda; Çiftçioğlu, MuhsinBu çalışmada nadir toprak elementi (NTE) katkılı/katkısız titanya (TiO2) tozları yapay fotosentezle fotokatalitik hidrojen eldesine yönelik uygulamalarda kullanılmak üzere kimyasal çöktürme/birlikte çöktürme yöntemi ile hazırlanmıştır. Düşük ısıl işlem sıcaklıklarında yüksek yüzey alanlarından dolayı yüksek hidrojen üretim miktarları elde edilmiştir. Yüzey aktivitesi bakımından ise 700 oC’de ısıl işlem görmüş katkılı tozların diğer tüm saf tozlara göre birim alan başına daha fazla hidrojen ürettiği saptanmıştır. NTE katkısı ile TiO2’in faz yapısında değişiklikler meydana getirilmiş, optimum anataz-rutil faz oranına sahip ve ışık soğurma kapasitesi yüksek bir nanoyapı elde edilmiştir. Katkıyla tozlarda oluşturulan bu özellikler görece düşük bir miktar olan % 0,1 katkı düzeyinde bile TiO2’in fotokatalitik aktivitesinin birkaç kat artmasını sağlamıştır.Master Thesis Preparation and Characterization of Ha Powders-Dense and Porous Ha Based Composite Materials(01. Izmir Institute of Technology, 2002) Şimşek, Deniz; Çiftçioğlu, Muhsin; Şimşek, Deniz; Çiftçioğlu, MuhsinThe synthesis of hydroxyapatite (HA) powers, whiskers and preparation of HA based ceramics have been investigated in this work. Commercial HA powders were used for comparion purposes. The powder and sintered ceramics were characterized by optical microscopy, SEM,XRD, particle size determination, dilatometry and mechanical testing.Ca-P powders were synthesized by using (NH4)2HPO4 and Ca(NO3)2. 4H2O by aprecipitation method in aqueous medium. Ca/P ratio was set to 1,5 and 1,667 that yield the mixture of Ca-P phases and HA powder respectively at pH 10, 60 C and 24hrs aging. Ca/P ratio was set to 1,667 and the effect of pH of the medium, aging temperature and aging time on the powder characteristics was investigated. pH was set to 4,6,8,9,10 and 11 while aging temperature and time kept constant at 60 C and 24 hrs.Formation of HA powder was observed over pH 8. Agglomerated Monetite-Brushite powder was obtained at pH.4. Monodispersed prismatic Brushite crystals were obtained at pH.6. Aging temperature investigation was performed at 30-90 C at pH.10 for 24 hrs aging. Increase in the aging temperature led to formation of more thermally stable HA phase. Precipitates were aged for 0, 0.5, 1, 24 and 48 hours at constant pH.10 and temperature 60 C. Thermally stable HA phase was obtained over 24hr aging. All of the oven-dried precipitates were heat treated at 400-1250 C range in order to investigate the thermal stability and phase structure development. Optimum conditions for the precipitation of thermally stable HA powder was determined as pH.10, 60 C aging temperature and 24 hrs aging time that yields equaxed HA powder with particle size about 40-60 nm.Molten salt synthesis (MSS) and hydrothermal synthesis (HDT) were used to prepare HA whiskers. XRD patterns of both whiskers have shown that HA was the dominant phase in whiskers and no other phases were detected. Hydrothermal whiskers had submicron diameters with an average aspect ratio of 20. The diameter of the MSS whiskers were in the 1-5 micron range and were mostly hexagonal with an average aspect ratio of 10.10, 20 and 30 vol% whisker containing composites were prepared. Sintering behavior and mechanical properties were investigated. 98% TD of HA ceramics (3.16 g/cm3) was obtained in the 1150-12500C range. 80-90% TD was obtained at above 1200 C for the MSS whisker composites with very little shinkages. Densities of the HDT whisker containing composites were higher than those of the MSS whisker composites. The highest hardness value was determined as 537 Hv for the HA ceramics 1250 C sintered. Hardness of the composites was lower than that of pure HA powder based ceramics due to the presence of relatively high porosity. 10vol% MSS whisker addition yields comparable compressive strength (460-470 MPa) and elastic modulus values (14-17 GPa) with that of natural bone tissues (170-193 MPa compressive strength, 14-18 GPa elastic modulus).Article Citation - Scopus: 2The Surface Charge of Unsupported Nano-Structured Titania Ceramic Membrane Top Layers With Varying Calcination Temperatures(University of Chemical Technology and Metallurgy, 2019) Erdem, İlker; Çiftçioğlu, MuhsinTitania is one of the most preferable ceramic membrane materials of superior durability (as zirconia) when compared to that of other ceramics, e.g. alumina or silica. The surface charge of the membrane top layer is an important parameter of the separation performance of the multilayer ceramic membrane due to the Donnan exclusion mechanisms. In this study, the change of the surface charge of unsupported nano-structured titania top layer is investigated with calcination temperature variation. The effect observed indicates the possibility of preparation of tailor-made top layers for multilayer ceramic membranes. © 2019, University of Chemical Technology and Metallurgy.Master Thesis Rheological Behavior of Carbon Black Inks(01. Izmir Institute of Technology, 2022) Ekerler, Deniz; Çiftçioğlu, Muhsin; Çiftçioğlu, MuhsinThe printing ink industry is increasingly facing challenges in terms of high manufacturing costs and quality requirements. Rheological properties of the inks must be better understood for the development of production and application processes. Effects of pigment and dispersant content, varnish/solvent ratio, grinding medium, grinding time and storage period on rheological and printed optical properties were investigated for carbon black inks in this thesis work. The viscosity of the dispersant free ink was higher than inks with dispersant. The viscosity of the dispersant-free ink increased after three months storage whereas the viscosity of the dispersant-containing ink remained almost constant. Pigment content or V/S ratio increase resulted in higher viscosities. Grinding with 0.5 mm beads provided a finer size distribution and lower viscosities than ink ground with 0.8 mm beads. Longer grinding time increased the ink viscosities at pigment contents over 20 wt%. Thixotropy of dispersant free ink was determined to be about 12 times higher than 0.5 wt% dispersant containing ink. The thixotropy area of the 30 wt% pigment containing ink was determined to be five times higher than that of 25 wt% pigment containing ink. The thixotropy of the 25 wt% pigmented ink increased when the grinding time was changed from 30 to 60 minutes. Inks with coarser particle size distribution had higher thixotropy. Loss tangent (G''/G') at 10 Hz was used to create a correlation with color strength. Color strength of 14 out of 16 inks was determined higher with lower loss tangent values. Inks containing dispersant, higher pigment contents, varnish/solvent ratios close to one, increasing grinding time at higher pigment content increased the color strengths in printings.Article Citation - WoS: 15Citation - Scopus: 17Preparation of Particulate/Polymeric Sol-Gel Derived Microporous Silica Membranes and Determination of Their Gas Permeation Properties(Elsevier Ltd., 2010) Topuz, Berna; Çiftçioğlu, MuhsinMonodisperse silica sols with well-defined spherical particles ranging in size from 5 to 310 nm were prepared through Stober process. Both particulate and polymeric sol-gel routes were employed for the preparation of stable silica sols. The use of polymeric species in combination with particulate silica spheres may allow the design of predefined membrane pore structures with high thermal stability by cubic/random/close packing of monodisperse spherical particles incorporated into the polymeric network. The size and volume content of spheres were varied in order to modify the consolidation behaviour of 2-structural silica membranes which would enhance the thermal stability. The low shrinkage level for sphere loaded 2-structural systems compared to the pure polymeric counterparts might be explained by the decrease in the structural free energy of the polymeric/particulate 2-structural system. The thermal stability of the microporous membranes may thus be improved by incorporating particulates into the polymeric network through the formation of a lower extent of thermally induced microcrack formation. The N2 permeation through 90 nm silica sphere added silica membranes remained constant when they were heat treated in the 250-400 °C range indicating the stability of the pore network. © 2009 Elsevier B.V. All rights reserved.Master Thesis Preparation and Application of Subnano Ceramic Filtration Membranes for Organic Species Removal From Aqueous Streams(Izmir Institute of Technology, 2017) Yaltrık, Kaan; Çiftçioğlu, Muhsin; Çiftçioğlu, MuhsinThe purpose of this MSc work was to investigate the effects of neodymium/zirconium doping on the phase structure evolution of the selective titania nanofiltration (NF) membrane layers for the rejection of subnano sized organic compounds. A dilatometric study was carried out on unsupported membranes prepared from polymeric sols with different neodymium and zirconium levels. The development of functional abilities towards the design of the pore structure in the subnano range by controlling the nanostructural evolution of the selective NF layers was the fundamental purpose of this work. The neodymium doping level was varied in the 0.3-5.0% range and the zirconium mixing level was varied in the 0-100% range based on stable metal oxide molar compositions. Dilatometric characterization results have shown that dopant level effects the nanophase evolution and the densification behavior considerably. The dynamic light scattering results have shown that the polymeric species in the sol were predominantly 2-4 nm in size and had a very narrow size distribution. XRD analysis results indicated titania anatase crystallite sizes were reduced significantly with neodymium doping or zirconia mixing and the phase transformations were retarded by about 200°C. HR-TEM images of selected zirconia mixed or neodymium doped unsupported membrane powders also added new information to the XRD/dilatometry derived nanophase evolution results. The determination of the molecular weight cut-off values and pure water fluxes of the NF membranes which would be prepared by using these polymeric sols in the near future may generate valuable knowledge on the subnano separation abilities of these NF membranes.Article Citation - WoS: 4Citation - Scopus: 3Modification of Surface Charge Characteristics for Unsupported Nanostructured Titania-Zirconia Uf/Nf Membrane Top Layers With Calcination Temperature(Springer, 2020) Erdem, İlker; Çiftçioğlu, MuhsinCeramic membranes are more advantageous alternatives especially for harsh working conditions when compared with the polymeric membranes. The porous multilayer structure of the ceramic membranes (composed of support, intermediate, and top layers) can be prepared via different oxides. Titania and zirconia, having superior properties, are mainly preferred for the top layer formation. The separation properties of the membrane are both dependent on pore morphology and surface charge of the oxide(s) forming the top layer. The effect of surface charge in separation may be very significant in case of filtration of charged species with relatively lower mass as in the ultrafiltration (UF) and nanofiltration (NF). In this study, unsupported membrane top layers were prepared with varying titania/zirconia ratios by sol-gel technique. Their surface charges at different pH conditions after calcination at varying temperatures (400 degrees, 500 degrees, and 600 degrees C) were determined. The surface charge of the pure titania (full Ti) top layer was decreasing with the increasing calcination temperature. The highest magnitudes of zeta potential for both acidic and basic conditions were measured via Zr rich top layer (TiZr2575) at calcination temperatures >= 500 degrees C, which was composed of anatase, rutile (titania), and tetragonal (zirconia) phases after calcination. The tailor-made top layer can be prepared with modifications during membrane preparation.Master Thesis Preparation and Characterization of Polymer-Zeolite Composite Membranes(01. Izmir Institute of Technology, 1999) Ebil, Özgenç; Çiftçioğlu, MuhsinThis thesis is on the investigation of polymer-zeolite composite membranes for gas separation and the effects of a number of parameters such as solvent and zeolite type, zeolite content, polymer/solvent ratio and preparation temperature on the microstructure of the final membrane. Although there is an increasing interest in polymeric composite membranes, most of the previous work concentrated on the synthesis and performance measurements of new membrane materials rather than the effects of different methods and parameters on processmg.In this study polymer-zeolite composite membranes were prepared by a phase inversion technique. Polysulfone, natural zeolite and synthetic zeolite 13X were used as polymer and second phases respectively. Dichloromethane and dimethylformamide were used as solvents. Four experimental sets of membranes containing the same polymer but different solvents and zeolites with increasing zeolite loadings were prepared and characterized by thermo gravimetric analysis, infrared spectroscopy, optical microscopy and scanning electron microscopy.It has been found that the types of the solvent and zeolite directly affect the final microstructure of the membranes. Solvent removal rate and distribution of zeolite particles are important and have strong effects on the mechanical performance of the membranes.Membranes prepared by using synthetic zeolite 13X and dichloromethane were determined to be the best zeolite distributions in the microstructure by optical microscopy and thermogravimetric analysis. Uniform and mechanically strong membranes with 20-60 % synthetic zeolite contents were prepared. Mechanically weak and relatively nonuniform membranes were prepared by using natural zeolite clinoptilolite. The incorporation of an ultrasonic treatment of the zeolite dispersion most likely contributed in the successful deagglomeration of the second phase in the polymer matrix.