The Moderating Effect of Gender on Self-Image and House Purchase Intention in Sri Lanka

Self-image is one of the major consumer behaviour constructs that play a major role in house purchase intention. In this context, moderating impact of gender between self-image and house purchasing intention is uncertain and ambiguous. The purpose of this study is to investigate the impact of gender moderation on the relationship between self-image and house purchasing intention. The quantitative research method was used for this study. Potential luxury housing buyers in Sri Lanka were used as a population of the study and a structured questionnaire survey was conducted to collect data. The sample size of the study is 100.  Four hypotheses were developed for the study and those hypothesized were analysed using Partial Least Square (PLS) analysis. The findings reveal that actual self-image and house purchase intention have a significant positive relationship and there is no relationship between ideal self-image and house purchase intention. Further, the study failed to support that gender moderates the relationship between self-image (actual and ideal) and house purchasing intention. The present findings of the study will be beneficial for real estate developers, real estate marketers/managers, and academia, relating to the house purchase intention in the luxury housing market. © 2022 The Authors. Published by Department of Estate Management and Valuation, University of Sri Jayewardenepura.   Keywords: Consumer Behaviour, Self-image, Actual Self-image, Ideal self-image, House Purchase Intention, House Buying Behaviou

Sustainable regeneration of high-performance LiCoO2 from completely failed lithium-ion batteries

Utilising the solid-state synthesis method is an easy and effective way to recycle spent lithium-ion batteries. However, verifying its direct repair effects on completely exhausting cathode materials is necessary. In this work, the optimal conditions for direct repair of completely failed cathode materials by solid-state synthesis are explored. The discharge capacity of spent LiCoO2 cathode material is recovered from 21.7 mAh g−1 to 138.9 mAh g−1 under the optimal regeneration conditions of 850 °C and n(Li)/n(Co) ratio of 1:1. The regenerated materials show excellent electrochemical performance, even greater than the commercial LiCoO2. In addition, based on the whole closed-loop recycling process, the economic and environmental effects of various recycling techniques and raw materials used in the battery production process are assessed, confirming the superior economic and environmental feasibility of direct regeneration method

Subcellular optogenetic inhibition of G proteins generates signaling gradients and cell migration

Cells sense gradients of extracellular cues and generate polarized responses such as cell migration and neurite initiation. There is static information on the intracellular signaling molecules involved in these responses, but how they dynamically orchestrate polarized cell behaviors is not well understood. A limitation has been the lack of methods to exert spatial and temporal control over specific signaling molecules inside a living cell. Here we introduce optogenetic tools that act downstream of native G protein–coupled receptor (GPCRs) and provide direct control over the activity of endogenous heterotrimeric G protein subunits. Light-triggered recruitment of a truncated regulator of G protein signaling (RGS) protein or a Gβγ-sequestering domain to a selected region on the plasma membrane results in localized inhibition of G protein signaling. In immune cells exposed to spatially uniform chemoattractants, these optogenetic tools allow us to create reversible gradients of signaling activity. Migratory responses generated by this approach show that a gradient of active G protein αi and βγ subunits is sufficient to generate directed cell migration. They also provide the most direct evidence so for a global inhibition pathway triggered by Gi signaling in directional sensing and adaptation. These optogenetic tools can be applied to interrogate the mechanistic basis of other GPCR-modulated cellular functions

IFNAR1-Signalling Obstructs ICOS-mediated Humoral Immunity during Non-lethal Blood-Stage Plasmodium Infection

Funding: This work was funded by a Career Development Fellowship (1028634) and a project grant (GRNT1028641) awarded to AHa by the Australian National Health & Medical Research Council (NHMRC). IS was supported by The University of Queensland Centennial and IPRS Scholarships. The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript.Peer reviewedPublisher PD

Review of calculation procedures of Thornthwaite Moisture Index and its impact on footing design

Thornthwaite Moisture Index (TMI) was introduced in 1948 as an index to classify the climate condition of different areas. Since then it has been widely used in many fields such as agricultural and environmental geotechnics. The Australian residential footing design procedure is associated with TMI in order to relate the effect of climate condition on the variation of soil moisture profile. This paper illustrates the different methods commonly used to calculate TMI and compares their different outcomes. The different calculation methods result in different TMI values for the same climate condition which consequently affects the subsequent correlations. The sensitivity of the primary climate data used to calculate TMI is also discussed in this paper. TMI is an index highly dependent on the rainfall variation and is less sensitive to temperature variations and so the annual TMI can be reliably related to annual rainfall. The change in TMI with change of number of years which the average rainfall is based on has also been presented in this paper. The higher the numbers of years used to obtain the average TMI, the less reliable it is to describe the effects of extreme climate events

Design and construction of a low cost air purifier for killing harmful airborne microorganisms using a combination of a strong multi-directional electric-field and an ultra violet light

In this work we have designed and developed a low cost and simple instrument to purify air in an enclosure. The device sucks up the air in the enclosed area, kills the microorganisms and let clean air flow out. A combination of an ultra violet light and an electric field are used to kill the microorganisms in air. Three electric field chambers (radial, parallel, perpendicular) are used to clean air more effectively. Stainless steel meshes were used to increase the density of the electric fields. The outer covers were made with plastic and wood. The instrument was tested against an evaporated bacterial solution (Staphylococcus aureus) by letting it flow through the instrument and measuring the bacterial concentration of the output air. The results showed the instrument is extremely effective even when tested against high bacterial concentrations. The instrument is extremely useful to clean air in closed rooms such as in hospitals, schools, etc. and prevent the spread of airborne diseases

Development of universal fabric dyeing and adhesion through RF glow discharge plasma treatment

Various dyeing techniques are utilised at dyeing different types of fabrics and current study discuss the possibility of using a single dye bath for the given purpose. The current study utilised a radio frequency glow discharge plasma source maintained at near atmospheric conditions (around 200 mbar) in nitrogen and air environments to treat cotton, nylon, and polyester fabrics. Similar surface modifications produced in all three types of fabrics by OH and O radicals tailoring them more sensitive to certain dyes and glues. SEM images verified that bulk material is well protected by plasma treatment and the presence of additional surface functionalities (hydroxyl, carboxylic, and carbon-nitrogen groups) on the treated fabric surfaces were determined by FTIR and XPS analysis. The plasma-treated samples were dyed in a single dye bath using a reactive dye under atmospheric neutral conditions and a significant enhancement in fabric dyeability (cotton- 124%, nylon- 61%, polyester- 38%) was observed. PVA glue was used for fastening the fabric samples and the adhesion was analysed through tensile measurement. Well improved adhesion capabilities (148%, 95%, and 57.3% respectively for cotton, nylon, and polyester) also confirm the advantages of RF glow discharge plasma treatment for unified fabric processing

The electrochemical performance of various NiCo<inf>2</inf>O<inf>4</inf> nanostructures in hybrid supercapacitors: Investigating the impact of crystalline defects

Binary metal oxides exhibit a compelling combination of features that make them highly attractive electrode materials for supercapacitors. Herein, a facile hydrothermal method is employed for the preparation of defect-rich hierarchical nanostructured NiCo2O4 with various morphologies, including urchin-like nanostructure, nanoflowers, and 2D nanosheets; and their electrochemical performances as electrodes for hybrid supercapacitor are studies. Notably, the supercapacitor based on the urchin-like nanostructure with high oxygen vacancies delivers a high gravimetric energy density of 45.2 Wh/kg at the power density of 750 W/kg, maintaining remarkable cycling stability. The electrode exhibits specific capacitance of 423.9 and 292.0 F/g at the current density of 1.5 and 7.5 A/g, respectively, with high capacitive retention of ≈ 94 % after 1500 cycles. Crystalline defects identified in nanostructured NiCo2O4 are suggested to significantly contribute to the high ionic/electrical conductivity and the electrochemical stability of the electrodes

Assessment of the association between yield parameters and polymorphic sites of the <i>Ghd7</i> locus in a core-set of rice cultivars grown in Sri Lanka

Yield improvement is a major aspect in rice breeding programs. Ghd7 is a pleiotropic gene which regulates yield, plant height, and heading date in rice. Although Ghd7 has been previously cloned and sequenced in several other rice cultivars, none of the studies have been conducted for Sri Lankan rice germplasm. Therefore, in this study, we assessed the yield performance of 12 rice cultivars, genetic polymorphism of Ghd7 locus and associations between DNA markers and yield traits. Breeder seeds of the selected cultivars were obtained from RRDI, Bathalagoda, and established under greenhouse conditions at Peradeniya, Sri Lanka in Maha and Yala seasons, 2017. The cultivars were subjected to morphometric analysis, genotyped for 12 DNA markers and sequenced at Seq7-8 locus. Morphometric data were subjected to single marker analysis using General Linear Model (GLM) in SAS 9.4. Here we reported six marker haplotypes based on the arrangement of 13 DNA maker alleles at Ghd7. Moreover, twenty-three SNP/INDEL variations at Seq7-8 locus revealed close genetic relationships between the rice cultivars Bg 90-2, Bg 352 and At 307, Bg310. Four polymorphic markers (Seq7-8, Seq1-2, RM5436 and RM5346) were significantly associated with rice yield traits so that they could be used in marker assisted selection. The SNPs/INDELs of Ghd7 were significantly associated with all the yield traits except 100 seed weight and 100 endosperm weight. Thus the present study demonstrate the possibility of employing marker assisted breeding to improve rice yield using the polymorphic genomic information at Ghd7 locus