Development of 8-Hydroxyquinoline Metal Based Organic Light-emitting Diodes

Feng, Xiaodong

31 July 2008

Because of its potential application for flat panel displays, solid-state lighting and 1.5 µm emitter for fiber optical communications, organic light-emitting diodes (OLEDs) have been intensively researched. One of the major problems with current OLED technology relates to inefficient electron injection at the cathode interface, which causes high driving voltage and poor device stability. Making a low resistance cathode contact for electron injection is critical to device performance. This work mainly focuses on cathode interface design and engineering. The Ohmic contact using a structure of C60/LiF/Al has been developed in electron only devices. It is found that application of the C60/LiF/Al contact to Alq based OLEDs leads to a dramatic reduction in driving voltages, a significant improvement in power efficiency, and a much slower aging process. A new cathode structure based on metal-organic-metal (MOM) tri-layer films has been developed. It is found that MOM cathodes reduce reflection by deconstructive optical interference from two metal films. The absolute reflectance from the MOM tri-layer films can be reduced to as low as 7% in the visible light spectrum. In actual working devices, the reflectance can be reduced from ~80% to ~ 20%. MOM cathodes provide a potential low-cost solution for high contrast full-color OLED displays. Low voltage Erq based OLEDs at 1.5 µm emission have been developed. The Erq/Ag cathode interface has been found to be efficient for electron injection. Dramatic improvement in driving voltage and power efficiency has been realized by implementing Bphen and C60 into Erq devices as an electron transport layer. Integration of Erq devices on Si wafers has also been demonstrated.

Organic Light-Emitting Diodes

8-Hydroxyquinoline Metal

0794

Synthesis, Dynamics and Photophysics of Nanoscale Systems

Mirkovic, Tihana

25 September 2009

The emerging field of nanotechnology, which spans diverse areas such as nanoelectronics, medicine, chemical and pharmaceutical industries, biotechnology and computation, focuses on the development of devices whose improved performance is based on the utilization of self-assembled nanoscale components exhibiting unique properties owing to their miniaturized dimensions. The first phase in the conception of such multifunctional devices based on integrated technologies requires the study of basic principles behind the functional mechanism of nanoscale components, which could originate from individual nanoobjects or result as a collective behaviour of miniaturized unit structures. The comprehensive studies presented in this thesis encompass the mechanical, dynamical and photophysical aspects of three nanoscale systems. A newly developed europium sulfide nanocrystalline material is introduced. Advances in synthetic methods allowed for shape control of surface-functionalized EuS nanocrystals and the fabrication of multifunctional EuS-CdSe hybrid particles, whose unique structural and optical properties hold promise as useful attributes of integrated materials in developing technologies. A comprehensive study based on a new class of multifunctional nanomaterials, derived from the basic unit of barcoded metal nanorods is presented. Their chemical composition affords them the ability to undergo autonomous motion in the presence of a suitable fuel. The nature of their chemically powered self-propulsion locomotion was investigated, and plausible mechanisms for various motility modes were presented. Furthermore functionalization of striped metallic nanorods has been realized through the incorporation of chemically controlled flexible hinges displaying bendable properties. The structural aspect of the light harvesting machinery of a photosynthetic cryptophyte alga, Rhodomonas CS24, and the mobility of the antenna protein, PE545, in vivo were investigated. Information obtained through a combination of steady-state and time-resolved spectroscopy in conjunction with quantum chemical calculations aided in the elucidation of the dynamics and the mechanism of light harvesting in the multichromophoric phycobiliprotein phycocyanin PC645 in vitro. Investigation of the light-harvesting efficiency and optimization of energy transfer with respect to the structural organization of light-harvesting chromophores on the nanoscale, can provide us with fundamental information necessary for the development of synthetic light-harvesting devices capable of mimicking the efficiency of the natural system.

nanocrystals

europium sulfide

nanomaterials

nanomotors

energy transfer

light harvesting

0494

Age-dependent effect of environmental light on spectral sensitivity and body colouration of Nile tilapia Oreochromis niloticus

Hornsby, Mark

06 December 2012

Signal reception and production form the basis of animal communication, and are largely constrained by environmental biophysical factors such as environmental light. However, the role of environmental light in producing variation in either signal reception or production has not been fully investigated. Using two distinct environmental light treatments, as well as a third treatment for a sampling of adults, I recorded corneal electroretinograms, lens transmission, and spectral reflectance of the body pattern of juvenile and adult Nile tilapia to chart the effect of environmental light on visual sensitivity and body colouration throughout ontogeny. Environmental light had an age-dependent effect on spectral sensitivity and an age-independent effect on spectral reflectance. Spectral sensitivity in juveniles reared under a broad-spectrum light treatment and a red-shifted light treatment differed mostly at short wavelengths, where the irradiance of the two environmental light treatments differed the most. In contrast, adults reared under the two environmental light treatments did not differ in spectral sensitivity. Lens transmission did not differ significantly between environmental light treatments, indicating that differences in spectral sensitivity of juveniles originated in the retina. Both juveniles and adults reared under the two environmental light treatments differed in spectral reflectance, and adults transferred to the third environmental light treatment differed in spectral reflectance from their counterparts reared under the two original treatments. These results demonstrate that environmental light plays a large role in shaping signal reception in juveniles and signal production throughout ontogeny, suggesting that environmental light has the capacity to drive ecological speciation. / Thesis (Master, Biology) -- Queen's University, 2012-12-03 11:32:59.441

Environmental light

Visual sensitivity

Body colouration

Nile tilapia

Design, Synthesis, and Application of Stimuli-Responsive Block Copolymers

Rabnawaz, MUHAMMAD

29 April 2013

This thesis reports the preparation of novel multi-responsive and multiply stimulable triblock copolymers. The resultant polymers were used to coat cotton fabrics and glass to render them amphiphobic. Further, a method was developed for the preparation of poly(ethylene glycol)-block-poly(hydroxyethyl methacrylate) (PEG-b-PHEMA) via anionic polymerization. The multi-responsive copolymer refers to poly(ethylene glycol)-orthonitrobenzyl-poly[2-(perfluorooctyl)ethyl methacrylate)-block-poly(2-cinnamoloxyethyl methacrylate) (PEG-ONB-PFOEMA-b-PCEMA, or P1). P1 was synthesized via atom transfer radical polymerization (ATRP) of FOEMA and a precursory monomer of CEMA using a PEG macroinitiator. The copolymer was multi-responsive or dual light-responsive because the ONB junction cleaves and PCEMA block becomes crosslinked upon UV photolysis. The multiply stimulable copolymers are a series of poly(ethylene glycol)-disulfide-poly[2-(perfluorooctyl)ethyl methacrylate)-block-poly(2-cinnamoloxyethyl methacrylate) (PEG-S2-PFOEMA-b-PCEMA) copolymers. These polymers were synthesized by the end-coupling Py-S2-PFOEMA-b-PHEMA and PEG-SH, and subsequent cinnamation of the PHEMA block. These polymers are multiply stimulable because the S2 junction and PCEMA block respond to different stimulations, such as reducing agents and light, respectively. These synthetic strategies will advance the field of stimuli-responsive polymers by providing novel functional polymers for the generation of durable self-cleaning surfaces. The above polymers form micelles in water or water/organic solvent mixtures because of the water-soluble PEG blocks. Polymer-coated cotton was obtained by immersing cotton in micellar copolymer solutions before subsequent drying and annealing treatment. Upon photolysis, the PEG block was cleaved and the PCEMA anchoring layer became crosslinked. Such a crosslinked and stable layer was rendered amphiphobic because of the exposed PFOEMA block. A similar coating can be obtained from P2. Two types of stimulations including photolysis and reduction treatment need to be applied to yield amphiphobic textiles. This coating strategy is unique and environmentally friendly because the water- and oil-repellent coatings were prepared from an aqueous solution for the first time. In a further study, a novel and long-sought method was developed for the anionic polymerization of PEG-b-PHEMA. A PEG-DPE macroinitiator was synthesized and subsequently converted into an active initiator by reaction with sec-butyl lithium. Consequently, the active initiator underwent polymerization with HEMA-TMS to yield PEG-b-P(HEMA-TMS). Upon post-polymerization modification, PEG-b-PHEMA was obtained with a low polydispersity of 1.08. / Thesis (Ph.D, Chemistry) -- Queen's University, 2013-04-29 12:25:54.593

FUNCTIONAL CHARACTERIZATION OF TELEOST INTRINSIC PHOTOSENSITIVE DERMAL CHROMATOPHORES

Chen, Shyh-Chi

27 August 2013

Mammalians process their photoreceptions through lateral eyes; however, non-mammalian vertebrates and invertebrates possess additional extraretinal photoreceptors over their bodies to detect light stimuli. Chromatophores, i.e. dermal specialized pigment cells, play important roles in the regulation of body patterns. Since chromatophores derive from neural crest, they share the common embryonic origin with retina. Recent evidence shows that they are light-sensitive due to opsin expression. In the present study, the expression of seven cone opsins was detected in tilapia caudal fin tissues. Moreover, distinct photoresponses were found in two chromatophore types. Regardless of stimulating wavelengths, melanophores tend to disperse and maintain cell shape at dispersion stage by shuttling pigment granules. Conversely, erythrophores respond to light in a wavelength-dependent manner. The opsin expression profiles of melanophores and erythrophores imply SWS1 and RH2 group genes may play important roles in chromatophore photoresponses. Through measuring photosensitivity, I suggest the two opsins play opposite roles in light-induced translocations of pigment granules within erythrophores: SWS1 for aggregations at UV and short wavelength regions and RH2b for dispersion in middle/long wavelengths. An antagonistic interaction occurs in the overlapping of the absorbance spectra of the two opsins. I also found that the photoresponses take place along with the occurrence of the change of cell membrane potential. In addition, the effect of different light backgrounds (broad spectrum, short wavelength-rich, and red-shifted light conditions) on the photosensitivity of tilapia erythrophores was investigated. I found that the major opsin classes (SWS1 and RH2b) responsible for photoresponses remain constant in three groups of erythrophores. Together, I postulate that melanophores may serve as a light filter in integumentary tissues, and the chromatically antagonistic mechanism enables tilapia erythrophores to sense the subtle change of environmental photic condition and to fine-tune pigmentation. I also investigated the ontogenetic change of photoresponses of rainbow trout melanophores. Distinct photoresponses were found in parrs and smolts. Furthermore, smolt melanophores responded to light in a wavelength-dependent manner. Since the change of coloration and visual system during smoltification of salmonids is regulated by thyroid hormone (TH), I suggest that the development of melanophore photosensitivity is associated to TH as well. / Thesis (Ph.D, Biology) -- Queen's University, 2013-08-27 09:57:22.907

opsin

photoresponse

visual pigment

light sensitivity

fish

chromatophore

FUNCTIONAL CHARACTERIZATION OF TELEOST INTRINSIC PHOTOSENSITIVE DERMAL CHROMATOPHORES

Chen, Shyh-Chi

27 August 2013

Mammalians process their photoreceptions through lateral eyes; however, non-mammalian vertebrates and invertebrates possess additional extraretinal photoreceptors over their bodies to detect light stimuli. Chromatophores, i.e. dermal specialized pigment cells, play important roles in the regulation of body patterns. Since chromatophores derive from neural crest, they share the common embryonic origin with retina. Recent evidence shows that they are light-sensitive due to opsin expression. In the present study, the expression of seven cone opsins was detected in tilapia caudal fin tissues. Moreover, distinct photoresponses were found in two chromatophore types. Regardless of stimulating wavelengths, melanophores tend to disperse and maintain cell shape at dispersion stage by shuttling pigment granules. Conversely, erythrophores respond to light in a wavelength-dependent manner. The opsin expression profiles of melanophores and erythrophores imply SWS1 and RH2 group genes may play important roles in chromatophore photoresponses. Through measuring photosensitivity, I suggest the two opsins play opposite roles in light-induced translocations of pigment granules within erythrophores: SWS1 for aggregations at UV and short wavelength regions and RH2b for dispersion in middle/long wavelengths. An antagonistic interaction occurs in the overlapping of the absorbance spectra of the two opsins. I also found that the photoresponses take place along with the occurrence of the change of cell membrane potential. In addition, the effect of different light backgrounds (broad spectrum, short wavelength-rich, and red-shifted light conditions) on the photosensitivity of tilapia erythrophores was investigated. I found that the major opsin classes (SWS1 and RH2b) responsible for photoresponses remain constant in three groups of erythrophores. Together, I postulate that melanophores may serve as a light filter in integumentary tissues, and the chromatically antagonistic mechanism enables tilapia erythrophores to sense the subtle change of environmental photic condition and to fine-tune pigmentation. I also investigated the ontogenetic change of photoresponses of rainbow trout melanophores. Distinct photoresponses were found in parrs and smolts. Furthermore, smolt melanophores responded to light in a wavelength-dependent manner. Since the change of coloration and visual system during smoltification of salmonids is regulated by thyroid hormone (TH), I suggest that the development of melanophore photosensitivity is associated to TH as well. / Thesis (Ph.D, Biology) -- Queen's University, 2013-08-27 09:57:22.907

opsin

photoresponse

visual pigment

light sensitivity

fish

chromatophore

The influence of light and nature on health and well-being : A phenomenological study among a group of elderly in Iceland

Ingimundardóttir, Sigþrúður

January 2013

Elderly people’s experiences of what embodies a rewarding old age and vitality form a vital premise for developing comprehensive age-related services.This study sought to increase knowledge and deepen understanding of elderly people ́s life. The objective: This study aimed to investigate how lightand nature influence elderly people ́s experience of health and well-beingin Iceland. Method: We applied the Vancouver School phenomenological method to data accumulated from,interviews with 10people(6women and 4men) with anaverage age of 80.9 years. Participants were residents of Reykjavík, Hafnarfjörður,and Mosfellsbær. Findings: Participants reported that light and nature were important. Although individual definitions varied, they loved nature and described it as akin to life itself. Twilight had a special place, bringing a sense of romance. All participants felt physically and mentally healthy during the interview process. Nevertheless, each of them had experienceda variety of health-related difficulties in the past. They felt that vitality and mental and physical equilibrium form the basis of are warding old age. Conclusion: From birth,an individual is part of his environment, which shapes him. This process is always active(i.e., anindividual re-analyses and values his health and well-being as conditions change). Although the values forming that basis vary, an individual must establish a balance between body and soul to feel healthy and achievewell-being. The findings reported here throw light on those factors which elderly people feel promote health and well-being, and are of value for those who study, teach and provide services for them.

Elderly

Nature

Light

Health

Well - Being

Public health science

Folkhälsovetenskap

Laiko mašina magistro baigiamojo darbo aiškinamasis raštas / The Time Machine

Mikutavičius, Mantas

03 July 2014

Laiko mašina Laiko mašina - neišrastas, bet kiekvieną dieną matomas daiktas - veidrodis. Matomas atspindys veikia pasamonę, o besikeičianti šviesa - apmąstymus: kas buvo lieka už nugaros, kas bus stovi prieš mus. Aš svajoju, žvelgiu į dangų, neišsipildžiusios svajonės žvelgiu žemyn. Lygiagrečiai susiduriame su kasdieniniais pasirinki-mais - kairė ar dešinė. O viso to centras esu AŠ. / The Time Machine The Time Machine - invented, but every day visible object - a mirror. Visible reflection does the subconscious mind and changing light - reflection: What has been left behind, who will be standing in front of us. I dream, I look at the sky, I look down unfulfilled dreams. In parallel, we encounter everyday-tion's choice - left or right. And all that I am the center.

Art Criticism

Veidrodis

Atspindys

Šviesa

Mirror

Light

Reflection

Optical emission and mass spectrometric diagnostics of laser-induced silicon plasmas

Cowpe, John Stephen

January 2008

Optical Emission Spectroscopy (OES) and Mass Spectrometry (MS) were employed in tandem for diagnostic studies of Nd:YAG (532 nm) laser induced plasma plumes. OES measurements of laser-induced silicon plasmas were performed through a range of ambient pressure regimes from atmospheric pressure down to ~10-4 mbar. The temporal evolution of the plasmas was characterised in terms of electron excitation temperature Te, ionisation temperature Ti, and electron density Ne. Electron densities were determined in the range 2.86 × 1016 to 5.53 × 1019 cm-3, electron temperatures were calculated in the range 8794 to 21229 K, and ionic species temperatures calculated in the range 13658 to 22551K. The requirements for OES analysis based on the assumption of Local Thermal Equilibrium (LTE) conditions existing within the plasmas are discussed. The plasma morphology and expansion dynamics with respect to pressure are described. Response Surface Methodology (RSM) was employed to optimise Laser-Induced Breakdown Spectroscopy (LIBS) analyses of silicon at atmospheric pressure and under vacuum conditions. Multivariate analysis software was used to design and analyse several multi-level, full factorial RSM experiments. A Quality Factor (QF) was conceived as the response parameter for the experiments, representing the quality of the LIBS spectrum captured for a given hardware configuration. A full parametric study of the LIBS hardware configuration was performed to determine the true response of the system; the outcome of which compares favourably with the results yielded from the RSM investigation. MS analyses of silicon and copper laser-induced plasma plumes were performed using a commercially available Residual Gas Analyser (RGA). The RGA sampling configuration was investigated in order to maximise neutral and ionic species detection from the laser-induced plasmas.

535

Physiological ecology of understorey trees in low impact silvicultural systems

Bertin, Sophie

January 2009

Continuous cover forestry (CCF), an alternative forest management approach to clearfelling, is increasingly being adopted in the UK. It aims at enhancing stand structural diversity and favouring natural regeneration and subsequent seedling growth below the existing canopy of plantation forests. One area of limited knowledge is the critical level of below-canopy light for the growth of naturally regenerating seedlings. In addition, plant growth beneath canopies is influenced by other factors (e.g. herbivory). Picea sitchensis (Bong.) Carr. (Sitka spruce) seedlings under canopies have been observed to be severely damaged by Elatobium abietinum (Walker) (green spruce aphid) attacks. The combined effects of light availability and insect attack on seedling growth are not well understood, however, this understanding is crucial in order to ensure successful management of regeneration within CCF systems. A controlled experiment, which mimicked different natural understorey light levels along with repeated artificial aphid infestation, was conducted over two years to look at seedling performance through structural and physiological (chlorophyll fluorescence) measurements. Aphid population assessments showed significant increased population density under shaded conditions. Nevertheless, aphid impacts were mainly localised in extent while the impact of light was the major component that described seedling growth. Light was the primary factor affecting the whole-plant biomass, whereas aphids had only localised effects on the total dry weight of older needles and roots, and on leader extension growth. A significant interaction between light levels and presence/absence of aphid infestation was found for main leader extension growth of the seedlings during the second year of the experiment, with lower values at low light levels under infestation. Plant biomass allocation was affected strongly by light, while aphid presence did not result in significant changes. At the leaf physiologylevel, the light environment was found to be the main driving factor affecting photosynthetic response, whilst aphid presence had only a short-term localised effect on photosynthesis. The impact of light levels and aphid presence on seedling growth were also determined at an experimental field site where plots were located across two light regimes typical of CCF conditions in upland UK coniferous forests. The comparison of the photosynthetic response of the seedlings in both the controlled and field experiment highlighted the importance of considering the temporal heterogeneity of the light environment experienced by understorey seedlings in CCF stands, while aphid and aphid x light interaction effects could not be determined due to very low aphid levels during the year. Finally, a pre-existing light model was parameterised to predict the understorey light environment required to promote successful seedling growth in CCF stands. Sensitivity and validation analyses were also performed.

634.9