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12 results on '"Prashant Pendyala"'

3. Internal-Flow-Mediated, Tunable One-dimensional Cassie-to-Wenzel Wetting Transition on Superhydrophobic Microcavity Surfaces during Evaporation

Author

Hong Nam Kim, Sungwook Yang, Harpreet Singh Grewal, Prashant Pendyala, Uikyu Chae, Eui-Sung Yoon, Simon Song, and Il-Joo Cho

Subjects
010302 applied physics, Materials science, Internal flow, Evaporation, 02 engineering and technology, 021001 nanoscience & nanotechnology, Condensed Matter Physics, 01 natural sciences, Atomic and Molecular Physics, and Optics, Wetting transition, Mechanics of Materials, Chemical physics, 0103 physical sciences, General Materials Science, Wetting, 0210 nano-technology
Abstract

Superhydrophobic textured surfaces are known to maintain a nonwetted state unless external stimuli are applied since they can withstand high wetting pressure. Herein, we report a new catego...

Published
2019

4. Time-Dependent Wetting Scenarios of a Water Droplet on Surface-Energy-Controlled Microcavity Structures with Functional Nanocoatings

Author

Hong Nam Kim, Eui-Sung Yoon, Yong Sang Ryu, and Prashant Pendyala

Subjects
Polytetrafluoroethylene, Materials science, Silicon, Capillary action, Internal flow, Drop (liquid), chemistry.chemical_element, 02 engineering and technology, 010402 general chemistry, 021001 nanoscience & nanotechnology, 01 natural sciences, Surface energy, 0104 chemical sciences, chemistry.chemical_compound, chemistry, Wetting transition, Chemical physics, General Materials Science, Wetting, 0210 nano-technology
Abstract

We report the surface-energy-dependent wetting transition characteristics of an evaporating water droplet on surface-energy-controlled microcavity structures with functional nanocoatings. The droplet wetting scenarios were categorized into four types depending on the synergistic effect of surface energy and pattern size. The silicon (Si) microcavity surfaces (γSi = 69.8 mJ/m2) and the polytetrafluoroethylene (PTFE)-coated microcavity surfaces (γPTFE = 15.0 mJ/m2) displayed stable Wenzel and Cassie wetting states, respectively, irrespective of time. In contrast, diamond-like carbon (DLC)-coated (γDLC = 55.5 mJ/m2) and fluorinated diamond-like carbon (FDLC)-coated (γFDLC = 36.2 mJ/m2) surfaces demonstrated a time-dependent transition of wetting states. In particular, the DLC-coated surface showed random filling of microcavities at the earlier time point, while the FDLC-coated surface displayed directional filling of microcavities at the late stage of drop evaporation. Such dynamic wetting scenarios based on surface energy, in particular, the random and directional wetting transitions related to surface energy of nanocoatings have not been explored previously. Furthermore, the microscopic role of nanocoating in the wetting scenarios was analyzed by monitoring the time-dependent deformation and movement of the air-water interface (AWI) at individual cavities using the fluorescence interference-contrast (FLIC) technique. A coating-dependent depinning mechanism of the AWI was responsible for variable filling of cavities leading to time-dependent wetting scenarios. A capillary wetting model was used to relate this depinning event to the evaporation-induced internal flow within the droplet. Interestingly, FLIC analysis revealed that a hydrophilic nanocoating can induce microscopic hydrophobicity near the cavity edges leading to delayed and variable cavity filling. The surface energy-dependent classification of the wetting scenarios may help the design of novel evaporation-assisted thermodynamic and mass-transfer processes.

Published
2020

5. Effect of capillary forces on the correlation between nanoscale adhesion and friction of polymer patterned surfaces

Author

Hong Nam Kim, Harpreet Singh Grewal, Prashant Pendyala, Il-Joo Cho, and Eui-Sung Yoon

Subjects
Materials science, Capillary action, Nanotechnology, 02 engineering and technology, symbols.namesake, 0203 mechanical engineering, medicine, Composite material, Nanoscopic scale, chemistry.chemical_classification, Mechanical Engineering, Stiffness, Surfaces and Interfaces, Adhesion, Polymer, 021001 nanoscience & nanotechnology, Surfaces, Coatings and Films, 020303 mechanical engineering & transports, chemistry, Mechanics of Materials, Sliding contact, symbols, medicine.symptom, van der Waals force, 0210 nano-technology, Order of magnitude
Abstract

A general relation between adhesion and friction was elusive. This was partly due to the limitations in experimentally configuring the wide variety of geometrical and chemical cues encountered at a sliding contact. We study the combined influence of capillary and van der Waals forces on the correlation between the adhesion (pull-off force) and friction of polymer patterns. We report the existence of master curves in plot of adhesion versus friction, spanning nearly two orders of magnitude, characteristic of the effective lateral contact stiffness of the contact determined by geometry and capillary forces. Further, we showed how nanocylindrical patterns, micropatterns and PTFE-coated PMMA flat surfaces subjected to varying capillary forces displayed similar sliding characteristics despite their large differences in contact characteristics.

Published
2017

6. Nanotribological behavior of bioinspired textured surfaces with directional characteristics

Author

Hyogeun Shin, Harpreet Singh Grewal, Eui-Sung Yoon, Prashant Pendyala, and Il-Joo Cho

Subjects
Materials science, Nanotechnology, 02 engineering and technology, Surfaces and Interfaces, Surface finish, Adhesion, Tribology, 010402 general chemistry, 021001 nanoscience & nanotechnology, Condensed Matter Physics, 01 natural sciences, 0104 chemical sciences, Surfaces, Coatings and Films, Contact mechanics, Mechanics of Materials, Materials Chemistry, Nanotribology, Texture (crystalline), Wetting, Composite material, 0210 nano-technology, Contact area
Abstract

Friction and adhesion becomes extremely important at nano and micro length scales, modulating the durability of several nano/micro electromechanical systems (NEMS/MEMS). Bio-mimicking the surface texture of different living organisms has helped improve the tribological performance of many such systems. In this study, we examined the friction and wetting behaviour of textured surfaces derived by mimicking the surface morphology of butterfly wing. Three different derivatives of mimicked structure with similar solid/air fraction but different contact aspect ratios were fabricated on Si wafer using photolithography and deep reactive ion-etching techniques. The textured surfaces patterns were subsequently coated with polytetrafluoroethylene (PTFE), diamond-like carbon (DLC), and fluorine incorporated diamond-like carbon (F-DLC) using plasma-enhanced chemical vapor deposition (PECVD) technique. Atomic force microscope was used to investigate the friction behaviour of the coated and un-coated samples at different applied normal load. Wetting behaviour of the textured and control surfaces was measured using sessile-drop method. Results showed that both wettability and friction were significantly influenced by the shape, orientation and surface chemistry of the textured structure. The PTFE and F-DLC coatings helped reduce the friction compared to Si control surface. The developed patterned displayed dual character with wetting and friction being function of the texture shape. The increase in aspect ratio of textured geometry enhanced directional wettability and friction. The wetting was controlled by the contact-line pinning phenomenon modulated by the texture geometry. The friction behaviour of the textured geometry varied in direct correlation with the contact area. Further, the edge-effect showed prominent influence leading to an increase in friction force in lateral direction. The effect of surface chemistry and texture geometry is explained on basis of intermolecular forces and contact mechanics. The directional friction and wetting characteristics of the developed surface would be of potential use for transport applications in different systems.

Published
2017

7. Comparison of 12-Hour Creatinine Clearance and Estimated Glomerular Filtration Rate in Renal Transplant Recipients

Author

Prashant Pendyala, Rakesh Kumar, Rocco C. Venuto, Kris Attwood, Vanessa Gray, and Kathleen M. Tornatore

Subjects
Male, medicine.medical_specialty, Urology, Renal function, urologic and male genital diseases, Critical Care and Intensive Care Medicine, Single Center, White People, chemistry.chemical_compound, Internal medicine, medicine, Humans, Prospective Studies, Kidney transplantation, African american, Creatinine, business.industry, Reproducibility of Results, General Medicine, medicine.disease, Kidney Transplantation, Black or African American, Transplantation, Endocrinology, chemistry, Nephrology, Renal transplant, business, Glomerular Filtration Rate, Urine collection
Abstract

Glomerular filtration rate (GFR) is an essential clinical assessment of renal function post-renal transplantation. Creatinine clearance (CrCl) measured over 12 h and estimated GFR (e-GFR) (calculated by the Modification of diet in renal disease equation) were compared in 28 stable renal transplant recipients (RTRs). This single center study included 14 African American (AA) and 14 Caucasian (CC) recipients. The 12-h creatinine clearance (CrCl-12 h) was determined by monitored urine collection and by e-GFR on two occasions (two phases) separated by at least 2 weeks. Statistics included mixed model analysis of CrCl-12 h and e-GFR relative to race, phase, and difference between parameters. In the first phase, the e-GFR was higher in AA males (58.4 ± 14.8 mL/min) than the CC males (46.2 ± 10.2 mL/min) (p = 0.032), whereas the CrCl-12 h of AA males (70.8 ± 8.7 mL/min) and CC males (63.3 ± 21.7 mL/min) was not different (p = 0.740). During the second phase, the e-GFR in AA and CC RTRs was 55.4 ± 10.1 mL/min and 47.6 ± 10.7 mL/min (p = 0.117), respectively, whereas CrCl-12 h in AAs was 64.71 ± 17.9 mL/min and in CCs was 62.0 ± 14.9 mL/min (p = 1.000). The CrCl-12 h was higher than the e-GFR (p < 0.001) irrespective of race or phase. CrCl-12 h was not different on both occasions (p = 0.289) in all the patients. CrCl-12 h was consistently greater than e-GFR. The difference between these e-GFR estimates may have an importance in the care of RTRs.

Published
2013

8. Individual Role of the Physicochemical Characteristics of Nanopatterns on Tribological Surfaces

Author

Harpreet Singh Grewal, Prashant Pendyala, Il-Joo Cho, Hong Nam Kim, and Eui-Sung Yoon

Subjects
Materials science, Capillary action, Surface force, Intermolecular force, Nanotechnology, Fracture mechanics, 02 engineering and technology, Adhesion, Tribology, 010402 general chemistry, 021001 nanoscience & nanotechnology, Curvature, 01 natural sciences, Surface energy, 0104 chemical sciences, body regions, General Materials Science, Composite material, 0210 nano-technology
Abstract

Nanoscale patterns have dimensions that are comparable to the length scales affected by intermolecular and surface forces. In this study, we systematically investigated the individual roles of curvature, surface energy, lateral stiffness, material, and pattern density in the adhesion and friction of nanopatterns. We fabricated cylindrical and mushroom-shaped polymer pattern geometries containing flat- and round-topped morphologies using capillary force lithography and nanodrawing techniques. We showed that the curvature, surface energy, and density of the patterns predominantly influenced the adhesive interactions, whereas lateral stiffness dominated friction by controlling the geometrical interaction between the indenter and pillar during sliding. Interestingly, in contrast to previous studies, cylindrical and mushroom-shaped pillars showed similar adhesion characteristics but very different frictional properties. Using fracture mechanics analysis, we showed that this phenomenon is due to a larger ratio of the mushroom flange thickness (t) to the radius of the pillar stem (ρ), and we proposed a design criterion for mushroom patterns to exhibit a geckolike effect. The most important result of our work is the discovery of a linear master curve in the graph of adhesion versus friction for pillars with similar lateral stiffness values that is independent of curvature, material, surface energy, and pattern density. These results will aid in the identification of simple pattern parameters that can be scaled to tune adhesion and friction and will help broaden the understanding of nanoscale topographical interactions.

Published
2016

9. Evolution of Surface Roughness During Electropolishing

Author

M. S. Bobji, Giridhar Madras, and Prashant Pendyala

Subjects
Length scale, Work (thermodynamics), Materials science, Mechanical Engineering, Analytical chemistry, Spectral density, Surfaces and Interfaces, Surface finish, Chemical Engineering, Surfaces, Coatings and Films, Anode, Characterization (materials science), Electropolishing, Mechanics of Materials, Surface roughness, Composite material
Abstract

The characteristics of surface roughness span a range of length scales determined by the nature of the surface generation process. The mechanism by which material is removed at a length scale determines the roughness at that scale. Electropolishing preferentially reduces the peaks of surface protuberances at sub-micron length scales to produce smooth surfaces. The material removal in electropolishing occurs by two different mechanisms of anodic leveling and microsmoothing. Due to insufficient lateral resolution, individual contribution of these two mechanisms could not be measured by conventional roughness measurement techniques and parameters. In this work, we utilize the high lateral resolution offered by Atomic force microscopy along with the power spectral density method of characterization, to study the evolution of roughness during electropolishing. The power spectral density show two corner frequencies indicating the length scales over which the two mechanisms operate. These characteristic frequencies are found to be a function of the electropolishing time and hence can be used to optimize the electropolishing process.

Published
2014

10. On Using Nanoporous Alumina Films as Tribological Coating

Author

Arti Yadav, M. S. Bobji, Prashant Pendyala, Patel, Himanshu C, Deheri, Gunamani, Patel, Harshvadan S, and Mehta, Shreya M

Subjects
Materials science, Nanoporous, Anodizing, Mechanical Engineering, Alloy, Metallurgy, engineering.material, Corrosion, Amorphous solid, Coating, engineering, Composite material, Thin film, Layer (electronics)
Abstract

Anodization of aluminum alloys is a common surface treatment procedure employed for the protection against corrosion. A thin amorphous layer of alumina is formed on the surface of alloy, which seals the alloy surface from the surrounding. This alumina layer being harder than the base aluminum alloy can be useful as a tribological coating. But since this alumina layer is randomly formed with disordered voids and pores, predicting the mechanical properties is difficult. Specific anodizing conditions can be used to form highly ordered anodic nanoporous alumina films [1] on the aluminum alloy surface. These nanoporous alumina layer can be effectively used as a tribological coating, because of the highly ordered controllable geometry and the empty pores which can be used as reservoirs for lubricant.

Published
2013

11. Development of the nephrotic syndrome during treatment of Crohn's disease with adalimumab

Author

Prashant Pendyala, Pradeep Arora, Alok Gupta, and Michael D. Sitrin

Subjects
Male, medicine.medical_specialty, Nephrotic Syndrome, Anti-Inflammatory Agents, urologic and male genital diseases, Antibodies, Monoclonal, Humanized, Gastroenterology, chemistry.chemical_compound, Crohn Disease, Prednisone, Internal medicine, medicine, Adalimumab, Humans, Creatinine, Crohn's disease, Proteinuria, medicine.diagnostic_test, business.industry, Antibodies, Monoclonal, Glomerulonephritis, Middle Aged, medicine.disease, chemistry, Renal biopsy, medicine.symptom, business, Nephrotic syndrome, medicine.drug
Abstract

We report a patient with Crohn's disease who presented with renal insufficiency and the nephrotic syndrome after initiating therapy with adalimumab. Renal biopsy showed stages 2 to 3 membranous glomerulonephritis, and immunostaining showed glomerular deposition of immunoglobulin G and C3. The patient's serum creatinine decreased after discontinuation of adalimumab, and treatment with prednisone and mycophenolic acid reversed his proteinuria. The pathogenesis of glomerular disease induced by antitumor necrosis factor antibodies is uncertain, and the potential roles of the generation of autoantibodies, development of antiadalimumab antibodies, and the interaction of adalimumab with glomerular tumor necrosis factor are discussed.

Published
2010

12. Effect of porosity on the indentation behaviour of nanoporous alumina films

Author

Bobji, Preeti Gupta, Pranav Y. Kalode, and Prashant Pendyala

Subjects
Materials science, Anodizing, Nanoporous, Mechanical Engineering, chemistry.chemical_element, Surfaces and Interfaces, Nanoindentation, Surfaces, Coatings and Films, chemistry, Aluminium, Indentation, Nanoindenter, Deformation (engineering), Composite material, Porosity
Abstract

Anodising aluminium in an acid electrolyte results in a porous alumina film. The pores are uniformly distributed and their structure can be controlled by varying the anodising parameters. In this study, the pore structure of the anodic alumina films is varied systematically by varying the anodising time and a subsequent pore widening chemical etch. The indentation behaviour of the resulting film is studied using a depth sensing nanoindenter. The hardness of the films was found to be decreasing with decreasing solid area fraction. Understanding the deformation behaviour of nanoporous alumina would help tailoring the mechanical properties by tuning the geometry.

Published
2011

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