Browse Items (16481 total)

• Article

  Significance of variable fluid properties on hybrid nanoliquid flow in a micro-annulus with quadratic convection and quadratic thermal radiation: Response surface methodology

  Many engineering and manufacturing processes such as heat storage systems, nuclear power plants, and heat exchangers operate at high temperatures. The temperature gradient in these systems is significantly large so that the transport properties of the fluid are significantly influenced. In such cases considering the constant thermophysical properties for ambient liquid and adopting linear Boussinesq approximation become insignificant. Therefore, in this study, the quadratic convective flow of water-based Ag-MgO hybrid nanoliquid in a micro-annulus with variable viscosity and thermal conductivity is investigated under the temperature jump and velocity slip auxiliary conditions. The effects of quadratic Boussinesq approximation and quadratic Rosseland radiative heat are also addressed. The correlation for effective viscosity and thermal conductivity are modeled by employing the experimental work of Esfe and his collaborators (so-called Esfe Model). The nonlinear dimensionless governing equations are solved numerically using the finite difference method. Further, the sensitivity analysis using response surface methodology (RSM) is performed to enhance the understanding of heat transport behavior. The significance of various flow parameters involving in the current problem is analyzed through 2D and 3D-surface plots. This study portrays that the consequence of quadratic convection, velocity slip, and variable viscosity aspects are positively related to the growth of the momentum layer structure. The heat transport rate is found to be more dominated by quadratic radiation compared to the addition of nanoparticles and temperature variation aspect. The variable viscosity, quadratic convection, and quadratic thermal radiation mechanisms lead to higher skin friction. The thermal layer structure augments with the temperature variation aspect. Furthermore, the sensitivity of the Nusselt number to the addition of nanoparticles and quadratic radiation is always positive. 2021 Elsevier Ltd
• Article

  SIGNIFICANT DIFFERENCE, CULTURAL DISTANCE, AND CULTURAL HUMILITY IN CHILDRENS MEDIA RESEARCH

  The study of children, adolescents, and media (CAM) places a special emphasis on the welfare of young audiences and the media that socially, culturally, and historically constructs their identity, knowledge, and understanding of themselves and the world around them. CAM scholars form a legion of worriers and warriors focused on making the world a better place for children to live and learn (Jordan, 2021, p. 147). This legion spans the world, embodying the three traditional realms of media studies (audience, texts, and institutions) as a microcosm of media studies (Lemish, 2015, p. 1) and crosses disciplinary, theoretical, and empirical boundaries. As such, CAM scholarship can sometimes be difficult to find since it is often located in many different disciplinary journals and books as well as in proprietary industry reports. Lemish (2019) spoke of her journey in finding a home for her childrens media research and calls for the need for deeper internationalization of CAM that can account for the variance of childrens lives and the structural forces that shape the market and content of childrens media. This special issue contributes to this vision and highlights CAM research produced outside of a Western, educated, industrialized, rich and democratic (WEIRD) society (Jordan & Prendella, 2019). Moreover, it allows for a space to reflect on CAM scholarship as a whole and future directions for consideration. Lets explore some of the limitations in existing childrens media research and ways in which international collaboration can help to mediate some of these concerns. (2023). All Rights Reserved.
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  Mphil

  Signless Laplacian Energy of Graphs

• Article

  Silence, like cancer, grows

  Can art and literature really be apolitical?
• Article

  Silenced, Scarred & Shattered: Unmasking the Wounds of Child Sexual Abuse in Select American Memoirs

  The research brings to light the marginalized voices of three American women who have written about their sexual abuse in their respective memoirs Roxane Gay, Hunger: A Memoir of my Body (2017), Nikki Dubose, Washed Away: From Darkness to Light (2016) and Neesha Arter Controlled: The worst Night of my Life and its Aftermath (2015). Using these memoirs as primary data and using thematic analysis the study identified three themes which were further classified into different subthemes. Firstly, the research discovered the challenges faced by the survivors in expressing and communicating about sexual abuse due to fear and shame, the survivors do not come forward because of threats, because of rape stereotypes that permeate the society and the fear of what parents and others might think. Secondly, the research explores the various impact of trauma that is caused by sexual abuse which include shame, guilt and self blame, unworthy self, uncontrollable rage, disruption of safety and trust, isolating themselves from everyone, hostility towards body, destructive behaviours which include eating disorder from Anorexia Nervosa to Binge eating disorder, it also includes self harm and substance abuse. Thirdly, the research focuses on the recovery aspect on how the survivors learn to live with the wounds caused by sexual abuse. It focuses on how the survivors came in terms with the abuse, the conflicting feelings of forgiveness and revenge and how they sought redemption through writing their journey. 2025 Sciedu Press. All rights reserved.
• Article

  Silenced, Scarred & Shattered: Unmasking the Wounds of Child Sexual Abuse in Select American Memoirs

  The research brings to light the marginalized voices of three American women who have written about their sexual abuse in their respective memoirs Roxane Gay, Hunger: A Memoir of my Body (2017), Nikki Dubose, Washed Away: From Darkness to Light (2016) and Neesha Arter Controlled: The worst Night of my Life and its Aftermath (2015). Using these memoirs as primary data and using thematic analysis the study identified three themes which were further classified into different subthemes. Firstly, the research discovered the challenges faced by the survivors in expressing and communicating about sexual abuse due to fear and shame, the survivors do not come forward because of threats, because of rape stereotypes that permeate the society and the fear of what parents and others might think. Secondly, the research explores the various impact of trauma that is caused by sexual abuse which include shame, guilt and self blame, unworthy self, uncontrollable rage, disruption of safety and trust, isolating themselves from everyone, hostility towards body, destructive behaviours which include eating disorder from Anorexia Nervosa to Binge eating disorder, it also includes self harm and substance abuse. Thirdly, the research focuses on the recovery aspect on how the survivors learn to live with the wounds caused by sexual abuse. It focuses on how the survivors came in terms with the abuse, the conflicting feelings of forgiveness and revenge and how they sought redemption through writing their journey. 2025 Sciedu Press. All rights reserved.
• Article

  Silent Battles of Indian Women: Womanhood, Fertility, and the Weight of PCOS

  Introduction: Polycystic ovary syndrome (PCOS) is a multifaceted, complex endocrine condition affecting many women worldwide, with increased prevalence in South Asian nations, including India. Though biomedical consequences such as irregular menses, infertility, and insulin resistance are well established, the psychological and social aspects of PCOS are not well understood, especially where femininity is equated with reproduction and physical beauty. Method: This qualitative research examines the PCOS lived experience of eight Indian women. A narrative method was employed, with semistructured interviews used to capture participants individual experiences from diagnosis through treatment and psychosocial adjustment. Results: Five Global themes, 15 organizing themes, and 36 subthemes were identified through thematic analysis. The global themes identified are as follows: (1) PCOS Awareness and DiagnosisDelays and misinformation during diagnosis. (2) Living with PCOSDaily struggles with physical and emotional symptoms. (3) Coping and Seeking SupportReliance on family, friends, and online communities. (4) The Healthcare ExperienceMixed interactions with medical professionals and systemic gaps. (5) Cultural Expectations and IdentityThe impact of gender norms on self-image and social roles. Conclusion: These results highlight the pressing need for culturally responsive, multidisciplinary models of PCOS treatment that tackle the physical manifestations, psychosocial and sociocultural weights experienced by women. The research adds to an expanding literature on chronic disease and gendered health in the Global South, calling for a more holistic view of women's health. The Author(s) 2026
• Article

  Silent subversions and negotiations: An interview with a married effeminate man in the MSM community

  Shambu is a member of staff at the MSM branch of a non-profit organisation in urban Bangalore, India, who works on HIV/STI awareness and prevention. His daily life is a careful balance between family responsibilities, his job, multiple sexual partners and sex work. This piece shares Shambus reflections on his early experiences with sexuality, his engagement in cruising sites, gender performance, engagement with male sex workers, non-consensual sex and the financial realities that shape his life, including his involvement in activism. Defying rigid identity boundaries and societal expectations, he openly discusses his relationships with both men and his wife while expressing a desire to be transgender. He recalls a significant relationship with a man he called his panthi, marked by an intricate dynamic of emotions, sex, dominance, economic exchange and silence. His narrative offers a nuanced exploration of identity, gender, sexuality, activism, consent, morality and economic survival in Bangalore. It defies the hegemonic structure of society by challenging the binary construction of gender and sexuality. 2025 The Author(s)
• Book Chapter

  Silicene and Germanene for Biosensing and Imaging Application

  The discovery of two-dimensional materials creates an immense effect in the field of biomedicine especially in sensing applications. Silicene and germanene are group 14 elements, analogs of graphene. Several experiments and theoretical information have proven the excellent properties of silicene and germanene as semiconductors, capacitors, photocatalysts, and sensors. Computational and other studies show the ability of these two-dimensional materials in biosensing applications. These graphene analogs have fascinating characteristics there are no band gaps in the semiconductors which leads to a lack of stability and is liable to oxidation. Since there is an essentiality of band gap for biosensing applications which can be corrected by making some modifications in these analogs using certain metal substrates. In this chapter, we will summarize silicene and germanene elements, their various properties and their applications in biosensing and bioimaging. This suggests silicene and germaneneas promising nanoelements for the evolution of new electronic equipment for biosensing and other uses in future. 2025 Scrivener Publishing LLC.
• Book Chapter

  Silicene and Germanene for Biosensing and Imaging Application

  The discovery of two-dimensional materials creates an immense effect in the field of biomedicine especially in sensing applications. Silicene and germanene are group 14 elements, analogs of graphene. Several experiments and theoretical information have proven the excellent properties of silicene and germanene as semiconductors, capacitors, photocatalysts, and sensors. Computational and other studies show the ability of these two-dimensional materials in biosensing applications. These graphene analogs have fascinating characteristics there are no band gaps in the semiconductors which leads to a lack of stability and is liable to oxidation. Since there is an essentiality of band gap for biosensing applications which can be corrected by making some modifications in these analogs using certain metal substrates. In this chapter, we will summarize silicene and germanene elements, their various properties and their applications in biosensing and bioimaging. This suggests silicene and germaneneas promising nanoelements for the evolution of new electronic equipment for biosensing and other uses in future. 2025 Scrivener Publishing LLC.
• Article

  SILICON DEPLETION in the INTERSTELLAR MEDIUM

  We report interstellar silicon (Si) depletion and dust-phase column densities of Si along 131 Galactic sight lines using archival observations. The data were corrected for differences in the assumed oscillator strength. This is a much larger sample than previous studies but confirms the majority of results, which state that the depletion of Si is correlated with the average density of hydrogen along the line of sight ( (H) as well as the fraction of hydrogen in molecular form ( f(H2)). We also find that the linear part of the extinction curve is independent of Si depletion. Si depletion is correlated with the bump strength (c3/RV) and the FUV curvature (c4/RV) suggesting that silicon plays a significant role in both the 2175 bump and the FUV rise. 2016. The American Astronomical Society. All rights reserved.
• Book Chapter

  Silicon photonic modulators for high-speed applications-a review

  [No abstract available]
• Article

  Silver decorated copper coordination polymer for the electroreduction of CO2 to hydrocarbon liquid fuels

  Recently, the development of bimetallic interfaces has emerged as a promising strategy for enhancing electrocatalytic CO2 electroreduction (CO2ER) efficiently, with selectivity towards energy-dense hydrocarbons. In this study, we report an electrochemically designed silver-decorated copper-dimercapto thiadiazole modified carbon electrode (Ag@Cu-DM), which facilitates a controlled transition from C1to C2liquid products. The optimized electrochemical synthesis method enabled precise control over the polymer-metal interface, promoting strong electronic interactions and charge transfer. The multiple characterizations conducted for the material revealed distinct lattice fringes corresponding to well-defined Cu and Ag phases. The interplay between Cu and Ag, along with the heteroatoms present within the polymer enhances CO2 activation and intermediate stabilization. The developed Ag@Cu-DM catalyst achieved 89 % F.E. for liquid products alone at a low potential of -0.73 V vs RHE and also demonstrated stable electrolysis for upto 8 Hr. 2025 Elsevier Ltd. All rights reserved.
• Article

  Silvergraphene composite: a coating on polyethersulfone membrane for superior water purification with antibacterial, catalytic and antifouling properties

  Membrane fouling, originating from a diverse range of sources such as organic matter, inorganic particulates, biological agents, and industrial contaminants, continues to pose a significant challenge in water purification processes. This fouling results from complex nonspecific interactions between the membrane surface and foulants, leading to a substantial decline in filtration performance, including reduced permeability, selectivity, and operational lifespan. To address these limitations, there is an urgent need to engineer advanced membranes with integrated antibacterial, catalytic, and antifouling functionalities to enable efficient and sustainable water treatment. In this context, we developed an innovative approach to mitigate membrane fouling of polyethersulfone (PES) membrane by coating with silver-decorated reduced graphene oxide (rGO). This coating imparts exceptional antibacterial efficacy, catalytic dye degradation properties, antifouling performance and remarkable filtration capacity to the PES membrane. The antibacterial assessments conducted against Staphylococcus aureus (S. aures) and Escherichia coli (E. coli) bacteria revealed that increasing concentrations of silver in rGO composites resulted in a pronounced inhibitory effect on bacterial growth, with the most significant activity observed for membranes with higher silver loadings (rGO A500). Moreover, catalytic studies performed on the rGO A500 membrane emphasize the degradation of Congo Red, Methyl-Orange, and as well as the conversion of Nitrophenol to Aminophenol, occurring within 46min, 25min, and 23min, respectively. Furthermore, the rGO A500 membrane exhibits notable antifouling properties, evidenced by a flux recovery ratio of 98% and a minimal irreversible fouling ratio of 1.7% during Bovine Serum Albumin (BSA) protein filtration. Additionally, the composite membrane demonstrates an impressive water flux of 50 L m?2h?1 along with dye rejection efficiency of 92% for Congo Red, 86% for Rhodamine-B, and 81% for Methylene Blue. Overall, the findings underscore the multifunctional performance of the rGO A500 composite membrane, showcasing its antibacterial, catalytic and antifouling capabilities, and positioning it as a robust and practical solution for next-generation wastewater treatment technologies. The Author(s), under exclusive licence to Springer-Verlag GmbH Germany, part of Springer Nature 2025.
• Conference Paper

  Similarity Analysis for Citation Recommendation System using Binary Encoded Data

  Citations are a crucial part of an academic dissertation, project or scientific work. The most time-consuming task for any scholar is to find suitable citations for any work. Thus, a convenient citation recommendation system provides completeness and fulfillment for citing the giants' works. Moreover, attaining high quality for any citation recommendation system is challenging as it should not only recommend relevant papers but also should match the context of the paper. An advanced algorithm SABED (Similarity Analysis using Binary Encoded Data) has been proposed that converts text metadata of the article like author name, doi of the paper, keywords, abstract and content of the paper into the binary format and is fired into the database. The binary formatted query fired fetches the accurate matches thereby increasing the accuracy of search probability and similarity analysis. This similarity analysis can be further used to provide recommendations to the users. The proposed system concentrates on the similarity of the content and hence the context of the papers is not taken into consideration. 2020 IEEE.
• Article

  Similarity analysis of court judgements using association rule mining on case citation data-a case study

  Information Retrieval System (IRS) is an automated mechanism of retrieving required information from a collection of unstructured or semi-structured data. IRS reduces the efforts of identifying the required information from an enormous database. Legal domain is one of the major producers of complex information which consist of semi-structured and unstructured data. Knowledge based legal information systems are revolutionizing all processes involved in this domain and hence need for more effective legal knowledge management approaches are increasing. This paper proposes association rule mining as knowledge extraction technique that can be used effectively for analyzing relatedness of documents in legal domain. Through this work, authors present their efforts in analyzing similarity in legal documents from the citations done in court judgement by applying Association rule mining. International Research Publication House.
• Article

  Simple and Efficient Amberlite 15-catalyzed Synthesis of Dihydroquinazolinones

  Abstract: The Amberlite 15 catalyzed synthesis of substituted 2,3-dihydroquinazolin-4(1H)-ones was reported. The reaction conditions were optimized by screening in different solvents and catalysts. The substrate scope of the reaction was also studied, and a plausible mechanism for the reaction was proposed. 2020, Pleiades Publishing, Ltd.
• Article

  Simulating online and offline tasks using hybrid cheetah optimization algorithm for patients affected by neurodegenerative diseases

  Brain-Computer Interface (BCI) is a versatile technique to offer better communication system for people affected by the locked-in syndrome (LIS).In the current decade, there has been a growing demand for improved care and services for individuals with neurodegenerative diseases. To address this barrier, the current work is designed with four states of BCI for paralyzed persons using Welch Power Spectral Density (W-PSD). The features extracted from the signals were trained with a hybrid Feed Forward Neural Network Cheetah Optimization Algorithm (FFNNCOA) in both offline and online modes. Totally, eighteen subjects were involved in this study. The study proved that the offline analysis phase outperformed than the online phase in the real-time. The experiment was achieved the accuracies of 95.56% and 93.88% for men and female respectively. Furthermore, the study confirms that the subjects performance in the offline can manage the task more easily than in online mode. The Author(s) 2025.
• Article

  Simulation and Experimental Analysis of L-Section in Reinforced Cement Concrete: Uncertainties in Performance and Strength

  The design and construction of reinforced cement concrete (RCC) flooring play a crucial role in the overall stability of a structure, particularly in regions prone to tectonic activity. RCC floors comprise various beams, including intermediate T-sections and specific L-sections at critical points such as corners and around staircases or lift openings. This paper identifies a key challenge in building frameworks to resist tectonic loads. It further explores the components of the structure that provide potential for interruption, capability, and the safe transfer of tectonic loading to the array connection, all while maintaining sufficient strength. The L-sections were experimented on using various grades of concrete and sizes to reinforce connections under diverse loading conditions. L-sections contribute to reducing floor height, solving economic and technical problems, and creating advanced composite connections that integrate the proposed structural system. The analysis was conducted both analytically and experimentally to assess methods to resist earthquake forces based on stiffness, building strength, and elasticity capacity. These approaches have been identified to safeguard buildings during substantial seismic events. The development of the L-section is detailed, highlighting the loading process and the capacity to overcome various structural challenges. 2024 by the authors. Licensee MDPI, Basel, Switzerland.
• Article

  Simulation and fabrication of tungsten oxide thin films for electrochromic applications

  Electrochromics is the emerging technology that is used in sunlight control window glazing for buildings, automobiles and it can also control indoor climate through smart windows. Electrochromism is the mutable change in optical properties of an electrochromic material caused by redox reactions due to the application of voltage. Easy intercalating the H + ions on a dense electrochromic material (WO3) is the most important parameter as far as the reaction kinetics is concerned. The goal of our work is to improve the electrochemical response of electrochromic material by constructing nano-pillars rather than using dense electrochromic materials. Electrochemical performance of both the dense (planar) and porus (nano pillars) structures were simulated and experimentally proved with a systematic discussion in the present work. It is proven and shown here the increase in the electrochemical kinetics through easy diffusion of ions into the nanostructured electrochromic material. 2022 Elsevier B.V.