Your search keyword '"Kotru, S."' showing total 24 results

1. Electrical behavior of Pb0.95La0.05Zr0.54Ti0.46O3 thin film based capacitors: Influence of space charge region.

Author

Kotru, S., Batra, V., and Harshan, V. N.

Subjects

*THIN film capacitors, *SPACE charge, *ELECTRIC properties of thin films, *STRAY currents, *SCHOTTKY effect, *ELECTRON work function, *ELECTRODES, *PERMITTIVITY

Abstract

We investigated the influence of space charge region (SCR) on the electrical properties of Pb0.95La0.05Zr0.54Ti0.46O3 (PLZT) thin film based capacitor structures. The metal/PLZT/Pt capacitors were prepared by using metal electrodes (Pt, Au, Al) of varying work function as top electrodes, and Pt as a bottom electrode. The SCR formed at the top interface between the PLZT film and the metal differs from each other in three capacitor structures. The results obtained from the hysteresis, dielectric, and leakage current measurements were analyzed to understand the variation in the electrical properties of the capacitors arising from the different SCRs formed at the interfaces. Among the three, the Pt/PLZT/Pt capacitor showed highest polarization and permittivity, and lowest FCC and coercive field. The Al/PLZT/Pt capacitor showed lowest polarization and permittivity, but higher coercive field and FCC. The leakage current increased with a decrease in work function of the top electrode. The Schottky conduction mechanism was found to be dominant in all the three capacitors. Both the photovoltaic parameters (short circuit photocurrent denisty and open circuit photovoltage) increased with the increase in work function of the top electrodes. These studies suggest the existence of wider SCR and higher space charge field at the top interface in the case of capacitor designed with an Al (or Au) top electrode as compared to the capacitor designed with a Pt top electrode. [ABSTRACT FROM AUTHOR]

Published

2018

2. Illumination effects on the ferroelectric and photovoltaic properties of Pb0.95La0.05Zr0.54Ti0.46O3 thin film based asymmetric MFM structure.

Author

Batra, V. and Kotru, S.

Subjects

*LIGHTING, *FERROELECTRIC devices, *PHOTOVOLTAIC cells, *THIN films, *POLARIZATION (Electricity)

Abstract

We report the effects of illumination on the ferroelectric and photovoltaic properties of the Pb0.95La0.05Zr0.54Ti0.46O3 (PLZT) thin film based asymmetric metal/ferroelectric/metal capacitor structure, using Au as a top electrode and Pt as a bottom electrode. Conductive-AFM (atomic force microscopy) measurements demonstrate the evolution of charge carriers in PLZT films on illumination. The capacitance-voltage, the polarization-electric field, and the leakage current-voltage characteristics of the asymmetric Au/PLZT/Pt capacitor are discussed under dark and illuminated conditions. The light generates charge carriers in the film, which increase the coercive field and net remnant polarization and decrease the capacitance. The leakage current of the capacitor increases by an order of magnitude upon illumination. The leakage current data analyzed to study the conduction mechanism shows that the capacitor structure follows the Schottky emission “1/4” law. The illuminated current density-voltage curve of the capacitor shows non-zero photovoltaic parameters. An open circuit voltage (Voc) of -0.19V and a short circuit current density (Jsc) of 1.48 lA/ cm2 were obtained in an unpoled film. However, after positive poling, the illuminated curve shifts towards a higher voltage value resulting in a Voc of -0.93 V. After negative poling, the curve shows no change in the Voc value. For both poling directions, the Jsc values decrease. The photocurrent in the capacitor shows a linear variation with the incident illumination intensity. [ABSTRACT FROM AUTHOR]

Published

2017

3. Preparation and electrical properties of ferroelectric SbSI films by pulsed laser deposition

Author

Surthi, S., Kotru, S., and Pandey, R. K.

Published

2003

4. Pulsed laser-deposited ilmenite–hematite films for application in high-temperature electronics

Author

Zhou, F., Kotru, S., and Pandey, R.K.

Published

2002

5. Infrared Spectroscopy of Epitaxial Antimony Sulpho Iodide Thin Films

Author

Kotru, S., Surthi, S., Pandey, R. K., and Donnelly, D.

Published

2001

6. Materials Characterization and Device Performance of a CMR-Ferroelectric Heterostructure

Author

Surthi, S. R., Kotru, S., and Pandey, R. K.

Published

2001

7. Electrical behavior of Pb0.95La0.05Zr0.54Ti0.46O3 thin film based capacitors: Influence of space charge region

Author

Kotru, S., primary, Batra, V., additional, and Harshan, V. N., additional

Published

2018

8. Illumination effects on the ferroelectric and photovoltaic properties of Pb0.95La0.05Zr0.54Ti0.46O3 thin film based asymmetric MFM structure

Author

Batra, V., primary and Kotru, S., additional

Published

2017

9. Damage detection and identification in smart structures using SVM and ANN

Author

Farooq, M., primary, Zheng, H., additional, Nagabhushana, A., additional, Roy, S., additional, Burkett, S., additional, Barkey, M., additional, Kotru, S., additional, and Sazonov, E., additional

Published

2012

10. Numerical analysis for structural health monitoring of a damaged composite panel using PZT actuators and sensors

Author

Nagabhushana, A., primary, Spiegel, M., additional, Adu, S., additional, Hayes, N., additional, Paul, D., additional, Trivedi, K., additional, Fairbee, B., additional, Zheng, H., additional, Gerrity, A., additional, Kotru, S., additional, Roy, S., additional, Barkey, M., additional, and Burkett, S. L., additional

Published

2012

11. Observation of Side Bands Modulated Structure in FeTiO3-Mn2O3 Alloys

Author

Shamsuzzoha, M, primary, Srivastava, C, additional, Kale, P, additional, Periaswamy, P, additional, Kotru, S, additional, and Pandey, R, additional

Published

2011

12. Device Fabrication for Data Storage, Semiconductor and MEMS Applications at the University of Alabama Microfabrication Facility

Author

Gupta, S., primary, Highsmith, A., additional, Li, Xiao, additional, Tadisina, Z. R., additional, Brown, M. E., additional, Guenther, C. L., additional, Burkett, S., additional, and Kotru, S., additional

Published

2008

13. Improved ferroelectric property of LaNiO3∕Pb(Zr0.2Ti0.8)O3∕LaNiO3 capacitors prepared by chemical solution deposition on platinized silicon

Author

Han, H., primary, Zhong, J., additional, Kotru, S., additional, Padmini, P., additional, Song, X. Y., additional, and Pandey, R. K., additional

Published

2006

14. Design and Fabrication of a Meso-Scale Gyroscope.

Author

Kotru, S., Jian Zhong, Highsmith, A., and Jackson, J.E.

Published

2008

15. Improved ferroelectric property of LaNiO3/Pb(Zr0.2Ti0.8)O3/LaNiO3 capacitors prepared by chemical solution deposition on platinized silicon.

Author

Han, H., Zhong, J., Kotru, S., Padmini, P., Song, X. Y., and Pandey, R. K.

Subjects

METAL coating, COATING processes, SILICON, OXIDE electrodes, MICROELECTROMECHANICAL systems, FERROELECTRIC thin films, ELECTRIC equipment

Abstract

We report a technique to prepare top and bottom oxide electrodes of LaNiO3 (LNO) for lead zirconate titanate (PZT) films using a chemical solution deposition. LNO/PZT/LNO sandwich structures were prepared on platinized silicon by spin coating combined with rapid thermal annealing. Pt dots were sputtered on top of LaNiO3 film to serve as protective masks during etching of the uncovered LaNiO3 layer using dilute hydrochloric acid. For comparison, Pt/PZT/Pt capacitors were also prepared using the same processing conditions. Electrical measurements were carried out on both Pt/LNO/PZT/LNO/Pt and Pt/PZT/Pt structures. The remnant polarizations and coercive fields for these two capacitors are 17.4 and 21.4 μC/cm2, 71 and 81.5 kV/cm respectively at 5 V. The leakage current density for the Pt/LNO/PZT/LNO/Pt structure is about 1.38×10-6 A/cm2 at 5 V, which is lower than that of PZT deposited on Pt electrode. After 109 bipolar switching cycles, no significant change in remnant polarization was observed in the Pt/LNO/PZT/LNO/Pt capacitor, in comparison to the Pt/PZT/Pt capacitor which lost more than 50% of its original remnant polarization. [ABSTRACT FROM AUTHOR]

Published

2006

16. PLD growth of high vapor pressure antimony sulpho-iodide ferroelectric films for IR applications

Author

Kotru, S., primary, Liu, W., additional, and Pandey, R.K., additional

17. PLD growth of high vapor pressure antimony sulpho-iodide ferroelectric films for IR applications.

Author

Kotru, S., Liu, W., and Pandey, R.K.

Published

2000

18. Numerical analysis for structural health monitoring of a damaged composite panel using PZT actuators and sensors

Author

Nagabhushana, A., Spiegel, M., Adu, S., Hayes, N., Paul, D., Trivedi, K., Fairbee, B., Zheng, H., Gerrity, A., Kotru, S., Roy, S., Barkey, M., and Burkett, S. L.

Abstract

Reliable damage detection is crucial for assessing the integrity of a structure. In this paper, a numerical study of a composite panel fabricated to simulate a crack is undertaken using finite element methods (FEM). The damage to be considered is a transverse crack which pre-exists in the structure. The finite element models are developed for an undamaged and a damaged composite panel to compute the change in Lamb wave response due to the existence of a crack. The model is validated using shear lag analysis applied at the crack. The results are verified experimentally by comparing the results for an undamaged composite panel and a composite panel fabricated with a simulated crack using the vacuum assisted resin transfer molding (VARTM) process. The responses for each panel are obtained using surface mounted lead zirconate titanate (PZT) actuators and sensors. PZT is used to generate Lamb waves which produce stress throughout the panel thickness. Propagation characteristics of Lamb waves are varied by the presence of damage. The sensor data provide reliable information about the integrity of the structure. Numerical results are compared to the sensor output to ensure accuracy of the damage detection system.

Published

2012

19. Gene Expression Analysis in T2DM and Its Associated Microvascular Diabetic Complications: Focus on Risk Factor and RAAS Pathway.

Author

Jena L, Kaur P, Singh T, Sharma K, Kotru S, and Munshi A

Abstract

Prolonged hyperglycemic conditions in type 2 diabetes mellitus (T2DM) cause pathological and functional damage to many organs and tissues, including the kidneys, retina, skin, and neuronal tissues, resulting in the development of microvascular diabetic complications. The altered renin angiotensin aldosterone system (RAAS) pathway has been reported to play an important role in the development of insulin resistance in T2DM and associated complications. The current study was carried out to evaluate the association of risk factors and altered expression of RAAS genes in T2DM patients without complications and T2DM patients with complications (retinopathy, nephropathy, and neuropathy). Four hundred and twenty subjects including 140 healthy controls, 140 T2DM patients with diabetic complications, and 140 T2DM patients without diabetic complications were included in the study. Risk factors associated with the development of T2DM and diabetic complications were evaluated. Further, expression analysis of RAAS genes (AGT, ACE, ACE2, and AGT1R) was carried out using qRTPCR in healthy controls, T2DM patients with complications, and T2DM patients without complications. Various risk factors like urban background, higher BMI, alcoholism, smoking, and family history of diabetes among others were found to be associated with the development of T2DM as well as diabetic complications. The expression level of AGT, ACE, and AGT1R was found to be upregulated whereas ACE2 was found to be downregulated in T2DM patients with complications and T2DM patients without complications as compared to controls. Altered expression of the studied genes of RAAS pathway is associated with the development of microvascular diabetic complications., (© 2024. The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature.)

Published

2024

20. Role of miRNAs in diabetic neuropathy: mechanisms and possible interventions.

Author

Kaur P, Kotru S, Singh S, and Munshi A

Subjects

Humans, Insulin, Signal Transduction genetics, Diabetes Mellitus, Diabetic Neuropathies genetics, Diabetic Retinopathy, MicroRNAs metabolism

Abstract

Accelerating cases of diabetes worldwide have given rise to higher incidences of diabetic complications. MiRNAs, a much-explored class of non-coding RNAs, play a significant role in the pathogenesis of diabetes mellitus by affecting insulin release, β-cell proliferation, and dysfunction. Besides, disrupted miRNAs contribute to various complications, diabetic retinopathy, nephropathy, and neuropathy as well as severe conditions like diabetic foot. MiRNAs regulate various processes involved in diabetic complications like angiogenesis, vascularization, inflammations, and various signaling pathways like PI3K, MAPK, SMAD, and NF-KB signaling pathways. Diabetic neuropathy is the most common diabetic complication, characterized mainly by pain and numbness, especially in the legs and feet. MiRNAs implicated in diabetic neuropathy include mir-9, mir-106a, mir-146a, mir-182, miR-23a and b, miR-34a, and miR-503. The diabetic foot is the most common diabetic neuropathy, often leading to amputations. Mir-203, miR-23c, miR-145, miR-29b and c, miR-126, miR-23a and b, miR-503, and miR-34a are associated with diabetic foot. This review has been compiled to summarize miRNA involved in initiation, progression, and miRNAs affecting various signaling pathways involved in diabetic neuropathy including the diabetic foot. Besides, potential applications of miRNAs as biomarkers and therapeutic targets in this microvascular complication will also be discussed., (© 2021. The Author(s), under exclusive licence to Springer Science+Business Media, LLC, part of Springer Nature.)

Published

2022

21. miRNA signatures in diabetic retinopathy and nephropathy: delineating underlying mechanisms.

Author

Kaur P, Kotru S, Singh S, and Munshi A

Subjects

DNA Methylation, Humans, Diabetes Mellitus, Diabetic Nephropathies diagnosis, Diabetic Nephropathies genetics, Diabetic Retinopathy genetics, Hyperglycemia, MicroRNAs genetics

Abstract

A worldwide failure to achieve glycemic targets has led to complications associated with diabetes mellitus. In addition to genetic and other risk factors, epigenetic factors like DNA methylation, histone modifications, and non-coding RNAs play a significant part in the pathogenesis of complications. Among non-coding RNAs, miRNAs have been explored extensively since they control various biological processes. Their dysregulation has been implicated in various diseases including diabetic complications. Diabetic retinopathy and nephropathy are two common microvascular diabetic complications. Diabetic retinopathy affects the retina of the eye whereas nephropathy damages kidneys on account of prolonged hyperglycemia. This review aims to evaluate the role of miRNAs in diabetic retinopathy and diabetic nephropathy with an emphasis on the dysregulation of various pathways involved. In addition, the role of significant miRNAs as biomarkers for the diagnosis and prognosis of complications has also been discussed. Further, an update on the role of important miRNAs as potential therapeutic modalities has been given., (© 2021. The Author(s) under exclusive licence to University of Navarra.)

Published

2022

22. Electrochemical sensing: A prognostic tool in the fight against COVID-19.

Author

Kotru S, Klimuntowski M, Ridha H, Uddin Z, Askhar AA, Singh G, and Howlader MMR

Abstract

The COVID-19 pandemic has devastated the world, despite all efforts in infection control and treatment/vaccine development. Hospitals are currently overcrowded, with health statuses of patients often being hard to gauge. Therefore, methods for determining infection severity need to be developed so that high-risk patients can be prioritized, resources can be efficiently distributed, and fatalities can be prevented. Electrochemical prognostic biosensing of various biomarkers may hold promise in solving these problems as they are low-cost and provide timely results. Therefore, we have reviewed the literature and extracted the most promising biomarkers along with their most favourable electrochemical sensors. The biomarkers discussed in this paper are C-reactive protein (CRP), interleukins (ILs), tumour necrosis factor alpha (TNFα), interferons (IFNs), glutamate, breath pH, lymphocytes, platelets, neutrophils and D-dimer. Metabolic syndrome is also discussed as comorbidity for COVID-19 patients, as it increases infection severity and raises chances of becoming infected. Cannabinoids, especially cannabidiol (CBD), are discussed as a potential adjunct therapy for COVID-19 as their medicinal properties may be desirable in minimizing the neurodegenerative or severe inflammatory damage caused by severe COVID-19 infection. Currently, hospitals are struggling to provide adequate care; thus, point-of-care electrochemical sensor development needs to be prioritized to provide an approximate prognosis for hospital patients. During and following the immediate aftermath of the pandemic, electrochemical sensors can also be integrated into wearable and portable devices to help patients monitor recovery while returning to their daily lives. Beyond the COVID-19 pandemic, these sensors will also prove useful for monitoring inflammation-based diseases such as cancer and cardiovascular disease., 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., (© 2021 Elsevier B.V. All rights reserved.)

Published

2021

23. Role of miRNAs in the pathogenesis of T2DM, insulin secretion, insulin resistance, and β cell dysfunction: the story so far.

Author

Kaur P, Kotru S, Singh S, Behera BS, and Munshi A

Subjects

Animals, Cell Line, Humans, Insulin-Secreting Cells pathology, Signal Transduction, Diabetes Mellitus, Type 2 metabolism, Insulin Resistance, Insulin Secretion, Insulin-Secreting Cells metabolism, MicroRNAs physiology

Abstract

Diabetes, the most common endocrine disorder, also known as a silent killer disease, is characterized by uncontrolled hyperglycemia. According to the International Diabetes Federation, there were 451 million people with diabetes mellitus worldwide in 2017. It is a multifactorial syndrome caused by genetic as well as environmental factors. Noncoding RNAs, especially the miRNAs, play a significant role in the development as well as the progression of the disease. This is on account of insulin resistance or defects in β cell function. Various miRNAs including miR-7, miR-9, miR-16, miR-27, miR-24, miR-29, miR-124a, miR-135, miR-130a, miR-144, miR-181a, and miR-375 and many more have been associated with insulin resistance and other pathogenic conditions leading to the development of the disease. These miRNAs play significant roles in various pathways underlying insulin resistance such as PI3K, AKT/GSK, and mTOR. The main target genes of these miRNAs are FOXO1, FOXA2, STAT3, and PTEN. The miRNAs carry out important functions in insulin target tissues like the adipose tissue, liver, and muscle. MiRNAs miR-9, miR-375, and miR-124a, are also associated with the secretion of insulin from pancreatic cells. There is an interplay between the miRNAs and pancreatic cell growth, especially the miRNAs affecting development and proliferation of these cells. Most of the miRNAs target more than one gene which not only justifies their use as biomarkers but also their therapeutic potential. The current review has been compiled with an aim to discuss the role of various miRNAs involved in various pathogenic mechanisms including insulin resistance, insulin secretion, and the β cell dysfunction.

Published

2020

24. Comparison of Electrical Properties of Pb 0.95 La 0.05 Zr 0.54 Ti 0.46 O₃ Thin Film Capacitors Using Coplanar and Interplanar Electrode Configuration.

Author

Batra V and Kotru S

Abstract

Metal/ferroelectric/metal capacitors were fabricated using ferroelectric thin films of Pb 0.95 La 0.05 Zr 0.54 Ti 0.46 O₃. Pb 0.95 La 0.05 Zr 0.54 Ti 0.46 O₃ films were deposited on Pt/Si substrate using chemical solution deposition method and Au metal electrodes were vacuum deposited on top of these films using a shadow mask. Electrical properties of these capacitors measured in two different electrode configurations, coplanar (Au/PLZT/Au) and interplanar (Au/PLZT/Pt) showed different behavior. For coplanar electrode configuration, higher values of polarization and photovoltaic parameters were obtained under illumination. The studies suggest that both the polarization-induced electric field and interface electric field increase for coplanar configuration, which enhance the transport of photogenerated charge carriers. Electrical poling further improves the photovoltaic parameters of the capacitors, with higher values obtained from the coplanar electrode configuration. Thus, for ferroelectric based photovoltaics devices, coplanar electrode configuration combined with poling enhances the photovoltaic parameters.

Published

2019