Balcı, Fadime Mert
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Mert-Balci, Fadime
Balcı, Fadime M.
Balci, Fadime Mert
Balci, Fadime M.
Mert Balci, Fadime
Mert-Balcı, Fadime
Mert Balcı, Fadime
Balcı, Fadime M.
Balci, Fadime Mert
Balci, Fadime M.
Mert Balci, Fadime
Mert-Balcı, Fadime
Mert Balcı, Fadime
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fadimemert@iyte.edu.tr
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04.01. Department of Chemistry
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Current Staff
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20
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321
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11
Documents
21
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315
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12
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10
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53327/2314
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2
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WoS Citation Count
149
Scopus Citation Count
157
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1
WoS Citations per Publication
12.42
Scopus Citations per Publication
13.08
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4
Supervised Theses
2
| Journal | Count |
|---|---|
| The Journal of Physical Chemistry C | 2 |
| Journal of Physical Chemistry C | 2 |
| Journal of Physical Chemistry A | 1 |
| Journal Of Physical Chemistry Letters | 1 |
| Nanoscale Advances | 1 |
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12 results
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Now showing 1 - 10 of 12
Article One-Pot, Light-Induced, Liquid Crystal-Templated Synthesis of Nanoporous Silver Films at Room Temperature(TÜBİTAK, 2025) Mert-Balci, F.Nanoporous silver (NPS) films, characterized by a 3-dimensional bicontinuous structure of interconnected nanopores and ligaments, have found widespread use in spectroscopy, plasmonics, solar cells, catalysis, and chemical sensing. Traditionally, NPS films are fabricated via chemical dealloying, where a less noble metal (e.g., Cu or Al) is selectively removed through harsh chemical etching. However, residual traces of these metals can adversely affect the performance of NPS thin films in applications such as plasmonics and catalysis. This paper reports a one-pot, liquid crystal-templated method for synthesizing ultrapure NPS thin films at room temperature for the first time. The process begins with the preparation of an LLC composed of a nonionic surfactant and AgNO<inf>3</inf> that is then coated onto solid substrates. Exposure of the LLC film to ultraviolet light facilitates the in situ synthesis of Ag nanoparticles within the liquid crystal film. Subsequent solvent washing removes the surfactant molecules and any unreacted metal ions, yielding NPS films comprised of densely packed Ag nanoparticles on glass substrates. The resulting NPS films feature a 3-dimensional structure with uniformly distributed, interconnected nanopores. Synthesized under ambient conditions and scalable over large areas, these ultrapure NPS films present a highly promising platform for advanced applications in catalysis, spectroscopy, plasmonics, and biosensing. © TÜBİTAK.Article Citation - WoS: 17Citation - Scopus: 19Strong Coupling of Carbon Quantum Dots in Liquid Crystals(American Chemical Society, 2022) Sarısözen, Sema; Polat, Nahit; Mert Balcı, Fadime; Güvenç, Çetin Meriç; Kocabaş, Çoşkun; Yağlıoğlu, Halime Gül; Balcı, SinanCarbon quantum dots (CDs) have recently received a tremendous amount of interest owing to their attractive optical properties. However, CDs have broad absorption and emission spectra limiting their application ranges. We herein, for the first time, show synthesis of water-soluble red emissive CDs with a very narrow line width (∼75 meV) spectral absorbance and hence demonstrate strong coupling of CDs and plasmon polaritons in liquid crystalline mesophases. The excited state dynamics of CDs has been studied by ultrafast transient absorption spectroscopy, and CDs display very stable and strong photoluminescence emission with a quantum yield of 35.4% and a lifetime of ∼2 ns. More importantly, we compare J-aggregate dyes with CDs in terms of their absorption line width, photostability, and ability to do strong coupling, and we conclude that highly fluorescent CDs have a bright future in the mixed light-matter states for emerging applications in future quantum technologies.Master Thesis Lyotropic Liquid Crystal Templated Synthesis of Single-Crystalline Gold Microplates and Transparent Conductive Reduced Graphene Oxide Thin Films(01. Izmir Institute of Technology, 2023) Akkuş, Betül; Mert Balcı, FadimeSurfactants organize to form various mesophases of lyotropic liquid crystal (LLC) in the presence of water. In the literature, some acids, salts, and ionic liquids have also been used to form ordered LLC mesophases. In this thesis, two dimensional (2D) single-crystalline gold (Au) nano- and microplates and reduced graphene oxide (RGO) thin films have been synthesized using LLC mesophases. Stable LLC mesophases have been formed using 10-lauryl ether (C12EO10), an oligo-type surfactant, and sulfuric acid (H2SO4), a strong acid. Au plates with various anisotropic structures, such as triangular, truncated triangular, hexagonal, and gear-like, have been synthesized by a photochemical method in the presence of LLC mesophase. Most importantly, Au plates up to 39 µm in width have been obtained in the confined space of the LLC medium. The thickness of the obtained Au plates varies from 50 nm to 150 nm. The size and/or morphology of Au products synthesized in LLC medium depends on the power of the light source, the irradiation time, the amount of Au precursor added, the addition of different capping agents, and various inorganic salts. Additionally, spin-coated RGO thin films have been synthesized using the LLC mesophase for use as a transparent and conductive electrode in various electrochemical devices. The LLC mesophase has improved the sheet resistance values of RGO thin films. RGO thin films with a sheet resistance of 31 kΩ/sq and an optical transmittance of 92% at 550 nm have been achieved at the high thermal annealing temperature under an inert atmosphere.Article Citation - WoS: 25Citation - Scopus: 25Colloidal Bimetallic Nanorings for Strong Plasmon Exciton Coupling(American Chemical Society, 2020) Güvenç, Çetin Meriç; Mert Balcı, Fadime; Sarısözen, Sema; Polat, Nahit; Balcı, SinanNobel-metal nanostructures strongly localize and manipulate light at nanoscale dimension by supporting surface plasmon polaritons. In fact, the optical properties of the nobel-metal nanostructures strongly depend on their morphology and composition. Until now, various metal nanostructures such as nanocubes, nanoprisms, nanorods, and recently hollow nanostructures have been demonstrated. In addition, the plasmonic field can be further enhanced at nanoparticle dimers and aggregates because of highly localized and intense optical fields, which is known as "plasmonic hot spots". However, colloidally synthesized and circular-shaped nanoring nanostructures with plasmonic hot spots are still lacking. We, herein, show for the first time that colloidal bimetallic nanorings with plasmonic nanocavities and tunable plasmon resonance wavelengths can be synthesized via colloidal synthesis and galvanic replacement reactions. In addition, in the strong coupling regime, plasmons in nanorings and excitons in J-aggregates interact strongly and nanoring-shaped colloidal plexcitonic nanoparticles are demonstrated. The results reveal that the optical properties of the nanoring and the onset of strong coupling can be tamed by the galvanic replacement reaction. Further, the plasmonic nanocavity in the nanorings has immense potential for applications in sensing and spectroscopy because of the space, enclosed by the plasmonic nanocavity, is empty and accessible to a variety of molecules, ions, and quantum dots.Article Citation - WoS: 3Citation - Scopus: 3Light-Induced Synthesis of Single-Crystalline Gold Microplates in an Open System(Amer Chemical Soc, 2023) Akkuş, Betül; Mert Balcı, FadimeBottom-up synthesis of large single-crystalline gold microplates is of key importance to catalysis, nanophotonics, bioengineering, and plasmonics. However, easy, low-cost, room-temperature, and high-yield synthesis of large gold microplates with several micrometers in lateral size and a few tens of nanometers in thickness by using photochemical synthesis in an open system is still challenging. We herein report on an easy and cost-effective photochemical synthesis of single-crystalline gold microplates with lateral sizes up to around 40 mu m and tens of nanometers in thickness in a few hours of reaction time in an open system containing a lyotropic liquid crystal, which is formed by self-assembly of 10-lauryl ether in a strong acid, sulfuric acid, along with water. We have found that by changing the reaction parameters, such as the reaction time, the concentration of gold ions in the liquid crystal, etc., the thickness and size of the microplates can be easily controlled. Most importantly, the liquid crystalline phase is completely preserved after completion of the photochemical reaction. The microplates can be easily isolated and transferred to different media such as alcohol and water for further studies, or they can be immediately used on a substrate after completion of the reaction. The results obtained in this study will allow us to understand the growth mechanism of gold microplates in open systems, and they will find applications in a variety of critical areas, such as plasmonics, nanophotonics, and catalysis.Article Citation - WoS: 49Citation - Scopus: 54Highly Porous Poly(o-Phenylenediamine) Loaded Magnetic Carboxymethyl Cellulose Hybrid Beads for Removal of Two Model Textile Dyes(Springer, 2022) Arıca, Tuğçe Aybüke; Balcı, Fadime Mert; Balcı, Sinan; Arıca, Mehmet YakupEnsuring the removal of complex dyes from wastewater is a topic of great interest as it is vital for the environment. The present study reports a facile preparation method for poly(o-phenylenediamine) [p(o-PDA)] micro-particles loaded to magnetic carboxymethyl cellulose (CMC) hydrogel beads as adsorbents. The prepared products were characterized by FTIR, TGA, VSM, SEM, BET, and zeta sizer. The Fe3O4@p(o-PDA)@CMC beads were used for the removal of Reactive Blue 4 (RB-4) and Congo Red (CR) textile dyes from an aqueous medium. Different factors, such as adsorbent dose, initial pH, ionic strength, contact time, temperatures, and initial RB-4 and CR concentrations were examined. The maximum adsorption capacities of the RB-4 dye and CR at optimum pH 5 reached 398.7 and 524.6 mg/g in 120 min, respectively. The adsorption of RB-4 and CR on the hybrid magnetic beads can be due to the electrostatic, hydrogen bonding, and π-π interactions. Moreover, the magnetic hybrid beads showed easy regeneration ability and good reusability. The adsorbent can be a very good candidate for the efficient removal of micro-pollutant from wastewater.Article Citation - WoS: 5Citation - Scopus: 5Light-Induced, Liquid Crystal-Templated Fabrication of Large-Area Pure Nanoporous Gold Films With High-Density Plasmonic Cavities(Amer Chemical Soc, 2024) Orhan, Ozan Baran; Polat, Nahit; Demir, Seren; Balci, Fadime Mert; Balci, SinanNanoporous gold (NPG) films are three-dimensional gold (Au) frameworks characterized by a uniform distribution of nanoscale irregular pores. Typically produced via a dealloying process, where the less noble silver (Ag) is selectively etched out, NPG films offer a large surface area, excellent chemical stability, remarkable catalytic activity, unique optical properties, and biocompatibility. These attributes make them invaluable for applications in catalysis, plasmonics, biosensors, and nanophotonics. However, the presence of residual Ag from the dealloying process can limit their performance in certain applications. In this study, we report a novel method for the fabrication of ultrapure, large-area NPG films (several cm2) using a light-induced and liquid crystal-templated method. A hexagonal lyotropic liquid crystal containing a strong acid and a nonionic surfactant is combined with an aqueous solution of HAuCl4, followed by the photochemical synthesis of gold nanoparticles (NPs) within the liquid crystal. After calcination of the Au NP-containing liquid crystal film at high temperature, pure NPG films are produced. We demonstrate surface-enhanced Raman spectroscopy (SERS) of Rhodamine 6G (R6G) molecules adsorbed on the NPG films and detect extremely low concentrations (below 10-6 M) of R6G. Additionally, we thoroughly investigated the formation and optical properties of the NPG films. The results reveal that the ultrapure NPG films contain high-density plasmonic nanocavities, where substantial electromagnetic fields are generated, leading to significant enhancement of optical processes at nanoscale dimensions.Article Citation - WoS: 12Citation - Scopus: 14Laser Assisted Synthesis of Anisotropic Metal Nanocrystals and Strong Light-Matter Coupling in Decahedral Bimetallic Nanocrystals(Royal Society of Chemistry, 2021) Mert Balcı, Fadime; Sarısözen, Sema; Polat, Nahit; Güvenç, Çetin Meriç; Karadeniz, Uğur; Tertemiz, Necip Ayhan; Balcı, SinanThe advances in colloid chemistry and nanofabrication allowed us to synthesize noble monometallic and bimetallic nanocrystals with tunable optical properties in the visible and near infrared region of the electromagnetic spectrum. In the strong coupling regime, surface plasmon polaritons (SPPs) of metal nanoparticles interact with excitons of quantum dots or organic dyes and plasmon-exciton hybrid states called plexcitons are formed. Until now, various shaped metal nanoparticles such as nanorods, core-shell nanoparticles, hollow nanoparticles, nanoprisms, nanodisks, nanorings, and nanobipyramids have been synthesized to generate plasmon-exciton mixed states. However, in order to boost plasmon-exciton interaction at nanoscale dimensions and expand the application of plexcitonic nanocrystals in a variety of fields such as solar cells, light emitting diodes, and nanolasers, new plexcitonic nanocrystals with outstanding optical and chemical properties remain a key goal and challenge. Here we report laser-assisted synthesis of decahedral shaped noble metal nanocrystals, tuning optical properties of the decahedral shaped nanocrystals by galvanic replacement reactions, colloidal synthesis of bimetallic decahedral shaped plexcitonic nanocrystals, and strong plasmon-plasmon interaction in bimetallic decahedral shaped noble metal nanocrystals near a metal film. We photochemically synthesize decahedral Ag nanoparticles from spherical silver nanoparticles by using a 488 nm laser. The laser assisted synthesis of silver nanoparticles yields decahedral (bicolored) and prism (monocolored) shaped silver nanocrystals. The decahedral shaped nanoparticles were selectively separated from prism shaped nanoparticles by centrifugation. The optical properties of decahedral nanocrystals were tuned by the galvanic replacement reaction between gold ions and silver atoms. Excitons of J-aggregate dyes and SPPs of decahedral bimetallic nanoparticles strongly couple and hence decahedral shaped plexcitonic nanoparticles are prepared. In addition, localized SPPs of decahedral shaped bimetallic nanocrystals interact strongly with the propagating SPPs of a flat silver film and hence new hybrid plasmonic modes (plasmonic nanocavities) are generated. The experimental results are further fully corroborated by theoretical calculations including decahedral shaped plexcitonic nanoparticles and decahedral nanoparticles coupled to flat metal films.Master Thesis Liquid Crystal Templated Synthesis of Metal Oxides and Their Characterization(01. Izmir Institute of Technology, 2024) Demir, Seren; Balcı, Fadime MertSıvı kristaller, katılar ve sıvılar arasında özellikler gösteren fazlar olup malzeme bilimi ve teknolojisinde önemli bir yere sahiptir. Bu malzemeler, moleküllerinin dizilimi ve hareket serbestliği sayesinde hem sıvıların hem de kristallerin özelliklerini birleştirir. Özellikle termotropik ve liyotropik sıvı kristaller, sıcaklık ve çözücü konsantrasyonuna bağlı olarak farklı fazlara geçiş yapabilen yapılar sunar. Sıvı kristallerin sergilediği mezofazlar moleküler dizilimine göre sınıflandırılır. Bu mezofazlar, özellikle optoelektronik uygulamalarda, sensörlerde ve biyomimetik malzemelerde önemli rol oynar. Yüzey aktif maddeler, suyun varlığında çeşitli liyotropik sıvı kristal (LLC) mezofazları oluşturmak üzere organize olurlar. Bu tezde, Sıvı Kristal mezofazları kullanılarak Molibden trioksit filmleri sentezlendi ve bu filmler farklı karakterizasyon teknikleri kullanılarak karakterize edildi. Ayrıca, Sıvı Kristal şablonlu Çinko oksit ince filmler aynı şekilde sentezlendi ve farklı karakterizasyon teknikleri kullanılarak karakterize edildi. Ayrıca, Çinko Oksit filmler için pozitif yüklü CTAB yüzey aktif maddesinin filmler üzerindeki etkisi araştırıldı. Farklı kalınlıklardaki çinko oksit filmlerin Tauc Plot ile bant aralığı hesaplaması yapıldı. Ayrıca, Metal Organik Çerçevelerden biri olan ZIF-8, Çinko oksit ince filmler üzerinde sentezlendi ve karakterize edildi.Article Citation - WoS: 35Citation - Scopus: 36Colloidal Nanodisk Shaped Plexcitonic Nanoparticles With Large Rabi Splitting Energies(American Chemical Society, 2019) Mert Balcı, Fadime; Sarısözen, Sema; Polat, Nahit; Balcı, SinanWhen plasmons supported by metal nanoparticles interact strongly with molecular excitons or excitons of semiconducting quantum dots, plexcitons are formed in the strong coupling regime. The hybrid plexcitonic nanoparticles with a wide range of sizes and shapes have been synthesized by using wet chemistry methods or have been fabricated on solid substrates by using lithographic techniques. In order to deeply understand plasmon-exciton interaction at the nanoscale dimension and boost the performance of nanophotonic devices made of plexcitonic nanoparticles, new types of plexcitonic nanoparticles with tunable optical properties and outstanding stability at room temperature are urgently needed. Herein, we for the first time report pure colloidal nanodisk shaped plexcitonic nanoparticles with very large Rabi splitting energies, i.e., more than 350 meV. We synthesize silver nanoprisms by using seed mediated synthesis and then convert nanoprisms to nanodisks at a high temperature. Localized plasmon resonance of the silver nanodisk in the visible spectrum can be effectively tuned by heating. Subsequently, self-assembly of J-aggregate dyes on plasmonic nanodisks produces plexcitonic nanoparticles. We envision that colloidal nanodisk shaped plexcitonic nanoparticles with very large Rabi splitting energies and outstanding stability at room temperature will enlarge the application of plexcitonic nanoparticles in a variety of fields such as polariton laser, biosensor, plasmon molecular nanodevices, and energy flow at nanoscale dimensions.