Your search keyword '"Siva, V."' showing total 266 results

251. A High-Performance Supercapacitor Based on Hierarchical Template-Free Ni/SnO 2 Nanostructures via Hydrothermal Method.

Author

Shameem AS, Murugan A, Siva V, Palanisamy G, Kim I, Lee J, and Paramasivam S

Abstract

Novel flake-like Ni 1-x Sn x O 2 particles were successfully prepared by template-free hydrothermal synthesis. The prepared samples were investigated for their properties by different characterization techniques. Scanning micrographs showed that the obtained particles consisted of nanoflakes. The X-ray diffraction results of the Ni 1-x Sn x O 2 revealed the formation of mixed-phase Ni/SnO 2 having the typical tetragonal structure of SnO 2, and the cubic structure of Ni in a nanocrystalline nature. The doping with Ni had a certain influence on the host's lattice structure of SnO 2 at different doping concentrations. Confirmation of the functional groups and the elements in the nanomaterials was accomplished using FTIR and EDS analyses. The electrochemical performance analysis of the prepared nanomaterials were carried out with the help of the CV, GCD, and EIS techniques. The specific capacitance of the synthesized nanomaterials with different concentrations of Ni dopant in SnO 2 was analyzed at different scanning rates. Interestingly, a 5% Ni-doped SnO 2 nanocomposite exhibited a maximum specific capacitance of 841.85 F g -1 at 5 mV s -1 in a 6 M KOH electrolyte. Further, to boost the electrochemical performance, a redox additive electrolyte was utilized, which exhibited a maximum specific capacitance of 2130.33 at 5 mV s -1 and an excellent capacitance retention of 93.22% after 10,000 GCD cycles. These excellent electrochemical characteristics suggest that the Ni/SnO 2 nanocomposite could be utilized as an electrode material for high-performance supercapacitors.

Published

2024

252. Synthesis and Spectroscopic Characterization of Schiff Base Metal Complexes, Biological Activity, and Molecular Docking Studies.

Author

Venkatesh G, Vennila P, Kaya S, Ahmed SB, Sumathi P, Siva V, Rajendran P, and Kamal C

Abstract

New cobalt(II), copper(II), and zinc(II) Schiff metal complexes were synthesized by the condensation reaction of 4-nitrobenzene-1,2-diamine with 3-4-(diethylamino)-2-hydroxybenzaldehyde. Fourier transform infrared, nuclear magnetic resonance, ultraviolet-visible, electron paramagnetic resonance, and high-resolution electrospray ionization mass spectrometry and powder X-ray diffraction were used to characterize the synthesized H 2 L and its metal complexes. Conductance measurements, magnetic moment estimation, and metal estimation have all been determined and discussed. The electrochemical properties of the synthesized compounds have been determined and discussed using cyclic voltammetry. The molecular structures of H 2 L and its metal complexes have been optimized using the B3LYP functional and the 6-31G (d,p) basis set, and their parameters have been discussed. The quantum chemical properties of these synthesized compounds have been predicted through charge distribution and molecular orbital analysis. The biological properties of the synthesized compounds' antioxidant, antifungal, and antibacterial activity have been studied and discussed. Furthermore, H 2 L and its complexes have been docked with HER2-associated target proteins in breast cancer., Competing Interests: The authors declare no competing financial interest., (© 2024 The Authors. Published by American Chemical Society.)

Published

2024

253. Structural, surface morphological and dielectric studies of guanidinium salt incorporated poly (ethylene oxide)/poly (vinyl pyrrolidone) solid polymer electrolytes.

Author

Pradeep R, Siva V, Jothi MA, Murugan A, Shameem A, Sanjana S, Hemnath E, and G Al-Sehemi A

Abstract

The research article investigates the effect of incorporating the guanidinium carbonate (GuC) salt into the poly vinylpyrrolidone (PVP) and polyethylene oxide (PEO) polymer matrix. Various weight percentages of GuC enriched PVP/PEO solid polymer electrolytes (SPEs) have been prepared by the simplest solution casting process. XRD analysis revealed that the incorporation of the GuC salt led to changes in the crystalline structure of the PVP/PEO. FTIR analysis confirms the presence of guanidinium carbonate in the blended polymeric system. FESEM imaging showed the uniform and smooth surface view of the electrolytes. DSC analysis suggests that the addition of the GuC led to a decrease in the melting temperature and an increase in the crystallisation temperature. The temperature-dependent dielectric analysis showed that the presence of the organic salt led to an increase in the dielectric constant of the polymer blend. Among all the prepared electrolytes, 25 wt.% GuC added polymer electrolyte achieved a higher conductivity of 3.00764 × 10 -7  S/cm. Overall, the results of the study suggest that the incorporation of the GuC salt into the PVP/PEO can lead to significant changes in the structural, thermal, and dielectric properties of the blend. These findings have potential implications for the use of PVP/PEO blends in solid state battery applications., Competing Interests: The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (© 2023 Published by Elsevier Ltd.)

Published

2023

254. Theoretical insight on the optical centred electrical properties of guanidinium isophthalate NLO crystal for electro-optic Q switches.

Author

Era P, Jauhar RM, Kamalesh T, Prakash T, and Siva V

Abstract

Guanidinium isophthalate single crystals with dimensions 16 × 4 x 2 mm 3 were prepared by the low temperature solvent evaporation method and growth kinetics with interfacial tension was discussed to bring out the growth parameters of guanidinium isophthalate single crystals. The harvested single crystals were utilized for various characterization studies like powder X-ray diffraction, optical transmission, photoluminescence, laser damage study and optical limiting studies. The visualization of varying potential regions on the surfaces to quantify short contacts were generated by Hirshfeld surface analysis. 2D fingerprint plots were analyzed, in which H ….H contact was found to be the most significant with 54.1%. Growth kinetics of the crystalline material was studied to reveal the nucleation process. Crystal samples prepared with reference to the solubility data were found to be free of inclusions and cracks and had maximum transmittance in the complete visible region. The electronic disorder of the crystal sample was reported in the form of Urbach energy. The PL spectra with the emission intensity provide the emission characteristic of the title compound. The major fundamental optical limit for a crystal material is experimentally measured and presented in the picosecond regime. Thus the present work contributes to the understanding of growth, structural, optical and electronic characteristics of the title guanidinium isophthalate single crystals for the fabrication of electro-optic devices in photonic industry., Competing Interests: The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (© 2023 The Authors.)

Published

2023

255. CODE BLUE in a patient with tracheal stent: Are we fully equipped?

Author

Siva V and Satish A

Abstract

Competing Interests: There are no conflicts of interest.

Published

2023

256. Life in High Salt Concentrations with Changing Environmental Conditions: Insights from Genomic and Phenotypic Analysis of Salinivibrio sp.

Author

John J, Siva V, Richa K, Arya A, and Kumar A

Abstract

Life in salt pans with varying chemical compositions require special adaptation strategies at both the physiological and molecular level. The Marakkanam salt pan in South India is characterized with a high fluctuation in salinity (19-490 ppt), Ultravioletradiation, and heavy metal concentrations. Several bacterial species have been isolated and identified in the view of phylogenetic analysis and for the subsequent production of industrially important enzymes. However, limited information exists on the genomic basis of their survival under variable environmental conditions. To this extent, we sequenced the whole genome of the Salinivibrio sp. HTSP, a moderately halophilic bacterium. We analysed the physiological and genomic attributes of Salinivibrio sp. HTSP to elucidate the strategies of adaptation under various abiotic stresses. The genome size is estimated to be 3.39 Mbp with a mean G + C content of 50.6%, including 3150 coding sequences. The genome possessed osmotic stress-related coding sequences, and genes involved in different pathways of DNA repair mechanisms and genes related to the resistance to toxic metals were identified. The periplasmic stress response genes and genes of different oxidative stress mechanisms were also identified. The tolerance capacity of the bacterial isolates to heavy metals, UV-radiation, and salinity was also confirmed through appropriate laboratory experiments under controlled conditions.

Published

2019

257. Crystal structure and Hirshfeld surface analysis of 2-amino-pyridinium hydrogen phthalate.

Author

Siva V, Suresh M, Athimoolam S, and Asath Bahadur S

Abstract

Amino-pyridine and phthalic acid are well known synthons for supra-molecular architectures for the synthesis of new materials for optical applications. The 2-amino-pyridinium hydrogen phthalate title salt, C 5 H 7 N 2 + ·C 8 H 5 O 4 - , crystallizes in the non-centrosymmetric space group P 2 1 . The nitro-gen atom of the -NH 2 group in the cation deviates from the fitted pyridine plane by 0.035 (7) Å. The plane of the pyridinium ring and phenyl ring of the anion are oriented at an angle of 80.5 (3)° to each other in the asymmetric unit. The anion features a strong intra-molecular O-H⋯O hydrogen bond, forming a self-associated S (7) ring motif. The crystal packing is dominated by inter-molecular N-H⋯O hydrogen bonds leading to the formation of 2 1 helices, with a C (11) chain motif. They propagate along the b axis and enclose R 2 2 (8) ring motifs. The helices are linked by C-H⋯O hydrogen bonds, forming layers parallel to the ab plane. Hirshfeld surface analysis and two-dimensional fingerprint plots were used to investigate and qu-antify the inter-molecular inter-actions in the crystal., (© Siva et al. 2019.)

Published

2019

258. Symptomatic Idiopathic Spinal Epidural Lipomatosis in 9 Patients: Clinical, Radiologic, and Pathogenetic Features.

Author

Kellett CG, Siva V, Norman ICF, Jung J, Grahovac G, and Minhas P

Subjects

Adult, Aged, Cauda Equina Syndrome complications, Decompression, Surgical methods, Epidural Space surgery, Female, Follow-Up Studies, Humans, Laminectomy, Lipomatosis surgery, Magnetic Resonance Imaging, Male, Middle Aged, Pregnancy, Radiculopathy complications, Retrospective Studies, Spinal Cord Diseases complications, Spinal Diseases surgery, Treatment Outcome, Young Adult, Epidural Space diagnostic imaging, Epidural Space pathology, Lipomatosis diagnostic imaging, Lipomatosis pathology, Neurosurgical Procedures methods, Spinal Diseases diagnostic imaging, Spinal Diseases pathology

Abstract

Background: Symptomatic spinal epidural lipomatosis (SSEL) is characterized by hypertrophy of adipose tissue within the spinal canal and consequent neural compromise. The exact pathogenesis remains enigmatic. The authors describe a retrospective case series, define the full clinical spectrum, and discuss possible pathogenetic mechanisms., Methods: The medical notes and imaging of 9 patients with SSEL undergoing surgery from 2008-2018 were analyzed. Seven patients presented secondary to lumbosacral spinal epidural lipomatosis (SEL); 3 patients with chronic incomplete cauda equina syndrome (CES), 3 patients with acute CES (including a 25-week gravid patient and a 40-year-old patient with intravenous leiomyomatosis, both of whom had mild SEL) and 1 patient with chronic lumbar radiculopathy. In addition, 2 patients presented with progressive myelopathy secondary to thoracic SEL., Results: Patients presenting with acute CES had a mean age of 37 years (range 23-49 years) and mean extradural fat (EF)-to-spinal canal (SC) ratio of 47% (range 41%-58%), in comparison with patients with chronic CES; mean age 61 years (range 58-65 years) and EF:SC ratio 72% (range 65%-80%). Patients underwent laminectomy and resection of EF at compressive levels. All patients with CES experienced complete resolution of symptoms at follow-up (range 1-48 months)., Conclusions: The clinician should be astute to the radiologic features of SEL, particularly in patients presenting with CES in the absence of acute disk herniation. The outcome of patients with CES and SEL after surgery is excellent regardless of symptom duration. Venous impedance related to increased body mass index and EF deposition may play the predominant role in addition to mechanical compression in the pathogenesis of SSEL., (Crown Copyright © 2019. Published by Elsevier Inc. All rights reserved.)

Published

2019

259. Mapping the structural, electrical, and optical properties of hydrothermally grown phosphorus-doped ZnO nanorods for optoelectronic device applications.

Author

Siva V, Park K, Kim MS, Kim YJ, Lee GJ, Kim MJ, and Song YM

Abstract

The phosphorus-doped ZnO nanorods were prepared using hydrothermal process, whose structural modifications as a function of doping concentration were investigated using X-ray diffraction. The dopant concentration-dependent enhancement in length and diameter of the nanorods had established the phosphorus doping in ZnO nanorods. The gradual transformation in the type of conductivity as observed from the variation of carrier concentration and Hall coefficient had further confirmed the phosphorus doping. The modification of carrier concentration in the ZnO nanorods due to phosphorus doping was understood on the basis of the amphoteric nature of the phosphorus. The ZnO nanorods in the absence of phosphorus showed the photoluminescence (PL) in the range of the ultraviolet (UV) and visible regimes. The UV emission, i.e. near-band-edge emission of ZnO, was found to be red-shifted after the doping of phosphorus, which was attributed to donor-acceptor pair formation. The observed emissions in the visible regime were due to the deep level emissions that were aroused from various defects in ZnO. The Al-doped ZnO seed layer was found to be responsible for the observed near-infrared (NIR) emission. The PL emission in UV and visible regimes can cover a wide range of applications from biological to optoelectronic devices.

Published

2019

260. Enlarged Color Gamut Representation Enabled by Transferable Silicon Nanowire Arrays on Metal-Insulator-Metal Films.

Author

Kim YJ, Yoo YJ, Lee GJ, Yoo DE, Lee DW, Siva V, Song H, Kang IS, and Song YM

Abstract

Artificial structural colors arising from nanosized materials have drawn much attention because of ultrahigh resolution, durability, and versatile utilizations compared to conventional pigments and dyes. However, the limited color range with current approaches has interrupted the supply for upcoming structural colorimetric applications. Here, we suggest a strategy for the widening of the color gamut by linear combination of two different resonance modes originating from silicon nanowire arrays (Si NWAs) and metal-insulator-metal nanoresonators. The enlarged color gamut representations are simply demonstrated by transferring Si NWAs embedded in a flexible polymer layer without additional treatment/fabrication. Optical simulation is used to verify the additive creation of a new resonance dip, without disturbing the original mode, and provides "predictable" color reproduction. Furthermore, we prove that the proposed structures are applicable to well-known semiconductor materials for various flexible optical devices and other colorant applications.

Published

2019

261. Reflective color filter with precise control of the color coordinate achieved by stacking silicon nanowire arrays onto ultrathin optical coatings.

Author

Song HS, Lee GJ, Yoo DE, Kim YJ, Yoo YJ, Lee DW, Siva V, Kang IS, and Song YM

Abstract

The engineering of structural colors is currently a promising, rapidly emerging research field because structural colors of outstanding spatial resolution and durability can be generated using a sustainable production method. However, the restricted and saturated color range in micro/nano-fabricated structural 'pigments' has hindered the dissemination of structural color printing. Here, this article presents a spectral mixing color filter (SMCF), which is the concept of fine-tunable color systems, capable of addressing the current issues in structural color engineering, by stacking a vertical silicon nanowire array embedded in a transparent polymer onto ultrathin optical coating layers. These two photonic structures enable independent tuning the optical resonance of each structure, depending on geometrical parameters, such as the diameter of nanowires and thickness of absorbing medium. Hence, the SMCF facilitates the linear combination of two resonant spectra, thereby enabling fine-tuning and widening of the color gamut. Theoretical studies and experimental results reveal the detailed working mechanisms and extraordinary mechanical feature of the SMCF. Based on the analyses, the concept of flexible optical device, e.g., a reflective anti-counterfeiting sticker, is demonstrated. Successful characterization demonstrates that the proposed strategy can promote the color controllability/purity of structural color and the applicability as flexible optical device.

Published

2019

262. A study of electron and thermal transport in layered titanium disulphide single crystals.

Author

Suri D, Siva V, Joshi S, Senapati K, Sahoo PK, Varma S, and Patel RS

Abstract

We present a detailed study of thermal and electrical transport behavior of single crystal titanium disulphide flakes, which belong to the two dimensional, transition metal dichalcogenide class of materials. In-plane Seebeck effect measurements revealed a typical metal-like linear temperature dependence in the range of 85-285 K. Electrical transport measurements with in-plane current geometry exhibited a nearly T 2 dependence of resistivity in the range of 42-300 K. However, transport measurements along the out-of-plane current geometry showed a transition in temperature dependence of resistivity from T 2 to T 5 beyond 200 K. Interestingly, Au ion-irradiated TiS 2 samples showed a similar T 5 dependence of resistivity beyond 200 K, even in the current-in-plane geometry. Micro-Raman measurements were performed to study the phonon modes in both pristine and ion-irradiated TiS 2 crystals.

Published

2017

263. The economic burden of tuberous sclerosis complex in UK patients with renal manifestations: a retrospective cohort study in the clinical practice research datalink (CPRD).

Author

Kingswood JC, Nasuti P, Patel K, Myland M, Siva V, and Gray E

Subjects

Adolescent, Adult, Aged, Child, Child, Preschool, Databases, Factual, Female, Humans, Male, Middle Aged, Retrospective Studies, United Kingdom, Young Adult, Biomedical Research, Cost of Illness, Renal Insufficiency, Chronic, Tuberous Sclerosis economics

Abstract

Background: Tuberous sclerosis complex (TSC) is a multi-system genetic disorder in which renal manifestations occur in ∼50% of children and 80% of adults. Since these often present alongside other manifestations, renal TSC is likely to incur significant costs. This study aims to quantify healthcare resource use (HCRU) and costs for renal TSC patients in the UK., Methods: TSC patients in the Clinical Practice Research Datalink (CPRD) linked to Hospital Episodes Statistics were identified from January 1987-June 2013. Clinical data were extracted over the entire history and costs were reported over the most recent 3-year period. HCRU was compared with a matched comparator cohort. Incremental costs were reported and the key cost drivers by primary manifestation category were identified by regression modeling., Results: A total of 79 renal TSC patients were identified with manifestations including chronic kidney disease stage 3-5 (with prevalence increasing with age) and renal angiomyolipoma. Renal TSC patients consistently reported greater HCRU than the comparator. Inpatient hospitalizations were more frequent for renal TSC patients (3.2 vs 1.6), but length of stay was comparable; however, 70.9% of renal TSC patients recorded no kidney-related procedures ever and averaged <1 test per year in the 3-year period. Average costs for renal TSC patients were nearly 3-fold greater than the comparator (£15,162 vs £5672). Costs increased with additional manifestation categories (£3600: only renal; £27,531: renal with ≥4 additional manifestation categories [25% of patients]). Additional nervous system and dermatology/psychiatric manifestations significantly (p < 0.028) affected costs., Conclusions: Renal TSC patients have greater HCRU than the general CPRD population, likely to result from progression of renal disease and additional manifestations; however, surveillance for disease progression appears to be deficient. Inadequate monitoring may contribute to a lack of co-ordinated care and increased healthcare-associated costs. Efforts should be made to follow the TSC guidelines to effectively monitor and treat patients.

Published

2016

264. Ion induced dewetting of Au-Si on a SiO 2 surface: composite nanodot evolution and wettability transition.

Author

Datta DP, Siva V, Varma S, Kanjilal D, and Sahoo PK

Abstract

A nanodot array morphology gradually develops on SiO 2 surface when a thin bi-layer of Au and Si undergoes ion irradiation. An increasing amount of gold silicide is detected as islands on the insulator surface evolve into nanodots as a function of increasing ion fluence. Different stages of evolution from islands to nanodots are found to be driven by the localized melting of Au along the ion-track and dewetting of the metal film. Dewetting is accompanied by sputter-erosion and mixing of Au and Si at the bi-layer interface due to ion energy deposition. Interestingly, a gradual transition in wettability of the surface from the hydrophilic to the hydrophobic one is observed with the growth of nanodots, which is correlated with the compositional variation. The experimental results indicate a route towards the controlled growth of composite nanodots on an insulator surface having hydrophobic properties using ion irradiation.

Published

2016

265. Rugoscopy: Human identification by computer-assisted photographic superimposition technique.

Author

Mohammed RB, Patil RG, Pammi VR, Sandya MP, Kalyan SV, and Anitha A

Abstract

Background: Human identification has been studied since fourteenth century and it has gradually advanced for forensic purposes. Traditional methods such as dental, fingerprint, and DNA comparisons are probably the most common techniques used in this context, allowing fast and secure identification processes. But, in circumstances where identification of an individual by fingerprint or dental record comparison is difficult, palatal rugae may be considered as an alternative source of material., Aim: The present study was done to evaluate the individualistic nature and use of palatal rugae patterns for personal identification and also to test the efficiency of computerized software for forensic identification by photographic superimposition of palatal photographs obtained from casts., Materials and Methods: Two sets of Alginate impressions were made from the upper arches of 100 individuals (50 males and 50 females) with one month interval in between and the casts were poured. All the teeth except the incisors were removed to ensure that only the palate could be used in identification process. In one set of the casts, the palatal rugae were highlighted with a graphite pencil. All the 200 casts were randomly numbered, and then, they were photographed with a 10.1 Mega Pixel Kodak digital camera using standardized method. Using computerized software, the digital photographs of the models without highlighting the palatal rugae were overlapped over the images (transparent) of the palatal rugae with highlighted palatal rugae, in order to identify the pairs by superimposition technique. Incisors were remained and used as landmarks to determine the magnification required to bring the two set of photographs to the same size, in order to make perfect superimposition of images., Results: The result of the overlapping of the digital photographs of highlighted palatal rugae over normal set of models without highlighted palatal rugae resulted in 100% positive identification., Conclusion: This study showed that utilization of palatal photographs is highly viable. The photographic superimposition technique using Adobe Photoshop 8.0 software (used in this study for comparison of palatal rugae) was proved effective for human identification and can be used when ante-mortem data regarding palatal rugae is provided. This study also concluded that palatal rugae are highly individualistic and play an important role as a complementary method in personal identification.

Published

2013

266. Deworming/family planning project launched on estate.

Author

Siva V

Subjects

Asia, Asia, Southeastern, Demography, Developing Countries, Economics, Family Planning Services, Malaysia, Organizations, Population, Population Characteristics, Social Class, Socioeconomic Factors, Voluntary Health Agencies, Government Agencies, Health Planning, Poverty, Rural Population

Published

1979