Photonics / Fotonik

Permanent URI for this collectionhttps://hdl.handle.net/11147/2590

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Start date: 2016End date: 2019

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  • Research Project
    Fullerenlere Alternatif Yeni Asetil Köprülü Perilendiimidlerin Sentezi ve Akseptör Özelliklerinin Fotofiziksel Süreçlerle Araştırılması
    (2019) Varlıklı, Canan
    Organik güneş hücresi (OGH) nde elektrik üretimi, donörün ışığı soğruması ekziton oluşumu, ekziton difüzyonu, ayrışması ve elektron transfer süreçleri, elektron ve boşlukların katot ve anotta toplanması ile gerçekleşir. Literatürde birçok farklı elektron verici (D) ve alıcı (A) malzeme geliştirilmektedir. A malzemeleri içerisinde en sık kullanılanlardan birisi fulleren ve türevleridir. Bu türevlerin üretimi oldukça zor ve yüksek maliyetlidir. Bu sebeple, literatürde son 10 yıl da, fulleren içermeyen OGHne olan ilginin arttığı görülmektedir. Perilendiimidler (PDIler), görünür bölgedeki yüksek molar soğurma katsayıları ve elektron ilgileri ile dikkat çekmektedir. Ancak, PDIlerin genel organik çözgenlerdeki çözünürlükleri düşük, agregatlaşma eğilimleri fazladır. Güçlü perilen-perilen etkileşimleri film fazında mikroboyutlara ulaşabilecek kristalitler oluşturabilmektedir. Bu durum ise, ekziton haraketliliğini ve elektron ve boşlukların elektrotlarda toplanmasını olumsuz etkilemektedir. Bu proje kapsamında, izomerik saflıkta 1,6- ve 1,7- bis[(trifenil)(4-etinil-fenil)silan)- N,N′-di(2- etilhekzil)-perilen-3, 4, 9, 10-tetrakarboksilikasit diimid [1,6 ve 1,7-Di(TPhSi)APDI] sentezlenmiş, 1H ve 13C NMR ile karakterize edilmiştir. Saf izomerlerin absorpsiyon ve fotoluminesans özellikleri, indirgenme potansiyelleri, en yüksek enerjili elektron içeren moleküler orbital ve en düşük enerjili elektron içermeyen moleküler orbital enerji seviyeleri tespit edilmiştir. Referans olarak sentezlenen N,N′-di(2-etilhekzil)-perilen-3, 4, 9, 10- tetrakarboksilikasit diimid [PDI(2EH)] ve 1,6- ve 1,7-Di-TPhSiAPDI(2EH) in çözelti ve film fazı fotofiziksel özellikleri incelenmiştir. Yeni sentezlenen PDI türevlerinin ve ticari fulleren türevinin (PCBM), ticari bir donör olan poli[N-9'-heptadekanil-2,7-karbazol-alt-5,5-(4',7'-di-2- thienyl-2',1',3'-benzothiadiazole)] (PCDTBT) ile çözelti ve film fazındaki etkileşimleri izlenerek, karşılaştırılmıştır. Filmlerin morjolojik özellikleri atomik kuvvet mikroskobu ölçümleri ile tespit edilmiştir. 1,7-Di-TPhSiAPDI(2EH) in agregatlaşma eğiliminin ve fotokararlılığının PDI(2EH) den düşük, soğurma dalga boyunun, elektron ilgisinin ve yaşam ömrünün PDI(2EH) den yüksek ve molar soğurma katsayısının PDI(2EH) ile aynı seviyede olduğu tespit edilmiştir. Bu özellikleri ile yeni molekülün uygun D malzeme kullanımı ile hazırlanacak OGH aygıtında, PDI(2EH) den yüksek verim vereceği düşünülmüştür.
  • Article
    Single Layer Res2h2: Stability, Raman Activity and Electronic Properties
    (Eskişehir Teknik Üniversitesi, 2018) Ünsal, Elif; Şahin, Hasan
    In this study, the structural, vibrational and electronic properties of the hydrogenated single layer of ReS2 are investigated byperforming the first principle calculations based on density functional theory. We found that the characteristic properties ofthe monolayer ReS2 can be manipulated upon the hydrogen functionalization. As the monolayer ReS2, the ReS2H2 hasdistorted 1T phase; however, the bonding in Re slab significantly varies with the hydrogenation. Our results demonstrate thatthe full-surface hydrogenation leads to an expansion in lattice and the Re4 tetramer-chains in the monolayer ReS2 areseparated into two dimers in the hydrogenated monolayer. It is calculated that the dynamically stable monolayer of ReS2H2has 26 Raman-active vibrational modes. Constant volume specific heat calculations are also performed and the resultsindicate that at high temperature, the monolayer ReS2 approaches to limit of 3R before the monolayer ReS2H2. By performingthe electronic band structure calculations, it is shown that when the ReS2 surface is fully hydrogenated, there occurs a directto indirect band gap transition and the semiconducting hydrogen-induced monolayer has a band gap of 0.74 eV.
  • Patent
    Silicon-Based Emitter Compound
    (Espacenet, 2018)
    The present invention relates to emitter compounds E of formula or salts thereof based on a triazine core, substituted with at least one moiety of formula: and at least one donor moiety. Further, the present invention also refers to a light-emitting layer B comprising the emitter compound E and to an opto-electronic device OD comprising such light-emitting layer B. Moreover, the present invention relates to a method for generating light of a desired wavelength range by means of the opto-electronic device OD.
  • Article
    Citation - WoS: 3
    Citation - Scopus: 3
    Green Fabrication of Lanthanide-Doped Hydroxide-Based Phosphors: Y(oh)(3):eu3+ Nanoparticles for White Light Generation
    (Beilstein-Institut Zur Forderung der Chemischen Wissenschaften, 2019) Güner, Tuğrul; Kuş, Anılcan; Özcan, Mehmet; Genç, Aziz; Şahin, Hasan; Demir, Mustafa Muammer
    Phosphors can serve as color conversion layers to generate white light with varying optical features, including color rendering index (CRI), high correlated color temperature (CCT), and luminous efficacy. However, they are typically produced under harsh synthesis conditions such as high temperature, high pressure, and/or by employing a large amount of solvent. In this work, a facile, water-based, rapid method has been proposed to fabricate lanthanide-doped hydroxide-based phosphors. In this sense, sub-micrometer-sized Y(OH)(3):Eu3+ particles (as red phosphor) were synthesized in water at ambient conditions in <= 60 min reaction time. The doping ratio was controlled from 2.5-20 mol %. Additionally, first principle calculations were performed on Y(OH)(3):Eu3+ to understand the preferable doping scenario and its optoelectronic properties. As an application, these fabricated red phosphors were integrated into a PDMS/YAG:Ce3+ composite and used to generate white light. The resulting white light showed a remarkable improvement (approximate to 24%) in terms of luminous efficiency, a slight reduction of CCT (from 3900 to 3600 K), and an unchanged CRI (approximate to 60) as the amount of Y(OH)(3):Eu3+ was increased.
  • Article
    Citation - WoS: 3
    Citation - Scopus: 4
    Experimental and First-Principles Investigation of Cr-Driven Color Change in Cesium Lead Halide Perovskites
    (American Institute of Physics, 2019) Özen, Sercan; Güner, Tuğrul; Topçu, Gökhan; Özcan, Mehmet; Demir, Mustafa Muammer; Şahin, Hasan
    Herein, we report room temperature Cr-doping for all-inorganic perovskites that have attracted great attention in recent years due to their extraordinary optical properties, low cost, and ease of synthesis. Incorporation of Cr 3 + ions into the perovskite crystal lattices is achieved by following a facile route involving an antisolvent recrystallization method at room temperature. It is shown that both Cr-doping and formation of crystals in the CsPbBr x Cl 3 - x phase are provided by increasing the concentration of the CrCl 3 solution. It is also observed that the doping procedure leads to the emergence of three types of distinctive peaks in the PL spectrum originating from CsPbBr x Cl 3 - x domains (476-427nm), Cr-strained host lattices (515nm), and midgap states formed by Cr dopants (675-775nm). It is also found that the Cr-doped perovskites emitting a dark violaceous color change their color to white with a high color rendering index (88) in 30-day time intervals. Easy-tunable optical properties of all-inorganic Cs perovskites indicate their great potential for future optoelectronic device applications.
  • Article
    Citation - WoS: 3
    Citation - Scopus: 4
    Soluble Cytotoxic Ruthenium(ii) Complexes With 2-Hydrazinopyridine
    (Pleiades Publishing, 2019) Soliman, A. A.; Attaby, F. A.; Alajrawy, O., I; Majeed, S. R.; Şahin, C.; Varlıklı, Canan
    New water soluble Ru(II) binary complex [Ru(C5H7N3)(X)(H2O)(2)] with 2-hydrazinopyridine and its ternary complexes with X = dichloride, oxalate, malonate or pyrophosphate ligands have been synthesized. The complexes have been characterized using elemental analyses, mass, IR, and UV-Vis. spectroscopies, cyclic voltammetry, magnetic susceptibility, and thermal analysis. The complexes are diamagnetic and the electronic spectral data showed that peaks are due to low spin octahedral Ru(II) complexes. The optimized structures of the complexes 1-4 indicate distorted octahedral geometry with bond angles around the ruthenium atom ranged from 80.44 degrees to 99.64 degrees. The values of the electronic energies (-635 to -1145 a.u.), the highest occupied molecular orbital energies (-0.181 to 0.073 a.u.) and lowest unoccupied molecular orbital energies (-0.056 to 0.167 a.u.) indicate the stability of the complexes. The complexes are polarized as indicated from the dipole moment values (9.39-14.27 Debye). The complexes have noticeable cytotoxicity with IC50 (mu M): 0.011-0.062 (HepG-2), 0.015-0.080 (MCF-7), 0.015-0.116 (HCT-116), and PC-3 (0.034-0.125).
  • Article
    Citation - WoS: 9
    Citation - Scopus: 9
    Fourier Transform Plasmon Resonance Spectrometer Using Nanoslit-Nanowire Pair
    (American Institute of Physics, 2019) Uulu, Doolos Aibek; Ashirov, Timur; Polat, Nahit; Yakar, Ozan; Balcı, Sinan; Kocabaş, Coşkun
    In this paper, we present a nanoscale Fourier transform spectrometer using a plasmonic interferometer consisting of a tilt subwavelength slit-nanowire pair on a metallic surface fabricated by the focused ion beam microfabrication technique. The incident broadband light strongly couples with the surface plasmons on the gold surface, and thus, surface plasmon polaritons (SPPs) are generated. The launched SPPs interfere with the incident light and generate high contrast interference fringes in the nanoslit. The transmitted SPPs through the metal nanoslit can decouple into free space and are collected by an objective in the far field. The spectroscopic information of the incidence light is obtained by fast Fourier transform of the fringe pattern of the SPPs. In our design, there is no need for a bulky dispersive spectrometer or dispersive optical elements. The dimension of the spectrometer is around 200 mu m length. Our design is based on inherent coherence of the SPP waves propagating through the subwavelength metal nanoslit structures etched into an opaque gold film.
  • Article
    Citation - WoS: 5
    Citation - Scopus: 6
    Contribution of O-2 Plasma Treatment and Amine Modified Gos on Film Properties of Conductive Pedot:pss: Application in Indium Tin Oxide Free Solution Processed Blue Oled
    (Elsevier, 2019) Diker, Halide; Yeşil, Fatih; Varlıklı, Canan
    Primary (n-propyl amine, n-PRYLA), secondary (dipropyl amine, DPRYLA) and alcohol (propanol amine, PRPOHA) amine derivatives were used as amine sources in graphene oxide (GO) modification and obtained samples were named as nPRYLA-GO, DPRYLA-GO and PRPOHA-GO, respectively. Modified graphene oxide (mGO) derivatives were doped in poly (3,4-ethylenedioxythiophene)-poly(styrenesulfonate) (PH1000) and O-2 plasma treatment (70W, 3 min) was applied on the spin casted films. PH1000:mGO films presented high optical transparency values (> 90%) and low resistivity (177-183 Q/sq). The roughness values were increased especially when the hydrophobic alkyl chain containing DPRYLA-GO and nPRYLA-GO were doped in PH1000. Prepared films were utilized as anode in solution processed blue organic light emitting diode. PH1000:PRPOHA-GO anode presented more than 30 nm of decrement in full with at half maximum and 1.6, 1.5 and 1.9 fold enhancements in current, power and external quantum efficiency values, compared to those of ITO anode, respectively.
  • Article
    Citation - WoS: 4
    Citation - Scopus: 4
    Color-Tunable All-Inorganic Cspbbr3 Perovskites Nanoplatelet Films for Photovoltaic Devices
    (American Chemical Society, 2019) Özcan, Mehmet; Özen, Sercan; Topçu, Gökhan; Demir, Mustafa Muammer; Şahin, Hasan
    Herein, we demonstrate a novel coating approach to fabricate CsPbBr3 perovskite nanoplatelet film with heat-free process via electrospraying from precursor solution. A detailed study is carried out to determine the effect of various parameters such as ligand concentration, electric field, flow rate, etc. on the optical properties. By controlling the volume ratios of the oleylamine (OAm) and oleic acid (OA), the coalescing and thickness of the resulting nanoplatelets can be readily tuned that results in control over emission in the range of 100 nm without any antisolvent crystallization or heating processes. The varying electrical field and flow rate was found as inefficient on the emission characteristics of the films. In addition, the crystal films were obtained under ambient conditions on the ITO coated glass surfaces as in the desired pattern. As a result, we demonstrated a facile and reproducible way of synthesizing and coating of CsPbBr3 perovskite nanoplatelets which is suitable for large-scale production. In this method, the ability of tuning the degree of quantum confinement for perovskite nanoplatelets is promising approach for the one-step fabrication of crystal films that may enable the use in optoelectronics.
  • Article
    Citation - WoS: 24
    Citation - Scopus: 24
    Defect Tolerant and Dimension Dependent Ferromagnetism in Mnse2
    (Royal Society of Chemistry, 2019) Eren, İsmail; İyikanat, Fadıl; Şahin, Hasan
    By performing density functional theory-based calculations, we investigate the structural, vibrational, electronic and magnetic properties of 2D monolayers, nanoribbons and quantum dots of MnSe2. Vibrational spectrum analysis reveals the dynamical stability of not only ferromagnetic but also antiferromagnetic phases of single layer MnSe2 crystal structures. Electronically, calculations show that 1T-MnSe2 is a ferromagnetic structure displaying metallic behavior. It is also found that the structure preserves its dynamical stability and metallic behavior even under the presence of high density Se vacancies. Moreover, it was predicted that, differing from the 2D MnSe2, metal-metal interaction driven reconstructions result in ferromagnetic-to-antiferromagnetic crossover in the ground state of nanoribbons and quantum dots. With its robust ferromagnetic metallic character in the 2D ultra-thin limit and dimension-dependent magnetic properties, MnSe2 is an important candidate for spintronic device applications.