52 results on '"Alytis Gruodis"'
Search Results
2. Differently substituted benzothiadiazoles as charge-transporting emitters for fluorescent organic light-emitting diodes
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Arunas Miasojedovas, Oleksandr Bezvikonnyi, Juozas V. Grazulevicius, Saulius Jursenas, Dmytro Volyniuk, Dalius Gudeika, and Alytis Gruodis
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Materials science ,Carbazole ,Process Chemistry and Technology ,General Chemical Engineering ,02 engineering and technology ,Electroluminescence ,010402 general chemistry ,021001 nanoscience & nanotechnology ,Photochemistry ,01 natural sciences ,Fluorescence ,0104 chemical sciences ,chemistry.chemical_compound ,chemistry ,Excited state ,OLED ,Quantum efficiency ,Singlet state ,0210 nano-technology ,Phosphorescence - Abstract
Carbazolyl- and 1,2,3,4-tetrahydrocarbazolyl-substituted benzothiadiazoles were prepared by Pd-catalyzed Buchwald-Hartwig and Heck reactions. Photophysical, electrochemical, thermal, charge-transporting properties, and performance in organic light emitting diodes (OLEDs) of the derivatives with donor-π-acceptor-π-donor and donor-acceptor-donor structures are discussed. Photo- and electroluminescent properties of the studied compounds of carbazole and benzothiadiazole are very sensitive to their molecular structures. Their glass transition temperatures range from 145 to 191 °C. Investigation of photophysical properties revealed importance of intramolecular twisting on excited state deactivation. Emission of dilute solutions of the compounds in nonpolar solvents appears in the orange region with fluorescence quantum yields up to 0.6.4,7-(Di (1,2,3,4-tetrahydro)carbazolyl)-[2,1,3]-benzothiadiazole demonstrates phosphorescence and delayed fluorescence at room temperature. Solid-state ionization potentials of the materials range from 5.64 to 5.82 eV. The layer of 4,7-(di (tert-butyl)carbazolyl)-[2,1,3]-benzothiadiazole shows high hole drift mobility of 1.7 × 10−3 cm2/V·s at an electric field of 5.3 × 105 V/cm and relatively high electron drift mobility of 5.7 × 10−5 cm2/V·s at an electric field of 5.8 × 105 V/cm. Red OLEDs based of singlet emission with maximum external quantum efficiency values of 1.3 and 0.13% were achieved using new emitters. Much better electroluminescent performance was observed for the compound having donor-acceptor-donor structure relative to the compound with donor-π-acceptor-π-donor structure.
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- 2019
3. An air-stable and solution processable tetracarboxydiimide-based materials with tunable charge transport properties
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Vygintas Jankauskas, Greta Planciunaite, Valentas Gaidelis, Vytautas Getautis, Simona Urnikaite, Maryte Daskeviciene, Egidijus Kamarauskas, Alytis Gruodis, Mindaugas Viliunas, and Tadas Malinauskas
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Thermogravimetric analysis ,Materials science ,Process Chemistry and Technology ,General Chemical Engineering ,02 engineering and technology ,Electron ,010402 general chemistry ,021001 nanoscience & nanotechnology ,01 natural sciences ,0104 chemical sciences ,chemistry.chemical_compound ,Differential scanning calorimetry ,Chemical engineering ,chemistry ,Thermal ,Molecule ,Ionization energy ,0210 nano-technology ,Perylene ,Naphthalene - Abstract
Novel bipolar molecules based on naphthalene- (V555) and perylene- (V565) tetracarboxydiimide core, bearing 1-phenyl-1,2,3,4-tetrahydroquinoline end capping hole transporting groups, were designed and synthesized. Electro-optical and thermal measurements, such as UV/VIS, charge mobility, ionization potential, thermogravimetric analysis, and differential scanning calorimetry, were carried out to characterize the new materials. V555 and V565 showed bipolar behavior with both hole and electron mobilities under ambient conditions without any protection from oxygen or moisture. The gelation of V565 was observed that provides the ability to tune the charge transport properties.
- Published
- 2018
4. The influence of substituents of perylenediimides on their spectroscopic properties
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Alytis Gruodis, Ramūnas Augulis, Renata Karpicz, Austėja Bukauskytė, Romualdas Striela, L. Labanauskas, Vidmantas Gulbinas, and Domantas Peckus
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Materials science ,Oscillator strength ,Relaxation (NMR) ,Biophysics ,Quantum yield ,02 engineering and technology ,General Chemistry ,010402 general chemistry ,021001 nanoscience & nanotechnology ,Condensed Matter Physics ,Photochemistry ,Internal conversion (chemistry) ,01 natural sciences ,Biochemistry ,Atomic and Molecular Physics, and Optics ,0104 chemical sciences ,chemistry.chemical_compound ,chemistry ,Excited state ,Yield (chemistry) ,0210 nano-technology ,Spectroscopy ,Perylene - Abstract
The influence of substituents of newly synthesized perylenediimides on their spectral properties and excited state relaxation has been studied by means of steady-state and time-resolved spectroscopy and quantum chemical calculations. Substituents at the perylene core cause broadening and shift of the absorption and fluorescence bands and also reduce the fluorescence quantum yield. Organic 4-tert-butylphenoxy substituents reduce the fluorescence yield by tens of percent by slightly reducing the oscillator strength of the radiative transition and by significantly increasing the non-radiative decay rate. We attribute both changes mainly to the distortion of the planarity of the perylene core. Bromine substituents reduce the fluorescence quantum yield by up to two orders of magnitude by opening an internal conversion channel.
- Published
- 2018
5. Hole-transporting materials based on diarylfluorene compounds containing different substituents: DFT simulation, spectroscopic characterization and applications in organic light emitting diodes
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Saulius Grigalevicius, Katsiaryna Chernyakova, Alytis Gruodis, Raminta Beresneviciute, Gintare Krucaite, Renata Karpicz, D. Tavgeniene, and Baohua Zhang
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Materials science ,Bilayer ,Organic Chemistry ,Fluorene ,Electroluminescence ,Photochemistry ,Quantum chemistry ,Atomic and Molecular Physics, and Optics ,Electronic, Optical and Magnetic Materials ,Amorphous solid ,Inorganic Chemistry ,chemistry.chemical_compound ,chemistry ,OLED ,Thermal stability ,Electrical and Electronic Engineering ,Physical and Theoretical Chemistry ,Glass transition ,Spectroscopy - Abstract
Three diarylfluorene derivatives with phenyl, biphenyl, and naphthyl fragments were synthesized and characterized as electroactive materials of high thermal stability, which can form amorphous layers with glass transition temperatures of 31–74 °C. Systematic analysis of diarylfluorene compounds in the framework of the molecular charge redistribution processes according to quantum chemistry simulations allows concluding that a partially broken π-conjugated system of the core is related to the rotation motion of substituents which effectively modified the π-conjugated properties of fluorene core. The low-molar-mass derivatives, previously tested as hole transporting (HT) materials, were used in bilayer electroluminescent organic light emitting diodes with Alq3 as the emitter. The device with the HT layer of 2,7-di(1-naphthyl)-9,9-diethylfluorene exhibited the best overall performance as turn-on voltage of 4.6 V; maximum photometric efficiency of 2.8 cd A−1; maximum brightness about 7760 cd m−2.
- Published
- 2021
6. Fluorescence quenching of indolo[3,2-b]carbazole compounds by conformational motions of attached substituents
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Mindaugas Kirkus, Wim Dehaen, Juozas V. Grazulevicius, Saulius Grigalevicius, Renata Karpicz, Simona Streckaite, Sven Van Snick, Alytis Gruodis, and Vidmantas Gulbinas
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Quantum chemical ,Carbazole ,Process Chemistry and Technology ,General Chemical Engineering ,Relaxation (NMR) ,Spectral properties ,02 engineering and technology ,010402 general chemistry ,021001 nanoscience & nanotechnology ,Photochemistry ,01 natural sciences ,0104 chemical sciences ,chemistry.chemical_compound ,chemistry ,Excited state ,Radiative transfer ,0210 nano-technology ,Spectroscopy - Abstract
The influence of substituents on spectral properties and the excited state relaxation of indolo[3,2- b ]carbazole derivatives has been studied by means of steady-state and time-resolved spectroscopy and quantum chemical calculations. Conformational motions of the substituents in solutions were found to cause a significant acceleration of the non-radiative excited state relaxation and concomitant fluorescence quenching of the studied compounds in comparison with their solid films, where the conformational mobility is suppressed. Although the substituents also strongly influence the radiative relaxation rates, these rates are not sensitive to the conformations of the substituents.
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- 2016
7. High-triplet-energy carbazole and fluorene tetrads
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Ausra Tomkeviciene, Vygintas Jankauskas, Juozas V. Grazulevicius, Jurate Simokaitiene, Alytis Gruodis, Saulius Jursenas, Karolis Kazlauskas, and Paulius Baronas
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Carbazole ,Biophysics ,02 engineering and technology ,General Chemistry ,Fluorene ,010402 general chemistry ,021001 nanoscience & nanotechnology ,Condensed Matter Physics ,Photochemistry ,01 natural sciences ,Biochemistry ,Atomic and Molecular Physics, and Optics ,0104 chemical sciences ,Amorphous solid ,chemistry.chemical_compound ,chemistry ,0210 nano-technology ,Phosphorescence ,Glass transition - Abstract
A series of twisted-structure carbazole–fluorene tetrads featuring 3,3′-bicarbazole core decorated with singly-bonded carbazole and fluorene end-linkers were synthesized and studied as potential host materials. The tetrads inferred high glass transition temperature (up to 105 °C) and good film-forming properties, which contributed in attaining large hole drift mobilities (up to 10−3 cm2/V/s) in the solution-processed amorphous films. The revealed high triplet energies (up to 2.9 eV) indicated their potential to be utilized as hosts in blue light-emitting devices. Greater sensitivity of the triplet energies to the linking position of peripheral moieties as compared to the sensitivity of the singlets imply new possibilities for the independent tuning of these energies in carbazole–fluorene tetrads.
- Published
- 2016
8. Heterocyclic heptacene analogs – 8H-16,17-epoxydinaphto[2,3-c:2′,3′-g]carbazoles as charge transport materials
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Povilas Adomėnas, Sigitas Tumkevicius, Saulius Juršėnas, Alytis Gruodis, Karolis Kazlauskas, Vygintas Jankauskas, Tomas Serevičius, Renaldas Rimkus, and Regimantas Komskis
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Organic electronics ,chemistry.chemical_classification ,Heptacene ,Chemistry ,Process Chemistry and Technology ,General Chemical Engineering ,Aryl ,Heteroatom ,02 engineering and technology ,Conjugated system ,010402 general chemistry ,021001 nanoscience & nanotechnology ,Photochemistry ,01 natural sciences ,0104 chemical sciences ,chemistry.chemical_compound ,Organic chemistry ,Molecule ,Ionization energy ,0210 nano-technology ,Alkyl - Abstract
Owing to extended π-electron system higher polyacenes are promising materials for organic electronics, however realization of higher conjugation of acenes results in their instability under ambient conditions. We now report on synthesis, optical and electrical characterization of nitrogen heteroatom containing heptacene analogs – 8H-16,17-epoxydinaphto[2,3-c:2′,3′-g]carbazoles – decorated with various alkyl and aryl side-groups. V-shape geometry, incorporation of nitrogen heteroatom and introduced epoxy bridge ensure higher oxidative stability of the compounds as compared to analogous polyacenes. Additionally, the alteration of the molecular structure with various side-groups, either conjugated or non-conjugated, enabled the tuning of ionization potential from 4.7 eV to 5.5 eV with further gain in compound stability. This ensures of hole drift mobility up to 8 × 10−4 cm2/(V s) at 1 MV/cm for thick wet-casted films under ambient conditions. Peculiarities of forbidden lowest excited states in the V-shaped N-heptacenes are revealed based on detailed optical characterization and density functional modeling.
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- 2016
9. Nonregular Nanosystems
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Yuri Shunin, Stefano Bellucci, Alytis Gruodis, and Tamara Lobanova-Shunina
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- 2018
10. Scattering Processes in Nanocarbon-Based Nanointerconnects
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Alytis Gruodis, Stefano Bellucci, Tamara Lobanova-Shunina, and Yuri Shunin
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Liquid metal ,Materials science ,Scattering ,Nanotechnology ,Carbon nanotube ,law.invention ,Metal ,Nanoelectronics ,law ,Electrical resistivity and conductivity ,visual_art ,visual_art.visual_art_medium ,Electronics ,Graphene nanoribbons - Abstract
Cluster approach based on the multiple scattering theory (MST) formalism, realistic analytical and coherent potentials as well as effective medium approximation (EMA–CPA) can be effectively used for nanosized systems modelling. Major attention is paid now to applications of carbon nanotubes (CNTs) and graphene nanoribbons (GNRs) with various morphology which possess unique physical properties in nanoelectronics, e.g. contacts of CNTs or GNRs with other conducting elements of a nanocircuit, which can be promising candidates for interconnects in high-speed electronics. The main problems connected with the resistance of C–Me junctions with metal particles appear due to the influence of chirality effects in the interconnects of single-walled (SW) and multiwalled (MW) CNTs and single-layered (SL) and multilayered (ML) GNRs with the fitting metals (Me = Ni, Cu, Ag, Pd, Pt, Au) for the predefined carbon system geometry. Using the models of ‘liquid metal’ and ‘effective bonds’ developed in the framework of the presented approach and Landauer theory, it is possible to predict resistivity properties for the considered interconnects. The model of the inter-wall interaction inside MWCNTs, which demonstrates possible ‘radial current’ losses, has been developed.
- Published
- 2017
11. Introduction to Non-regular Nanosystems
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Tamara Lobanova-Shunina, Alytis Gruodis, Yuri Shunin, and Stefano Bellucci
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Cognitive science ,Computer science ,Stimulus (physiology) - Abstract
The chapter presents a short description of the main topics in non-regular nanosystems. In general, the scientific content of the discussed problems is based on the research interests of the authors of this book. Non-regularity is considered as a basic stimulus for the operational abilities of novel nanomaterials.
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- 2017
12. Graphene, Fullerenes, Carbon Nanotubes: Electronic Subsystem
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Tamara Lobanova-Shunina, Yuri Shunin, Alytis Gruodis, and Stefano Bellucci
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Materials science ,Fullerene ,Graphene ,Selective chemistry of single-walled nanotubes ,chemistry.chemical_element ,Nanotechnology ,02 engineering and technology ,Carbon nanotube ,010402 general chemistry ,021001 nanoscience & nanotechnology ,Electrochemistry ,01 natural sciences ,0104 chemical sciences ,law.invention ,Catalysis ,Carbon nanobud ,chemistry ,law ,0210 nano-technology ,Carbon - Abstract
This chapter introduces the reader to the analysis of the structural and electronic system properties of various carbon allotropes (CNT, graphene) and several molecular derivatives. The genesis of the electronic system formation is investigated in detail. Non-regular defected nanocarbon systems are considered for possible applications in different fields, including energy storage; chemical, biochemical and electrochemical sensing; water purification; and catalysis.
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- 2017
13. Classification and Operating Principles of Nanodevices
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Yuri Shunin, Tamara Lobanova-Shunina, Stefano Bellucci, and Alytis Gruodis
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Phase transition ,Bistability ,Computer science ,Nanotechnology ,Realization (systems) - Abstract
The chapter presents and explains the classification of sensors in accordance with their physicochemical principles of functioning, as well as the types of recognition. Several prototypes of physical, chemical and biosensors based on polar molecular compounds such as indandione, fluorene and carbazole derivatives are described from the point of view of their structure and energy. One of the most important applications of nanosensitive materials is realized in the class of memory nanodevices. The realization of bistability in molecular or layered derivatives is usually carried out through processes based on tautomers and conformers, as well as phase transition processes. Typical examples of biomolecular rotary machines are shown. Nanotransducers principles, nanoaerogels and nanocomposites applications are also reviewed. Typical examples of biomolecular rotary machines are presented and the principles of nanotransducer operation are explained, and application of nanoaerogels and nanocomposite materials is considered.
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- 2017
14. Nanosensor Systems Simulations
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Stefano Bellucci, Alytis Gruodis, Yuri Shunin, and Tamara Lobanova-Shunina
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Materials science ,Nanostructure ,chemistry ,Nanosensor ,Doping ,chemistry.chemical_element ,Nanotechnology ,Electron ,Sensitivity (control systems) ,Conductivity ,Boron - Abstract
The chapter presents functionalized CNT and GNR nanostructures as the basis for the creation of physical, chemical and biochemical nanosensors. We have shown in our simulations the sensitivity of electron conductivity of FET-type nanodevices (based on CNTs and GNRs) to local doping by nitrogen and boron. This phenomenon provides the prospective of creating nanosensors.
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- 2017
15. General Approach to the Description of Fundamental Properties of Disordered Nanosized Media
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Stefano Bellucci, Alytis Gruodis, Tamara Lobanova-Shunina, and Yuri Shunin
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Nanotube ,chemistry ,law ,Graphene ,chemistry.chemical_element ,Aerogel ,Nanotechnology ,Carbon nanotube ,Carbon ,Graphene nanoribbons ,law.invention ,Nanofoam ,Nanomaterials - Abstract
Physics of non-regular nanosystems is a branch of physics dealing with nanoagents – nanoparticles when non-regular nanosized morphological characteristics predetermine the nature and essence of physical phenomenon (nanophenomenon). In particular, multiple technological interfaces of nanoparticles with morphologically regular systems imply a creation of micro- or mesostructures with essential nanodimensional effects (e.g. in various schemes of functionalization of nanocarbon systems, viz. carbon nanotubes (CNTs), graphene nanoribbons (GNRs), graphene nanoflakes (GNFs), carbon-based nanoaerogels and nanofoams, etc.). However, classes of nanomaterials, in addition to nanocarbon systems, can be essentially expanded now. There are nanotube structures based on boron nitrides (BN), TiO2, chalcogenides (As-S, As-Se, As-Te, etc.) and many others. Such nanosystems should also be considered as non-regular.
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- 2017
16. Potentials and Electronic Structure Calculations of Non-regular Nanosystems
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Stefano Bellucci, Yuri Shunin, Tamara Lobanova-Shunina, and Alytis Gruodis
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Physics ,Condensed matter physics ,Dangling bond ,Coulomb ,Electronic structure - Abstract
Methods of numerical investigations of potentials and pseudopotentials for fundamental properties calculations (electronic, vibrational, electron-phonon phenomena, etc.) of condensed matter constitute a basic principle of modelling. It is very essential to find specific analytical approaches to the calculation of atomic and ‘crystalline’ potentials to make the calculations most effective. In particular, we pay attention to the modelling of pure Coulomb contributions and their exchange-correlation corrections in the framework of Xα- и Xαβ-approximations.
- Published
- 2017
17. Spintronics and Nanomemory Systems
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Tamara Lobanova-Shunina, Stefano Bellucci, Alytis Gruodis, and Yuri Shunin
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Materials science ,Condensed matter physics ,Magnetoresistance ,Spintronics ,Nanoparticle ,Giant magnetoresistance ,Spin (physics) ,Quantum tunnelling - Abstract
The chapter presents and explains the possibilities of CNT forest growth on Fe–Pt nanoparticles for the magnetic nanomemory. The magnetoresistance phenomena – giant magnetoresistance and tunnelling magnetoresistance (GMR and TMR) – for nanomemory devices are based on CNTs of various morphologies (i.e. various chiralities, diameters). It includes metal- and semiconductor-like CNTs which can be considered as alternative variants for electromagnetic nanosensoring and magnetic nanomemory. The chapter also presents simulations of Fe–Pt magnetically disordered nanodrops, as well as spin transport models.
- Published
- 2017
18. Surface Nanophysics: Macro-, Meso-, Micro- and Nano-approaches
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Yuri Shunin, Tamara Lobanova-Shunina, Alytis Gruodis, and Stefano Bellucci
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symbols.namesake ,Gibbs isotherm ,Materials science ,Nano ,symbols ,Physics::Optics ,Nanoparticle ,Nanotechnology ,Surface plasmon resonance ,Macro ,Nanoscopic scale ,Nanoscale Process ,Nanoshell - Abstract
The surface factor is very important for manipulating objects at a nanoscale. Thermodynamic behaviour is observed from the classical point of view, and conditional division into macro-, meso-, micro- and nano-approaches is presented. Processes of physical and chemical adsorption on the surface are presented from the energy and structure aspects. The occurrence of electronic states of the surface is presented from the classical point of view in comparison with molecular electronic states. One of the most important non-invasive optical methods to investigate nanoparticles is the surface plasmon resonance (SPR), which is quite useful for practical detection of nanoparticles in the surrounding environment. The interaction of light with nanoparticles is discussed within the framework of a nanoscale process. Nanoshells as practical implementation of nanosurface phenomena are discussed.
- Published
- 2017
19. Nanotechnology Application Challenges: Nanomanagement, Nanorisks and Consumer Behaviour
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Yuri Shunin, Alytis Gruodis, Tamara Lobanova-Shunina, and Stefano Bellucci
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Civil society ,Interpersonal relationship ,Work (electrical) ,Emerging technologies ,media_common.quotation_subject ,Quality (business) ,Nanotechnology ,Systems thinking ,Business ,Moral authority ,Consumer behaviour ,media_common - Abstract
New emerging technologies are entering the society, which makes civil society the location for moral authority. Society is about the quality of human relationships; it is where people have to accept responsibility for the consequences of their actions; it is where the nano meets the micro and the micro meets the macro issues. Society belongs to all of us and everyone has his role to play. A new way of system thinking – nanothinking demonstrates technology trends from perfectness to non-regularity. The removal of current contradictions between regular and non-regular systems and the corresponding nanophenomena is the way to novel processes in the development of nanosciences and nanotechnologies, education and industry, consumer society and policymaking. This chapter is intended for nanomaterial consumers, managers, education practitioners, students–researchers, manufacturers, work health and safety practitioners and other interested people who do not have a background in technical sciences but who need to understand the benefits and hazards of engineered nanomaterials and require guidance on managing risks associated with these.
- Published
- 2017
20. Structure-properties relationship of the derivatives of carbazole and 1,8-naphthalimide: Effects of the substitution and the linking topology
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Juozas V. Grazulevicius, Dalius Gudeika, Gytis Juška, Alytis Gruodis, Arunas Miasojedovas, Saulius Jursenas, Dmytro Volyniuk, and Rita Butkute
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chemistry.chemical_classification ,Carbazole ,Process Chemistry and Technology ,General Chemical Engineering ,Quantum yield ,Chromophore ,Topology ,Photochemistry ,chemistry.chemical_compound ,chemistry ,Intramolecular force ,Thermal stability ,Glass transition ,Ground state ,Alkyl - Abstract
Nine compounds having electron-accepting 1,8-naphthalimide and electron-donating carbazole moieties were synthesized employing palladium-catalyzed C–N and C–C coupling reactions and characterized by the thermal methods, absorption and emission spectrometry, electrochemical and photoelectrical tools. The synthesized compounds possess high thermal stability with the 5% weight loss temperatures being in the range of 351–476 °C. Most of the synthesized compounds are capable of glass formation with glass transition temperatures ranging from 30 to 87 °C. The cyclic voltammetry measurements showed that the solid state ionization potentials values of the carbazole and 1,8-naphthalimide derivatives range from 5.46 eV to 5.76 eV and the electron affinities values range from −3.04 eV to −2.92 eV. Dilute solutions of the 3- and 3,6-naphthalimide-substituted derivatives of carbazole in polar solvents were found to emit in the green region with quantum yields ranging from 0.66 to 0.83, while in the solid state fluorescence quantum yields were found to be in the range of 0.01–0.45. ((E)-9-((( N -(2-ethylhexyl)-1,8-naphthalimide)-4-yl)ethenyl)-9 H -carbazole) exhibited efficient fluorescence in the solid state with quantum yield as high as 0.45. The effects of the linking topology of the chromophores and of the incorporated alkyl substituents on the thermal, optical, and photoelectrical properties of the synthesized donor-acceptor compounds are analyzed. The impact of the ground state intramolecular twisting of the carbazole and naphthalimide moieties induced by the substituents resulting in significant variation in the rates of radiative and nonradiative excitation deactivation is revealed.
- Published
- 2015
21. Electronic properties of indan-1,3-dione-carbazole-based compounds revealed by time resolved spectroscopy
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Marytė Daškevičienė, Renata Karpicz, Vytautas Getautis, Vidmantas Gulbinas, and Alytis Gruodis
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chemistry.chemical_compound ,chemistry ,Carbazole ,Covalent bond ,Process Chemistry and Technology ,General Chemical Engineering ,Excited state ,Relaxation (NMR) ,Molecule ,Time-resolved spectroscopy ,Chromophore ,Photochemistry ,Isomerization - Abstract
Two new indan-1,3-dione and carbazole-based (IDC) compounds with single and four covalently connected chromophores were synthesized and their optical properties were investigated in solutions and in solid films with the emphasis on the interchromophore interactions. Because of molecule twisting, opening transitions to nπ* states, IDC chromophores experience ultrafast excited state relaxation with the time constant of about 2 ps in solutions and several times slower solid films. Chromophore connection into quadruplicate molecules only weakly influence their spectroscopic properties in solutions, however prevents H-type aggregate formation and concomitant spectral changes in solid films.
- Published
- 2014
22. Photophysical properties of 2-phenylanthracene and its conformationally-stabilized derivatives
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Povilas Adomėnas, Renaldas Rimkus, Karolis Kazlauskas, Alytis Gruodis, Saulius Juršėnas, Tomas Serevičius, Ona Adomėnienė, and Vygintas Jankauskas
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Anthracene ,chemistry.chemical_compound ,chemistry ,Process Chemistry and Technology ,General Chemical Engineering ,Heteroatom ,Molecule ,Density functional theory ,Molecular orbital ,Photochemistry ,Glass transition ,Fluorescence ,Spectral line - Abstract
A synthetic route to a series of anthracene derivatives consisting of 2-phenylanthracene and its conformationally-stabilized planar derivatives, containing carbon, oxygen, sulphur and nitrogen atoms, is reported. Thermal, optical and electrical properties of the derivatives featuring an extended π-conjugated electron system were also investigated. Experimental results were supplemented by the energy spectra and molecular orbital calculations performed in the framework of density functional theory. Some of the compounds were found to be molecular glasses with glass transition temperatures from 28 to 55 °C as revealed by differential scanning calorimetry. The anthracene compounds in dilute solutions were found to emit in the 400–500 nm wavelength range with the fluorescence quantum yields varying from 0.22 up to 0.46. The solid films of the anthracene derivatives exhibited slightly narrower emission wavelength-tunability with clearly-expressed excimer emission bands (for the benzothiophene- and indole-anthracene compounds) causing a significant lowering of the fluorescence quantum efficiency down to 0.005. Rigidity of the studied anthracene molecules was assessed by evaluating the Huang-Rhys factor (indicating strength of electron-vibrational coupling) from the vibronic profile of the fluorescence spectra, which indicated that the cyclized indole- and benzofuran-anthracenes possess the most rigid molecular structures as opposed to more flexible structures of 2-phenylanthracene and indeno-anthracene. Wet-casted films of the anthracene compounds demonstrated moderate charge carrier drift mobilities, in the order of 10 −5 –10 −4 cm 2 /V, which are considered as sufficient for light-emitter applications. Moreover, introduction of additional C, O, S and N atoms into 2-phanylanthracene molecule enabled a tuning of the HOMO level from 4.9 up to 5.74 eV, which is crucial for the optimization of hole injection into the active layers, and thus for balancing electron and hole currents in light-emitting devices.
- Published
- 2013
23. Pyrenyl-Functionalized Fluorene and Carbazole Derivatives as Blue Light Emitters
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Ausra Tomkeviciene, Arunas Miasojedovas, Alytis Gruodis, Simonas Krotkus, Karolis Kazlauskas, Saulius Jursenas, and Juozas V. Grazulevicius
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Chemistry ,Carbazole ,Fluorene ,Photochemistry ,Spectral line ,Surfaces, Coatings and Films ,Electronic, Optical and Magnetic Materials ,chemistry.chemical_compound ,General Energy ,Intramolecular force ,Excited state ,Density functional theory ,Physical and Theoretical Chemistry ,Glass transition ,Conformational isomerism - Abstract
New pyrenyl mono- and disubstituted fluorene and carbazole derivatives were synthesized and investigated as blue-emitting materials. Most of the synthesized compounds were capable of forming glasses with glass transition temperatures up to 105 °C. The mono- and disubstituted compounds exhibited efficient emission in a diluted form with the peak wavelengths of 416 and 422 nm and quantum yields of 0.72 and 0.82, respectively. Photophysical properties of the compounds in dilute solutions and solid state were investigated experimentally and rationalized by density functional theory calculations. The calculations revealed a low energy barrier for intramolecular twisting in the ground and excited states. The electronic spectra of the compounds were dominated by an allowed “pyrene-like” S0 → S2 transition prevailing in nearly perpendicularly twisted molecular structures and competitive S0 → S1 transition becoming increasingly allowed for more planar conformers. The disubstituted compounds demonstrated a 3-fold e...
- Published
- 2012
24. Impact of Linking Topology on the Properties of Carbazole Trimers and Dimers
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Karolis Kazlauskas, Alytis Gruodis, Chung-Chih Wu, Tung Huei Ke, Juozas V. Grazulevicius, Saulius Jursenas, and Ausra Tomkeviciene
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Electron mobility ,Ambipolar diffusion ,Chemistry ,Carbazole ,Trimer ,Orders of magnitude (numbers) ,Photochemistry ,Surfaces, Coatings and Films ,Electronic, Optical and Magnetic Materials ,chemistry.chemical_compound ,General Energy ,Electric field ,Physical chemistry ,Charge carrier ,Physical and Theoretical Chemistry ,Electrical conductor - Abstract
Synthesis and properties of new glass-forming 2-, 2,7-substituted carbazole dimers and trimers exhibiting ambipolar charge carrier transport are reported. The results of thorough evaluation of thermal, optical, and photoelectrical properties of the carbazole derivatives are presented. Additionally, a comparative experimental and theoretical analysis of the 2,7-substituted carbazole trimer with the 3,6-substituted analogue is performed. 2,7-Di(9-carbazolyl)-9-(2-ethylhexyl)carbazole was found to show very high electron mobility (μe = 2 × 10−3 cm2 V−1 s−1 at an electric field of 1.8 × 105 V/cm) and reasonably high hole mobility (μh = 8 × 10−4 cm2 V−1 s−1 at an electric field of 1.8 × 105 V/cm). 2-Substituted carbazole dimers also demonstrate bipolar conductive properties although with significantly lower charge carrier mobility values. The obtained carrier mobility values for the 2,7-substituted carbazole compound were found to be nearly 2 orders of magnitude higher than those for 3,6-substituted carbazole ...
- Published
- 2011
25. Vibrational spectroscopic studies, conformations andab initio calculations of 1,1,1-trifluoropropyltrifluorosilane
- Author
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D. L. Powell, Claus J. Nielsen, Peter Klaeboe, Gamil A. Guirgis, Alytis Gruodis, James R. Durig, and Valdemaras Aleksa
- Subjects
Argon ,Infrared ,Chemistry ,Infrared spectroscopy ,chemistry.chemical_element ,Amorphous solid ,Crystal ,symbols.namesake ,Computational chemistry ,Ab initio quantum chemistry methods ,symbols ,Physical chemistry ,General Materials Science ,Raman spectroscopy ,Conformational isomerism ,Spectroscopy - Abstract
Infrared spectra of 1,1,1-trifluoropropyltrifluorosilane (CF3CH2CH2SiF3) were obtained in the vapour, amorphous and crystalline solid phases in the range 4000–50 cm−1. Additional spectra in argon and nitrogen matrices at 4.8 K were recorded before and after annealing to temperatures of 20–36 K. Raman spectra of the compound as a liquid were recorded at various temperatures between 298 and 163 K and spectra of the amorphous and crystalline solids were obtained. The spectra revealed the existence of two conformers (anti and gauche) in the fluid phases and in the matrices. When the vapour was shock-frozen on a cold-finger at 78 K and subsequently annealed to 120–150 K, 12 mostly weak Raman bands vanished in the crystal. Much smaller variations were observed in the corresponding infrared spectra after annealing. However, the spectra indicated the existence of two different crystals, formed after annealing the amorphous solid to 120 and to 150 K; both crystals contained the same conformer (anti). Raman and IR spectra of 1,1,1-trifluoropropyltrifluorosilane in cyclohexane, carbon tetrachloride and acetonitrile revealed conformational displacements with solvent polarity. From intensity variations between 298 and 223 K of the Raman pair 639/665 cm−1, ΔH° (gauche–anti) = 3.4 ± 0.3 kJ mol−1 was obtained in the liquid. Annealing experiments indicate that the anti conformer also has a lower energy in argon and nitrogen matrices; moreover, the low-energy conformer is present in the crystal. The spectra of both conformers have been interpreted in detail. Ab initio calculations at the HF/6–311(d), HF/6–311 G (3df,3pd) and MP2/G–31(d) levels gave optimized geometries, infrared and Raman intensities and scaled vibrational wavenumbers for the anti and gauche conformers. The conformational energy difference derived was 5.3 kJ mol−1 with anti being the low-energy conformer. Copyright © 2003 John Wiley & Sons, Ltd.
- Published
- 2003
26. Spectra and structure of silicon-containing compounds. XXXVI?Raman and infrared spectra, conformational stability,ab initio calculations and vibrational assignment of ethyldibromosilane
- Author
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Shiyu Shen, Gamil A. Guirgis, D. L. Powell, Alytis Gruodis, Jing Tao, Peter Klaboe, Chao Zheng, Valdemaras Aleksa, James R. Durig, and Claus J. Nielsen
- Subjects
Quantitative Biology::Biomolecules ,Infrared ,Chemistry ,Ab initio ,Analytical chemistry ,Infrared spectroscopy ,Liquid nitrogen ,Amorphous solid ,symbols.namesake ,Ab initio quantum chemistry methods ,symbols ,General Materials Science ,Raman spectroscopy ,Conformational isomerism ,Spectroscopy - Abstract
The Raman spectrum of liquid ethyldibromosilane, CH3CH2SiHBr2, was recorded at various temperatures between 298 and 218 K, and the spectrum of the crystal was obtained at 210 K from a sample sealed in a capillary. Additional spectra of the amorphous and annealed crystals, which were deposited on a copper finger cooled with boiling liquid nitrogen, were recorded. The infrared spectra were recorded of the vapor and amorphous and crystalline solid in the range 4000–50 cm−1 and mid-infrared spectra isolated at 4.8 K in argon and nitrogen matrices were also observed. These vibrational spectra show that two conformers, anti and gauche, are present in the vapor and in the liquid, but only the anti conformer remains in the crystalline solid. Three conformer pairs in the Raman spectrum of the liquid phase were used to obtain the enthalpy difference, which gave an average value of 128 ± 17 cm−1 (1.53 ± 0.2 kJ mol−1) with the anti form lower in energy. At ambient temperature it is estimated that there is 52 ± 2% of the gauche conformer present in the liquid. The optimized geometries, infrared and Raman intensities, and scaled vibrational wavenumbers for the anti and gauche conformers were obtained from ab initio MP2/6–31G(d) calculations with full electron correlation. The conformational energy difference was also obtained from ab initio MP2/6–311 + G(d,p) calculations which gave a predicted energy difference of 97 cm−1 with the anti form the conformer of lower energy. These spectroscopic and theoretical results are discussed and compared with the corresponding quantities for some similar molecules. Copyright © 2003 John Wiley & Sons, Ltd.
- Published
- 2003
27. Infrared and Raman spectra, ab initio calculations and conformational studies of ethyl iodosilane
- Author
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D. L. Powell, Claus J. Nielsen, Reinhard Hummeltenberg, Klaus Herzog, Alytis Gruodis, Peter Klaeboe, Reiner Salzer, Valdemaras Aleksa, and Karl Hassler
- Subjects
Argon ,Organic Chemistry ,Analytical chemistry ,Infrared spectroscopy ,chemistry.chemical_element ,Liquid nitrogen ,Analytical Chemistry ,Amorphous solid ,Inorganic Chemistry ,symbols.namesake ,chemistry ,Ab initio quantum chemistry methods ,Molecular vibration ,symbols ,Raman spectroscopy ,Conformational isomerism ,Spectroscopy - Abstract
Ethyl iodosilane (CH 3 CH 2 –SiH 2 I) was synthesized for the first time. Infrared spectra were recorded in the vapour, amorphous and crystalline solid phases in MIR and FIR regions. Additional MIR spectra of the compound isolated in argon and nitrogen matrices were obtained at 5 K. Raman spectra of the liquid, excited by argon and by Nd 3+ YAG lasers, were recorded at room temperature including polarization measurements. The spectra were studied in an extended temperature range 173–353 K and a Δ H value of 1.2±0.3 kJ mol −1 was obtained with gauche being the low energy conformer. Spectra of the amorphous and crystalline solids were obtained at liquid nitrogen temperature. Ethyl iodosilane exists in an equilibrium between anti and gauche conformers, in the vapour, liquid and amorphous states. After careful annealing the amorphous solid on a cold Cu finger (Raman) or on a CsI or Si window (infrared) to 160 K a partly crystalline solid was formed. A number of IR and Raman bands were reduced in intensity after annealing, although they did not vanish completely. From comparison between the observed and calculated vibrational modes it was apparent that the gauche conformer was present in the crystal. The sample was mixed with argon and nitrogen in a ratio 1:1000, deposited on a window at 5 or 10 K and annealed to temperatures between 5 and 36 K (argon) and 5–30 K (nitrogen). IR bands attributed to the anti and gauche conformers were reduced and increased in intensities, respectively. Thus, the gauche conformer was the low energy conformer in the matrices and probably also in the vapour phase. Ab initio calculations were performed at the RHF/3-21 G* and 6-311G* B3LYPs and gave optimized geometries, IR and Raman intensities and vibrational frequencies for the anti and gauche conformers. An enthalpy difference of 0.9 kJ mol −1 was obtained from the calculations with gauche being the low energy conformer. After scaling, a reasonably good agreement between the experimental and calculated wavenumbers for the anti and gauche conformer was obtained. The spectra of ethyl iodosilane were closely related to those of the corresponding ethyl fluoro, ethyl chloro and ethyl bromosilane.
- Published
- 2003
28. Spectra and structure of silicon containing compounds. XXXI. Raman and infrared spectra, conformational stability, ab initio calculations, and vibrational assignment of ethyl bromosilane and ethyl bromosilane-Si-d2
- Author
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Jing Tao, James R. Durig, Valdemaras Aleksa, Gamil A. Guirgis, Claus J. Nielsen, Yasser E. Nashed, Peter Klaeboe, D. L. Powell, and Alytis Gruodis
- Subjects
Infrared ,Organic Chemistry ,Enthalpy ,Krypton ,Analytical chemistry ,Ab initio ,Infrared spectroscopy ,chemistry.chemical_element ,Analytical Chemistry ,Inorganic Chemistry ,symbols.namesake ,chemistry ,Ab initio quantum chemistry methods ,symbols ,Raman spectroscopy ,Conformational isomerism ,Spectroscopy - Abstract
The infrared spectra of ethyl bromosilane, CH 3 CH 2 SiH 2 Br and the Si-d 2 isotopomer, were recorded in the vapor, amorphous and the crystalline solid phases in the range 4000–400 cm −1 . The mid-infrared spectra of the ‘light’ compound, isolated at 4.8 K in the argon and the nitrogen matrices were also observed. Raman spectra of the liquids were recorded at various temperatures between 298 and 218 K, and the spectrum of the crystal was obtained from a sample sealed in a capillary at 210 K. Additional spectra of the amorphous and annealed crystals, which were deposited on a copper finger cooled with liquid nitrogen, were recorded. These vibrational spectra show that two conformers— anti and gauche —are present in the vapor and in the liquid, but only the gauche conformer remains in the crystalline solid. Six conformer pairs in the liquid phase were used to obtain the enthalpy difference which gave an average of 140±25 cm −1 (1.67±0.3 kJ/mol) with gauche form lower in energy. Additionally variable temperature (−120 to −155 °C) studies of the infrared spectra of the sample dissolved in liquid krypton have been carried out and the enthalpy difference has been determined to be 130±13 cm −1 (1.56±0.16 kJ/mol), again with the gauche conformer the more stable form. At ambient temperature it is estimated that there is 22±2% of the anti conformer present. The optimized geometries, infrared and Raman intensities, and scaled vibrational frequencies for the anti and gauche conformers were obtained from ab initio MP2/6-31G(d) calculations. The conformational energy difference was also obtained from ab initio MP2/6-311+G(d, p) calculations which gave a predicted energy difference of 129 cm −1 with the gauche form the lowest energy. From the isolated Si–H stretch frequencies from the Si-d 1 isotopomer the Si–H distances were determined to be 1.481 and 1.480 A for the gauche and anti conformers, respectively. The spectroscopic and theoretical results are discussed and compared to the corresponding quantities for some similar molecules.
- Published
- 2002
29. Infrared and Raman spectra, ab initio calculations and conformational equilibria of chloromethyl methyl dichlorosilane
- Author
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Alytis Gruodis, Peter Klaeboe, Claus J. Nielsen, Valdemaras Aleksa, C.J Richard, Gamil A. Guirgis, and D. L. Powell
- Subjects
Quantitative Biology::Biomolecules ,Argon ,Organic Chemistry ,Analytical chemistry ,chemistry.chemical_element ,Dichlorosilane ,Infrared spectroscopy ,Liquid nitrogen ,Analytical Chemistry ,law.invention ,Inorganic Chemistry ,chemistry.chemical_compound ,symbols.namesake ,chemistry ,Ab initio quantum chemistry methods ,law ,symbols ,Crystallization ,Raman spectroscopy ,Conformational isomerism ,Spectroscopy - Abstract
Chloromethyl methyl dichlorosilane (ClCH2CH3SiCl2) was synthesized and the infrared spectra of its vapour, and of the amorphous and crystalline states, cooled to the temperature of liquid nitrogen were recorded. Additional mid IR spectra of the compound, isolated in both argon and nitrogen matrices, were taken at 5 K. Raman spectra of the liquid were recorded in a capillary at various temperatures between 298 and 223 K. The crystal was also studied in a capillary at 210 K and deposited onto a copper finger cooled with liquid nitrogen. The compound occurs as anti and gauche conformers in its vapour and liquid states. Approximately five Raman bands, some of them weak, present in the fluid phases vanished upon crystallization. An additional eight IR bands disappeared or were reduced in intensity after crystallization. Two band pairs in the Raman spectra were used to calculate the enthalpy difference between the conformers in the liquid phase giving a value: ΔH(liq)(anti–gauche) of 0.0(±0.4 kJ mol−1. In the argon and nitrogen matrices, various small intensity variations in the IR bands were observed after annealing to ca. 36 K (argon) or 32 K (nitrogen). The gauche bands generally increased and the anti bands decreased in intensity, suggesting that gauche has a lower energy in the matrices. The conformational barrier was estimated to be 8–10 kJ mol−1. The optimized geometries, infrared and Raman intensities, and scaled vibrational frequencies for the anti and gauche conformers were derived from ab initio calculations at the RHF/6-311G∗level. The derived conformational energy difference was 7.2 kJ mol−1, gauche being the conformer of lowest energy. The calculated dipole moments of the anti and gauche conformers were 4.2 and 2.0 D, respectively. Correlation between the observed and calculated wave numbers of both conformers revealed that gauche was present in the crystal, and assignments of the spectra have been carried out.
- Published
- 2001
30. Photolysis of Nitrous Oxide Isotopomers Studied by Time-Dependent Hermite Propagation
- Author
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Gert Due Billing, and Alytis Gruodis, Maurice H. M. Janssen, Matthew S. Johnson, and Physical Chemistry
- Subjects
inorganic chemicals ,Chemistry ,organic chemicals ,Photodissociation ,Analytical chemistry ,Zero-point energy ,equipment and supplies ,Molecular physics ,Isotopomers ,Dipole ,symbols.namesake ,Fourier transform ,Correlation function ,Excited state ,Physics::Atomic and Molecular Clusters ,symbols ,bacteria ,Physics::Chemical Physics ,Physical and Theoretical Chemistry ,SDG 6 - Clean Water and Sanitation ,Wave function - Abstract
Nitrous oxide (N2O) plays an important role in greenhouse warming and ozone depletion. Yung and Miller's zero point energy (ZPE) model for the photolysis of N2O isotopomers was able to explain atmospheric isotopomer distributions without invoking in situ chemical sources. Subsequent experiments showed enrichment factors twice those predicted by the ZPE model. In this article we calculate the UV spectrum of the key N2O isotopomers to quantify the influence of factors not included in the ZPE model, namely, the transition dipole surface, bending vibrational excitation, dynamics on the excited state potential surface, and factors related to isotopic substitution itself. The relative cross-sections are calculated as the Fourier transform of the correlation function of the initial vibrational wave function and the time-propagated wave function, using a Hermite expansion of the time evolution operator. The model uses the electronic structure data recently published by Balint-Kurti and co-workers and makes severa...
- Published
- 2001
31. Vibrational spectroscopic studies, conformations and ab initio calculations of 2-chloroethyl trifluorosilane
- Author
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Gamil A. Guirgis, Peter Klaeboe, James R. Durig, Yasser E. Nashed, Claus J. Nielsen, Valdemaras Aleksa, and Alytis Gruodis
- Subjects
Quantitative Biology::Biomolecules ,Argon ,Infrared ,Organic Chemistry ,Analytical chemistry ,chemistry.chemical_element ,Infrared spectroscopy ,Analytical Chemistry ,Inorganic Chemistry ,Crystal ,symbols.namesake ,Xenon ,chemistry ,Ab initio quantum chemistry methods ,symbols ,Raman spectroscopy ,Conformational isomerism ,Spectroscopy - Abstract
Infrared spectra of 2-chloroethyl trifluorosilane (CETFS) (ClCH2CH2SiF3) were obtained in the vapour, amorphous and crystalline solid phases in the range 4000–50 cm−1. Additional variable temperature spectra in liquefied xenon and spectra in argon and nitrogen matrices at 5 K were recorded. Raman spectra of the compound as a liquid were recorded at various temperatures between 298 and 180 K and amorphous and crystalline solids were obtained. The spectra of CETFS revealed the existence of two conformers (anti and gauche) in the vapour and in the liquid. Large variations in the infrared and Raman spectra were observed when the vapour was shock-frozen on a window at 80 K and subsequently annealed. An intermediate phase appeared at ca. 125 K containing both conformers. A crystal was formed at 160 K, and ca. 18 infrared and/or Raman bands present both in the fluid phases and in the 125 K solid vanished in this crystal. From the intensity variations between 293 and 183 K of four Raman band pairs, Δ H 0 (anti−gauche)=0.8±0.3 kJ mol −1 was obtained in the liquid. In liquid xenon under pressure a ΔH value of −0.7±0.1 kJ mol−1 was calculated from the intensity variations between 218 and 173 K of two band pairs in the infrared spectra. Annealing experiments indicate that the anti conformer has slightly lower energy in argon and nitrogen matrices. Also, the anti conformer has the lower energy in liquid xenon, whereas the more polar gauche rotamer is the low energy conformer in the liquid and is also present in the crystal. The spectra of both conformers have been interpreted in detail. Ab initio calculations were performed using the gaussian 94 program with the HF/6-311G∗ basis set and gave optimized geometries, infrared and Raman intensities and scaled vibrational frequencies for the anti and gauche conformers. The conformational energy difference derived was 3.8 kJ mol−1 with anti being the low energy conformer.
- Published
- 2001
32. Experimental HR FTIR studies of the stability of the hydrogen chloride complexes with ethylene and acetylene
- Author
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Bengt Nelander, B Mikulskiene, Alytis Gruodis, and Valdas Sablinskas
- Subjects
Chemistry ,Organic Chemistry ,Intermolecular force ,Ab initio ,Spectral bands ,Photochemistry ,Spectral line ,Analytical Chemistry ,Inorganic Chemistry ,chemistry.chemical_compound ,symbols.namesake ,Acetylene ,Ab initio quantum chemistry methods ,Excited state ,Physics::Atomic and Molecular Clusters ,symbols ,Physical chemistry ,Physics::Chemical Physics ,van der Waals force ,Spectroscopy - Abstract
A high resolution FTIR study of intermolecular interactions in van der Waals dimers, HCl–ethylene and HCl–acetylene, has been carried out. Partly resolved vibration–rotation spectral bands of the complexes are observed in the spectral region 2795–2820 cm−1. Assignments of the vibrational spectral bands are made combining ab initio data with the experimental results. It is concluded that the very unsymmetrical shape of the P branches of A-type bands is due to an increase of the rotational constants B and C in the first vibrationally excited state of the HCl stretch of the complexed HCl. The ab initio calculations predict the existence of low wavenumber intermolecular fundamental vibrations whose first excited states have significant populations at the temperatures of the measurements. Hot bands due to these fundamentals have been observed in the spectra.
- Published
- 2001
33. Infrared and Raman spectra, conformations and ab initio calculations of dichloromethylmethyl dichlorosilane
- Author
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Klaus Herzog, Valdemaras Aleksa, Gamil A. Guirgis, Peter Klaeboe, James R. Durig, Claus J. Nielsen, Reiner Salzer, and Alytis Gruodis
- Subjects
Quantitative Biology::Biomolecules ,Argon ,Chemistry ,Organic Chemistry ,Krypton ,Analytical chemistry ,chemistry.chemical_element ,Infrared spectroscopy ,Analytical Chemistry ,law.invention ,Inorganic Chemistry ,Crystal ,symbols.namesake ,law ,Ab initio quantum chemistry methods ,symbols ,Crystallization ,Raman spectroscopy ,Conformational isomerism ,Spectroscopy - Abstract
The infrared (IR) spectra of dichloromethylmethyl dichlorosilane (Cl2CHCH3SiCl2) were recorded in the vapor, amorphous and partly crystalline phases between 4000 and 50 cm−1. IR spectra (4000–450 cm−1) of the compound were also obtained when isolated in argon, nitrogen and krypton matrices at 4.8 K before and after annealing to temperatures in the range 15–50 K. Raman spectra of the liquid were recorded at various temperatures between 295 and 147 K. Spectra of the amorphous and annealed crystal deposited on a copper finger at 78 K were obtained. The spectra showed the existence of two conformers — anti and gauche — in the vapor and in the liquid. Approximately 12 IR bands were reduced in intensity and 6 Raman bands present in the fluid phases vanished upon crystallization. From the intensity variations of two band pairs with temperature, a ΔH0 value of 0.4±0.3 kJ mol−1 between the conformers was obtained in the liquid, anti being the low-energy conformer. Small increases and decreases in the IR band intensities were observed in the matrix spectra after annealing to 32 (nitrogen), 36 (argon) and 50 K (krypton). The enthalpy difference between the conformers is low in the matrices, but the anti conformer had lower energy than the gauche. Ab initio calculations were performed using the Gaussian -94 program with the RHF/6-311G∗ basis function and gave optimized geometries, IR and Raman intensities and scaled vibrational frequencies for the anti and gauche conformers. The conformational energy derived was 4.4 kJ mol−1 with anti being the low-energy conformer. The dipole moments were calculated to be 1.2 and 3.1 debye for the anti and gauche conformers, respectively. Correlation between the observed and calculated wavenumbers of both conformers revealed that anti was present in the crystal, and complete assignments of the spectra have been carried out.
- Published
- 2001
34. Conformational equilibria, Raman and infrared spectra andab initio calculations of dichloromethylmethyldichlorosilane
- Author
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Claus J. Nielsen, D. L. Powell, Valdemaras Aleksa, Alytis Gruodis, Gamil A. Guirgis, and Peter Klaeboe
- Subjects
Quantitative Biology::Biomolecules ,Chemistry ,Infrared ,Krypton ,Analytical chemistry ,chemistry.chemical_element ,Infrared spectroscopy ,law.invention ,Crystal ,symbols.namesake ,law ,Computational chemistry ,Ab initio quantum chemistry methods ,symbols ,General Materials Science ,Crystallization ,Raman spectroscopy ,Conformational isomerism ,Spectroscopy - Abstract
The infrared spectra of dichloromethylmethyldichlorosilane (Cl2CHCH3SiCl2) were recorded in the vapour, amorphous and partly crystalline phases and when isolated in argon, nitrogen and krypton matrices at 5 K. Raman spectra of the liquid were recorded at various temperatures between 295 and 147 K. Spectra of the amorphous and annealed crystal deposited on a copper finger at 80 K were obtained. The spectra showed the existence of two conformers, anti and gauche, in the vapour and in the liquid. Approximately 12 infrared bands were reduced in intensity, and six of the same bands present in the fluid phases in the Raman spectra vanished upon crystallization. From the intensity variations of two band pairs with temperature, a 1H ◦ value of 0.4 ± 0. 3k J mol −1 between the conformers was obtained in the liquid, anti being the low-energy conformer. Small increases and decreases in the IR band intensities were observed in the matrix spectra after annealing to 32 K (nitrogen), 36 K (argon) and 50 K (krypton). The enthalpy difference between the conformers is low in the matrices, but the anti conformer had lower energy than the gauche conformer. Ab initio calculations were performed at the HF/6‐311G ∗ level and gave optimized geometries, vibrational wavenumbers and infrared and Raman intensities for the anti and gauche conformers. The conformational energy derived was 4.4 kJ mol −1 with anti being the low-energy conformer. The dipole moments were calculated to be 1.2 and 3.1 D for the anti and gauche conformers, respectively. Correlation between the observed and calculated wavenumbers of both conformers revealed that anti was present in the crystal, and complete assignments of the spectra were carried out. Copyright 2001 John Wiley & Sons, Ltd.
- Published
- 2001
35. Excitation Dynamics in Solutions, Films and Crystals of Indandione-1,3 Pyridinium Betaine
- Author
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Vidmantas Gulbinas, Thomas Gustavsson, J.-C. Mialocq, Alytis Gruodis, Saulius Jursenas, I. Muzikante, Leonas Valkunas, G. Kodis, Vitalij Kovalevskij, IMSAR, Vilnius University [Vilnius], Laboratoire Francis PERRIN (LFP - URA 2453), Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Institut de Chimie du CNRS (INC)-Centre National de la Recherche Scientifique (CNRS), Laboratoire Claude Fréjacques (LCF - URA 331), and Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Centre National de la Recherche Scientifique (CNRS)
- Subjects
010405 organic chemistry ,Chemistry ,Intermolecular force ,charge transfer ,Indandione-1 ,3-Pyridinium Betaine ,02 engineering and technology ,021001 nanoscience & nanotechnology ,Condensed Matter Physics ,Photochemistry ,01 natural sciences ,0104 chemical sciences ,ultrafast spectroscopy ,[CHIM.THEO]Chemical Sciences/Theoretical and/or physical chemistry ,molecular crystal ,Excited state ,Ultrafast laser spectroscopy ,Relaxation (physics) ,0210 nano-technology ,Ground state ,Luminescence ,Single crystal ,Excitation - Abstract
International audience; The excitation decay kinetics of polar Indandione-1,3 Pyridinium Betaine (IPB) molecules in various environments: solvents, films and crystals, were studied using time-resolved luminescence and transient absorption measurements. A red-shift, depolarization and fast decay of the luminescence intensity were observed on a femtosecond time scale in dilute solutions and explained by excitation relaxation from the initially created intramolecular charge transfer state to the lower energy excited state of the indandione moiety. The first fast relaxation stage is followed by a slower one responsible for the relaxation to the ground state stage with the rate depending on the viscosity of the surrounding. By comparing the excitation properties of IPB in solution and those in the crystal form, the influence of the intermolecular interactions on the excited state dynamics is revealed. Excitation relaxation in the IPB deposited films of different thickness and in a single crystal is described as a competition between different relaxation paths of nonradiative recombination, these paths being the high lying Frenkel exciton states and the low lying intermolecular charge transfer states.
- Published
- 2001
36. Conformational equilibrium in dimethyl vinyl fluorosilane studied by infrared and Raman spectroscopy
- Author
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Claus J. Nielsen, Yasser E. Nashed, Valdemaras Aleksa, Anne Horn, James R. Durig, Alytis Gruodis, Gamil A. Guirgis, and Peter Klaeboe
- Subjects
Electronic correlation ,Organic Chemistry ,Krypton ,Enthalpy ,Analytical chemistry ,chemistry.chemical_element ,Infrared spectroscopy ,Analytical Chemistry ,Inorganic Chemistry ,symbols.namesake ,Xenon ,chemistry ,Ab initio quantum chemistry methods ,symbols ,Physical chemistry ,Raman spectroscopy ,Conformational isomerism ,Spectroscopy - Abstract
The Raman spectra (3500–20 cm−1) of liquid with depolarization values and solid, as well as the infrared spectra of the gas, the sample isolated in argon and nitrogen matrices at ca. 5 K and solid dimethyl vinyl fluorosilane, CH2 CHSi(CH3)2F, have been recorded. Both gauche and syn rotamers have been identified in the fluid phases but only the syn conformer remains in the solid. Variable temperature (−55 to −150°C) studies of the infrared spectra (4000 and 400 cm−1) of dimethyl vinyl fluorosilane dissolved in liquid xenon and krypton have been recorded. From the xenon and krypton data, the enthalpy differences have been determined to be 53±9 cm−1 (0.64±0.10 kJ/mol) and 44±7 cm−1 (0.53±0.09 kJ/mol), respectively, with the gauche conformer being the more stable form. The intensity variations with temperature of the Raman spectrum of the liquid gave an enthalpy difference of 25±15 cm−1 (0.30±0.18 kJ/mol) also with the gauche conformer being the more stable form. Vibrational assignments are provided for both conformers. Complete equilibrium geometries have been determined for both rotamers using ab initio calculations employing the 6-31G(d), 6-311+G(d,p) and 6-311+G(2d,2p) basis sets at the levels of restricted Hartree–Fock (RHF) and/or with full electron correlation by the perturbation method, Moller–Plesset (MP), to second order. The syn conformer is predicted to be the more stable conformer from all ab initio calculations except those of MP2/6-31(d) which predict the gauche form being the more stable conformer by 54 cm−1 (0.65 kJ/mol) although the values favoring the syn form are all very small. These results are compared to the corresponding quantities of some similar molecules.
- Published
- 2000
37. The conformers of chloromethylmethyldifluorosilane studied by vibrational spectroscopy andab initio methods
- Author
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Peter Klaeboe, Reiner Salzer, James R. Durig, Claus J. Nielsen, Gamil A. Guirgis, Valdemaras Aleksa, K. Herzog, and Alytis Gruodis
- Subjects
Chemistry ,Infrared ,Enthalpy ,Infrared spectroscopy ,Amorphous solid ,Crystal ,symbols.namesake ,Crystallography ,Ab initio quantum chemistry methods ,Computational chemistry ,symbols ,General Materials Science ,Raman spectroscopy ,Conformational isomerism ,Spectroscopy - Abstract
Chloromethylmethyldifluorosilane (CH2ClCH3SiF2) was synthesized for the first time. Raman spectra of the liquid were recorded at various temperatures between 298 and 175 K and spectra of the amorphous and crystalline solids were obtained. Infrared spectra were recorded in the vapour, amorphous and crystalline solid phases in the MIR and FIR regions. Additional MIR spectra of the compound isolated in argon and nitrogen matrices were obtained at 10 K. The spectra of chloromethylmethyldifluorosilane showed the existence of two conformers, anti and gauche, present in the vapour and in the liquid. By careful annealing the amorphous solid formed by depositing the vapour on a cold Cu finger (Raman) or on CsI or silicon windows (infrared) at 80 K, two different crystals were formed. One of these, obtained after annealing to 125 K (crystal I), contained the anti conformer; the other, achieved after annealing to ca 170 K (crystal II), contained molecules in the gauche conformation. If the liquid was cooled, crystal II was formed, suggesting this crystal to be stable, whereas crystal I appeared to be metastable. The anti and gauche conformers had approximately the same enthalpy in the liquid, giving a negligible ΔH (gauche–anti) equal to 0.2 ± 0.4 kJ mol−1, but gauche was the conformer of the stable crystal II. Intensity variations in the matrix spectra after annealing indicated that gauche was the low-enthalpy conformer in both matrices and probably also in the vapour. These experimental data make a very reliable assignment of the conformer bands possible. Ab initio calculations were performed at the HF/6–311G* level, from which optimized geometries, infrared and Raman intensities and scaled vibrational wavenumbers for the anti and gauche conformers were obtained. The conformational energy derived was 5.9 kJ mol−1, with gauche being the low-energy conformer. Copyright © 2000 John Wiley & Sons, Ltd.
- Published
- 2000
38. Infrared and Raman spectra, conformations and ab initio calculations of 1,1,1-trifluoropropyl trifluorosilane
- Author
-
James R. Durig, Valdemaras Aleksa, Alytis Gruodis, D. L. Powell, Gamil A. Guirgis, Claus J. Nielsen, and Peter Klaeboe
- Subjects
Quantitative Biology::Biomolecules ,Infrared ,Chemistry ,Organic Chemistry ,Enthalpy ,Analytical chemistry ,Infrared spectroscopy ,Analytical Chemistry ,Amorphous solid ,law.invention ,Inorganic Chemistry ,symbols.namesake ,law ,Ab initio quantum chemistry methods ,symbols ,Crystallization ,Raman spectroscopy ,Conformational isomerism ,Spectroscopy - Abstract
The infrared spectra of 1,1,1-trifluoropropyl trifluorosilane were recorded in the vapour, amorphous and crystalline solid phases in the range 4000–50 cm −1 . Additional MIR spectra of the compound isolated in argon and nitrogen matrices at 5 K before and after annealing to temperatures in the range 15–35 K were obtained. Raman spectra of the liquid were recorded at various temperatures between 298 and 163 K. Spectra of the amorphous solid on a copper finger were recorded and spectra of crystalline solids cooled by different techniques were obtained. The spectra showed the existence of two conformers – anti and gauche – present in the vapour and in the liquid. Approximately five Raman bands present in the fluid phases vanished upon crystallization, but only small changes occurred in the corresponding infrared spectra. From intensity variations with temperature in the Raman spectra of the liquid, the enthalpy difference was determined to be ΔH(gauche-anti)=3.2 kJ mol −1 . Ab initio calculations were performed using the Gaussian 94 program with the HF/6-311G* basis set and gave optimized geometries, infrared and Raman intensities and scaled vibrational frequencies for the anti and gauche conformers. The conformational energy was calculated to be 5.3 kJ mol −1 with anti being the low energy conformer.
- Published
- 1999
39. Infrared and Raman spectra, conformations and ab initio calculations of ethyl bromosilane and ethyl dibromosilane
- Author
-
Peter Klaeboe, Gamil A. Guirgis, Claus J. Nielsen, Alytis Gruodis, Valdemaras Aleksa, D. L. Powell, and James R. Durig
- Subjects
Infrared ,Organic Chemistry ,Enthalpy ,Infrared spectroscopy ,Analytical Chemistry ,Amorphous solid ,Inorganic Chemistry ,chemistry.chemical_compound ,symbols.namesake ,chemistry ,Bromide ,Ab initio quantum chemistry methods ,Computational chemistry ,symbols ,Physical chemistry ,Raman spectroscopy ,Conformational isomerism ,Spectroscopy - Abstract
Ethyl bromosilane (CH 3 CH 2 SiH 2 Br) and ethyl dibromosilane (CH 3 CH 2 SiHBr 2 ) were synthesized and their infrared and Raman spectra determined in vapour (IR), liquid (Raman), amorphous solid, and crystalline states. Additional infrared spectra of the compounds isolated in argon and nitrogen matrices at 5 K were recorded before and after annealing to temperatures in the range of 15–35 K. Raman spectra of the liquid were recorded at various temperatures between 295 and 153 K. Both the spectra showed the existence of two conformers – anti and gauche – present in the fluid and amorphous phases. The crystals contained the gauche conformer for bromide and anti conformer for the dibromide in accordance with the results for the chloro and iodo homologues. The enthalpy differences in the liquids measured in Raman gave: Δ H (anti-gauche) = 1.8 ± 0.3 and Δ H (gauche-anti) = 2.1 ± 0.3 kJ mol −1 , respectively. Ab initio calculations were performed using the Gaussian 94 program with the HF/6-311G* basis set and gave optimized geometries, infrared and Raman intensities and scaled vibrational frequencies for the anti and gauche conformers. The conformational energies were calculated to be 0.02 kJ mol −1 for ethyl bromosilane and 0.3 kJ mol −1 for ethyl dibromosilane with the anti and gauche conformers having the lower energy, respectively.
- Published
- 1999
40. Charge Transfer Induced Excited State Twisting of N,N-Dimethylaminobenzylidene-1,3-indandione in Solution
- Author
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Alytis Gruodis, Stanislas Pommeret, Leonas Valkunas, Vidmantas Gulbinas, Saulius Jursenas, G. Kodis, J.-C. Mialocq, and T. Gustavsson
- Subjects
chemistry.chemical_classification ,Molecular dynamics ,Double bond ,chemistry ,Excited state ,Picosecond ,Relaxation (NMR) ,Ultrafast laser spectroscopy ,Solvation ,Electronic structure ,Physical and Theoretical Chemistry ,Atomic physics - Abstract
Nonradiative excited-state relaxation via charge transfer induced twisting of N,N-dimethylaminobenzylidene-1,3-indandione (DMABI) in solution was investigated by means of picosecond transient absorption and femtosecond fluorescence spectroscopy.The analysis of the experimental data allows us to distinguish between different reaction stages of the molecular twisting in excited and ground states, as well as to consider the molecular dynamics along reactive (twisting) and nonreactive (solvation) coordinates. Quantum chemical calculations of the electronic structure of DMABI and its dependence on the molecular conformation are discussed in order to identify the bond(s) involved in the twisting reaction. It is found that such a twisting bond is the CC double bond, which is substantially weakened in the excited state.
- Published
- 1999
41. Spectroscopy of self-trapped charge-transfer excitons in polar films and crystals of N,N-dimethylaminobenzylidene 1,3-indandione (DMABI)
- Author
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Saulius Jursenas, Alytis Gruodis, Leonas Valkunas, Gerdenis Kodis, Vitalij Kovalevskij, and Vidmantas Gulbinas
- Subjects
Condensed Matter::Quantum Gases ,Condensed matter physics ,Condensed Matter::Other ,Chemistry ,Exciton ,Matrix isolation ,General Physics and Astronomy ,Molecular physics ,Condensed Matter::Materials Science ,symbols.namesake ,symbols ,Physical and Theoretical Chemistry ,Absorption (chemistry) ,van der Waals force ,Luminescence ,Spectroscopy ,Biexciton ,Excitation - Abstract
The origin of exciton states in crystals built up by dipolar N,N-dimethylaminobenzylidene 1,3-indandione (DMABI) molecules has been investigated by means of absorption and luminescence spectroscopy. The exciton spectral and dynamical properties in the solid state are compared to those of the excitation of separated DMABI molecules embedded in a rigid polymer matrix. The luminescence excitation spectra and the luminescence decay kinetics are discussed on the basis of the specific adiabatic potential-energy scheme of the self-trapped excitons.
- Published
- 1999
42. Visible fluorescence on IR excitation of polar dimethylaminobenzylidene 1,3-indandione crystals
- Author
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A. Urbas, A. D. Durandin, S. Larsson, A. B. Klimkans, D. Juodzbalis, Alytis Gruodis, E. A. Silinsh, and Leonas Valkunas
- Subjects
Light intensity ,Chemistry ,General Chemical Engineering ,Excited state ,Electronic structure ,Singlet state ,Atomic physics ,Luminescence ,Fluorescence ,Hyperfine structure ,Excitation ,Electronic, Optical and Magnetic Materials - Abstract
A novel non-linear fluorescence (NLF) effect in polar dimethylaminobenzylidene 1,3-indandione (DMABI) crystals is presented and discussed. A single crystal or vacuum-evaporated layer of DMABI excited in the IR region at 1064 nm (by a Q-switched YAG laser) emits red light in the visible region of the spectrum at 600–740 nm depending on the DMABI crystalline modification. This anti-Stokes luminescence shows a quadratic dependence on the exciting light intensity which transforms to a linear dependence at very high excitation intensities. The observed NLF effect under IR excitation is determined by optical transitions into intermolecular charge transfer (CT) states. It has been suggested that the photoexcited singlet 1CT excitations may either interact in a quadratic singlet–singlet (1CT + 1CT) annihilation reaction or, more probably, form long-lived triplet 3CT excitons via a hyperfine interaction effect which may subsequently annihilate in a similar bimolecular fusion reaction (3CT + 3CT). In both cases the excited molecular singlet state S1 is formed and thus the NLF effect is due to singlet–singlet or triplet–triplet fusion of CT excitons. A detailed energy diagram and kinetic description of the model are presented. Quantum chemical calculations of the electronic structure of the DMABI molecule illustrate the dipolar nature of its ground and excited states.
- Published
- 1993
43. Non-linear Spectral Effects in Films and Crystals of Polar Molecules
- Author
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Leonas Valkūnas, Antanas Urbas, Alytis Gruodis, and Dainius Juoctžbalis
- Subjects
Nonlinear system ,Structural organization ,Chemical physics ,Infrared ,Chemistry ,Chemical polarity ,Analytical chemistry ,Polar ,Condensed Matter Physics ,Fluorescence ,Excitation - Abstract
The paper addresses the spectroscopic peculiarities of polar molecular crystals and films of dimethylaminebenzylidene-1,3-indandione (DMABI). Specific visible fluorescence bands for various modifications of the system are discovered. They are identical for all excitation conditions and seem to be correlated with the structural organization of the media. The infrared excitation of these bands is shown to be a two-step process which turns into the saturating regime at higher intensities.
- Published
- 1993
44. Synthesis and photophysical properties of glass-forming bay-substituted perylenediimide derivatives
- Author
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V. Sivamurugan, J.V. Grazulevicius, Jurate Simokaitiene, Alytis Gruodis, Karolis Kazlauskas, Suresh Valiyaveettil, and Saulius Jursenas
- Subjects
Chemistry ,Polymer chemistry ,Materials Chemistry ,Physical and Theoretical Chemistry ,Photochemistry ,Small molecule ,Bay ,Glass forming ,Surfaces, Coatings and Films - Abstract
A series of perylenediimide-based small molecules (PDI1-PDI5) containing electron-deficient groups in the bay region were synthesized and characterized. The PDI derivatives were found to be capable of forming molecular glasses with glass transition temperatures ranging from 50 to 102 degrees C. Detailed investigations of the optical properties of the synthesized derivatives were performed and compared with those obtained from quantum chemical calculations. Optimized molecular structures of the PDI derivatives exhibited core-twisting by 16 degrees and torsional angle between the bay substituent and the perylene core in the range of 60-72 degrees. The PDI derivatives exhibited absorption maxima in the range of 2.27-2.36 eV and emission maxima in the range of 2.10-2.28 eV. The impact of the bay substituents on the emission, fluorescence quantum yield, and lifetimes in solutions and thin films was established. The red shift of emission maxima (from 2.282 to 2.095 eV) observed for various PDIs in solutions was accompanied by significant reduction in the emission quantum yield (from 0.73 to 0.44) and corresponding increase of the fluorescence lifetime (from 4.5 to 6.8 ns). This was in agreement with quantum chemical calculations indicating decrease of the radiative relaxation rate due to reduction of the oscillator strength and remarkable decrease of the torsional activation barrier. The spectral properties of the wet-casted perylenediimide films featuring different bay substituents were also studied. The variation in the emission peak (of 0.25 eV) and the considerable increase of the Stokes shift (of 0.4 eV) are explained in terms of the formation of the amorphous state. The influence of the bay substituents on the thermal and spectral properties of the films are discussed.
- Published
- 2010
45. Excitonic states in polar molecular crystals
- Author
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Saulius Jursenas, Leonas Valkunas, Alytis Gruodis, Inta Muzikante, and Vidita Alisauskaite
- Subjects
Condensed Matter::Quantum Gases ,Crystal ,Phase transition ,Condensed matter physics ,Chemistry ,Chemical physics ,Exciton ,X-ray crystallography ,Atmospheric temperature range ,Luminescence ,Biexciton ,Spectral line - Abstract
Fluorescence and reflectance spectra of dipolar N,N-dimethylaminobenzylidene 1,3-indandione (DMABI) molecular crystals of α and β crystallographic modifications have been studied over a wide temperature range. The luminescence spectral properties have been discussed by means of the self-trapped exciton model. The crystal phase transition in both α and β modifications resulting in the deeply-trapped excitonic state formation has been observed at low temperatures, below 60 K.© (2003) COPYRIGHT SPIE--The International Society for Optical Engineering. Downloading of the abstract is permitted for personal use only.
- Published
- 2003
46. On the stability of the hydrogen chloride complexes with ethylene and acetylene. A high resolution gas phase and ab initio study
- Author
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Birute Mikulskiene, Valdas Sablinskas, Bengt Nelander, and Alytis Gruodis
- Subjects
Ethylene ,Inorganic chemistry ,Hartree–Fock method ,Ab initio ,Dissociation (chemistry) ,Analytical Chemistry ,Gas phase ,chemistry.chemical_compound ,Physics::Atomic and Molecular Clusters ,Physics::Chemical Physics ,Hydrogen chloride ,Instrumentation ,Spectroscopy ,Quantum chemical ,Quantitative Biology::Biomolecules ,Models, Statistical ,Acetylene ,Temperature ,Ethylenes ,Atomic and Molecular Physics, and Optics ,Kinetics ,chemistry ,Models, Chemical ,Spectrophotometry ,Physical chemistry ,Thermodynamics ,Gases ,Hydrochloric Acid - Abstract
The temperature dependencies of the intensities of the HCl stretching bands of the hydrogen chloride complexes with acetylene and ethylene have been used to obtain estimates of the dissociation enthalpies of the two complexes. Quantum chemical calculations on the Hartree Fock and DFT/B3LYP levels of theory have been combined with experimental data to give estimates of the intensities of the HCl stretching vibration in the two complexes.
- Published
- 2003
47. Optical properties of films built up by polar molecules
- Author
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I. S. Kaulach, Leonas Valkunas, Gerdenis Kodis, Saulius Jursenas, Alytis Gruodis, and Edgar A. Silinsh
- Subjects
Condensed Matter::Materials Science ,Dipole ,Absorption band ,Chemistry ,Chemical polarity ,Exciton ,Molecular electronics ,Atomic physics ,Luminescence ,Molecular physics ,Biexciton ,Molecular electronic transition - Abstract
N,N-dimethylaminobenzylidene 1,3-indandione (DMABI) was considered. The formation of charge transfer excitonstates in the absorption and luminescence spectra by increase of the thicknesses of DMABI films was observed. Theevidence of a strong exciton-phonon interaction and its effects on the exciton absorption and luminescence spectra wasdiscovered. The coexistence of free and self-trapped excitons at elevated temperatures was found in DMABI films. Thedynamics of both shallow short-lived and deeply trapped long-lived self-trapped exciton states in various films andcrystal of DMABI was discussed.Keywords: molecular crystals, N,N-dimethylaminobenzylidene 1 ,3 -indandione, spectroscopy, luminescence,self-trapped excitons, charge transfer1. INTRODUCTIONThe dipole moment of the electronic transition is the main parameter determining the excitonic feature of thespectrum of molecular crystals. The presence of steady-state dipole moments in the ground and excited molecularstates creates the interaction with other molecules of the surrounding. By means of the exciton theory, the latter causesan essential increase of the displacement gy'2 in comparison with the classical crystals and, moreover, strongelectron-phonon or electron-vibrational modes interaction cannot be treated perturbatively anymore. The dispersiveinteraction is responsible for absorption band shifts depending to the polarity of solvents or by modifying the crystalstructure, while strong electron-phonon interactions can create a distinct Stokes-shift of the fluorescence band. Due tothose interactions the spectral properties of polar systems become very sensitive to the structural changes, differenciesin temperature and excitation conditions, and these systems can express optically non-linear behaviour in somespectral regions.3 Therefore, new possibilities of their application to non-linear optics and molecular electronics are
- Published
- 1997
48. Relaxation of self-trapped excitons in polar molecular compounds
- Author
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Alytis Gruodis, Gerdenis Kodis, M. Chachisvilis, Saulius Jursenas, and Leonas Valkunas
- Subjects
Condensed Matter::Materials Science ,Absorption spectroscopy ,Chemical physics ,Absorption band ,Chemistry ,Chemical polarity ,Intramolecular force ,Exciton ,Excited state ,Physics::Chemical Physics ,Atomic physics ,Luminescence ,Acceptor - Abstract
The origin of the excited states in polar molecular compounds of N,N‐dimethylaminebenzylidene 1,3‐indandione (DMABI) has been investigated. The spectral, kinetic and polarization properties of the of self‐trapped exciton luminescence were discussed with special glance to the crystal structure of DMABI. The build up of DMABI crystal of α‐modification predetermines increased intermolecular interaction between donor and acceptor fragments of neighboring DMABI molecules. The intermolecular charge transfer transition was found to take place simultaneously with considerable intramolecular charge redistribution because of chemically bonded donor and acceptor fragments within polar DMABI molecule. A week, narrow luminescence line was observed in resonant with the lowest absorption band and was attributed to the free exciton radiative recombination. By increasing the excitation intensity the onset of non‐linear bimolecular annihilation of excitons was observed.
- Published
- 1996
49. Diphenylamine-Substituted Carbazole-Based Hole Transporting Materials for Perovskite Solar Cells: Influence of Isomeric Derivatives
- Author
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Vygintas Jankauskas, Tadas Malinauskas, Artiom Magomedov, Sanghyun Paek, Maryte Daskeviciene, Kyung Taek Cho, Mohammad Khaja Nazeeruddin, Vytautas Getautis, Kristina Kantminiene, Alytis Gruodis, Ernestas Kasparavicius, Kasparas Rakstys, Egidijus Kamarauskas, and Paul Gratia
- Subjects
Materials science ,Carbazole ,business.industry ,Diphenylamine ,02 engineering and technology ,010402 general chemistry ,021001 nanoscience & nanotechnology ,Condensed Matter Physics ,01 natural sciences ,0104 chemical sciences ,Electronic, Optical and Magnetic Materials ,Biomaterials ,chemistry.chemical_compound ,Semiconductor ,chemistry ,Polymer chemistry ,Electrochemistry ,0210 nano-technology ,business ,Perovskite (structure)
50. Carbazole-Terminated Isomeric Hole-Transporting Materials for Perovskite Solar Cells
- Author
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Vygintas Jankauskas, Alytis Gruodis, Egidijus Kamarauskas, Sarune Daskeviciute, Mohammad Khaja Nazeeruddin, Vytautas Getautis, Naoyuki Shibayama, Aida Drevilkauskaite, Hiroyuki Kanda, Sanghyun Paek, Kasparas Rakstys, Maryte Daskeviciene, and American Chemical Society
- Subjects
carbazole ,hole-transporting material ,perovskite ,solar cell ,isomeric semiconductors ,Materials science ,02 engineering and technology ,010402 general chemistry ,01 natural sciences ,7. Clean energy ,law.invention ,chemistry.chemical_compound ,methylammonium ,low-cost ,law ,Photovoltaics ,Thermal ,Solar cell ,General Materials Science ,Perovskite (structure) ,degradation ,Carbazole ,business.industry ,Photovoltaic system ,tio2 ,021001 nanoscience & nanotechnology ,0104 chemical sciences ,Active layer ,chemistry ,highly efficient ,Optoelectronics ,Ionization energy ,0210 nano-technology ,business ,Research Article - Abstract
A set of novel hole-transporting materials (HTMs) based on pi-extension through carbazole units was designed and synthesized via a facile synthetic procedure. The impact of isomeric structural linking on their optical, thermal, electrophysical, and photovoltaic properties was thoroughly investigated by combining the experimental and simulation methods. Ionization energies of HTMs were measured and found to be suitable for a triple-cation perovskite active layer ensuring efficient hole injection. New materials were successfully applied in perovskite solar cells, which yielded a promising efficiency of up to almost 18% under standard 100 mW cm(-2) global AM1.5G illumination and showed a better stability tendency outperforming that of 2,2',7,7'-tetrakis-(N,N-di-p-methoxyphenylamine)-9,9'-spirobifluorene. This work provides guidance for the molecular design strategy of effective holeconducting materials for perovskite photovoltaics and similar electronic devices.
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