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450 results on '"Risbud, Subhash H."'

1. Layer-by-Layer Freezing of Nanoconfined Water.

Author

Xia, Yiqing, Cho, Hyeyoung, Deo, Milind, Risbud, Subhash H, Bartl, Michael H, and Sen, Sabyasachi

Abstract

Nanoconfined water plays a pivotal role in a vast number of fields ranging from biological and materials sciences to catalysis, nanofluidics and geochemistry. Here, we report the freezing and melting behavior of water (D2O) nanoconfined in architected silica-based matrices including Vycor glass and mesoporous silica SBA-15 and SBA-16 with pore diameters ranging between 4-15 nm, which are investigated using differential scanning calorimetry and 2H nuclear magnetic resonance spectroscopy. The results provide compelling evidence that the extreme dynamical heterogeneity of water molecules is preserved over distances as small as a few angstroms. Solidification progresses in a layer-by-layer fashion with a coexistence of liquid-like and solid-like dynamical fraction at all temperatures during the transition process. The previously reported fragile-to-strong dynamic transition in nanoconfined water is argued to be a direct consequence of the layer-by-layer solidification.

Published
2020

2. Biomembrane-Compatible Sol-Gel-Derived Photocatalytic Titanium Dioxide.

Author

Johnson, Kaitlin E, Gakhar, Sukriti, Deng, Yue, Fong, Keiko, Risbud, Subhash H, and Longo, Marjorie L

Subjects
Titanium, Gels, Catalysis, Phase Transition, Light, amorphous titania, bacteriorhodopsin, biohybrid material, photocatalysis, water-splitting, Nanoscience & Nanotechnology, Chemical Engineering, Macromolecular and Materials Chemistry, Physical Chemistry, Chemical Sciences, Engineering
Abstract

Titanium dioxide gel monoliths were synthesized using an organic precursor and 0-30 vol % ethanol in water. The visible-light-activated proton pump, bacteriorhodopsin, in its native purple membrane form, was successfully encapsulated within the titanium dioxide gels. Absorption spectra showed that the folded functional state of the protein remained intact within gels made with 0 and 15 vol % ethanol and retained the ability to make reversible conformational changes associated with the photocycle within the gel made with 0 vol % ethanol. The photocatalytic activity of gels made with no ethanol was significantly detectable and gels made with 0-30 vol % ethanol were comparable to commercial crystalline nanoparticles in similar solution conditions when irradiated with UV light. Our results show that sol-gel-derived photocatalytic titanium dioxide can be made biocompatible for a membrane-associated protein by minimizing the amount of ethanol and maximizing the amount of water in the synthesis procedure. The entrapment of the membrane protein, bacteriorhodopsin, in sol-gel-derived titanium dioxide provides the first step in future explorations of this bionanocomposite for visible light photocatalysis, including hydrogen production.

Published
2017

3. Dynamics of Crowding-Induced Mixing in Phase Separated Lipid Bilayers

Author

Zeno, Wade F, Johnson, Tristan J, Sasaki, Darryl Y, Risbud, Subhash H, and Longo, Marjorie L

Subjects
Physical Sciences, Lipid Bilayers, Lipoproteins, Microscopy, Fluorescence, Molecular Dynamics Simulation, Nanoparticles, Particle Size, Ubiquitin, Chemical Sciences, Engineering, Chemical sciences, Physical sciences
Abstract

We use fluorescence microscopy to examine the dynamics of the crowding-induced mixing transition of liquid ordered (Lo)-liquid disordered (Ld) phase separated lipid bilayers when the following particles of increasing size bind to either the Lo or Ld phase: Ubiquitin, green fluorescent protein (GFP), and nanolipoprotein particles (NLPs) of two diameters. These proteinaceous particles contained histidine-tags, which were phase targeted by binding to iminodiacetic acid (IDA) head groups, via a Cu2+ chelating mechanism, of lipids that specifically partition into either the Lo phase or Ld phase. The degree of steric pressure was controlled by varying the size of the bound particle (10-240 kDa) and the amount of binding sites present (i.e., DPIDA concentrations of 9 and 12 mol%) in the supported lipid multibilayer platform used here. We develop a mass transfer-based diffusional model to analyze the observed Lo phase domain dissolution that, along with visual observations and activation energy calculations, provides insight into the sequence of events in crowding-induced mixing. Our results suggest that the degree of steric pressure and target phase influence not only the efficacy of steric-pressure induced mixing, but the rate and controlling mechanism for which it occurs.

Published
2016

4. Crowding-Induced Mixing Behavior of Lipid Bilayers: Examination of Mixing Energy, Phase, Packing Geometry, and Reversibility

Author

Zeno, Wade F, Rystov, Alice, Sasaki, Darryl Y, Risbud, Subhash H, and Longo, Marjorie L

Subjects
Biochemistry and Cell Biology, Physical Sciences, Biological Sciences, Lipid Bilayers, Pressure, Thermodynamics, Chemical Physics
Abstract

In an effort to develop a general thermodynamic model from first-principles to describe the mixing behavior of lipid membranes, we examined lipid mixing induced by targeted binding of small (Green Fluorescent Protein (GFP)) and large (nanolipoprotein particles (NLPs)) structures to specific phases of phase-separated lipid bilayers. Phases were targeted by incorporation of phase-partitioning iminodiacetic acid (IDA)-functionalized lipids into ternary lipid mixtures consisting of DPPC, DOPC, and cholesterol. GFP and NLPs, containing histidine tags, bound the IDA portion of these lipids via a metal, Cu(2+), chelating mechanism. In giant unilamellar vesicles (GUVs), GFP and NLPs bound to the Lo domains of bilayers containing DPIDA, and bound to the Ld region of bilayers containing DOIDA. At sufficiently large concentrations of DPIDA or DOIDA, lipid mixing was induced by bound GFP and NLPs. The validity of the thermodynamic model was confirmed when it was found that the statistical mixing distribution as a function of crowding energy for smaller GFP and larger NLPs collapsed to the same trend line for each GUV composition. Moreover, results of this analysis show that the free energy of mixing for a ternary lipid bilayer consisting of DOPC, DPPC, and cholesterol varied from 7.9 × 10(-22) to 1.5 × 10(-20) J/lipid at the compositions observed, decreasing as the relative cholesterol concentration was increased. It was discovered that there appears to be a maximum packing density, and associated maximum crowding pressure, of the NLPs, suggestive of circular packing. A similarity in mixing induced by NLP1 and NLP3 despite large difference in projected areas was analytically consistent with monovalent (one histidine tag) versus divalent (two histidine tags) surface interactions, respectively. In addition to GUVs, binding and induced mixing behavior of NLPs was also observed on planar, supported lipid multibilayers. The mixing process was reversible, with Lo domains reappearing after addition of EDTA for NLP removal.

Published
2016

5. Aerosol droplet delivery of mesoporous silica nanoparticles: A strategy for respiratory-based therapeutics.

Author

Li, Xueting, Xue, Min, Raabe, Otto G, Aaron, Holly L, Eisen, Ellen A, Evans, James E, Hayes, Fred A, Inaga, Sumire, Tagmount, Abderrahmane, Takeuchi, Minoru, Vulpe, Chris, Zink, Jeffrey I, Risbud, Subhash H, and Pinkerton, Kent E

Subjects
Bronchoalveolar Lavage Fluid, Animals, Mice, Lung Diseases, Silicon Dioxide, Aerosols, Microscopy, Electron, Transmission, Administration, Inhalation, Male, Nanoparticles, Aerosol droplets, Mesoporous silica nanoparticles, Respiratory tract, Microscopy, Electron, Transmission, Administration, Inhalation, Lung, Orphan Drug, Nanotechnology, Biotechnology, Bioengineering, Rare Diseases, 5.1 Pharmaceuticals, Nanoscience & Nanotechnology, Technology, Chemical Sciences, Biological Sciences
Abstract

UnlabelledA highly versatile nanoplatform that couples mesoporous silica nanoparticles (MSNs) with an aerosol technology to achieve direct nanoscale delivery to the respiratory tract is described. This novel method can deposit MSN nanoparticles throughout the entire respiratory tract, including nasal, tracheobronchial and pulmonary regions using a water-based aerosol. This delivery method was successfully tested in mice by inhalation. The MSN nanoparticles used have the potential for carrying and delivering therapeutic agents to highly specific target sites of the respiratory tract. The approach provides a critical foundation for developing therapeutic treatment protocols for a wide range of diseases where aerosol delivery to the respiratory system would be desirable.From the clinical editorDelivery of drugs via the respiratory tract is an attractive route of administration. In this article, the authors described the design of mesoporous silica nanoparticles which could act as carriers for drugs. The underlying efficacy was successfully tested in a mouse model. This drug-carrier inhalation nanotechnology should potentially be useful in human clinical setting in the future.

Published
2015

6. Spectroscopic Characterization of Structural Changes in Membrane Scaffold Proteins Entrapped within Mesoporous Silica Gel Monoliths

Author

Zeno, Wade F, Hilt, Silvia, Risbud, Subhash H, Voss, John C, and Longo, Marjorie L

Subjects
Physical Sciences, Acrylamide, Amino Acid Sequence, Anisotropy, Circular Dichroism, Lipoproteins, Membrane Proteins, Molecular Sequence Data, Nanoparticles, Porosity, Silica Gel, Solutions, Spectrometry, Fluorescence, Tryptophan, membrane scaffold protein, nanolipoprotein particle, mesoporous silica, tryptophan fluorescence, biohybrid material, protein-lipid interactions, protein−lipid interactions, Chemical Sciences, Engineering, Nanoscience & Nanotechnology, Chemical sciences, Physical sciences
Abstract

The changes in the orientation and conformation of three different membrane scaffold proteins (MSPs) upon entrapment in sol-gel-derived mesoporous silica monoliths were investigated. MSPs were examined in either a lipid-free or a lipid-bound conformation, where the proteins were associated with lipids to form nanolipoprotein particles (NLPs). NLPs are water-soluble, disk-shaped patches of a lipid bilayer that have amphiphilic MSPs shielding the hydrophobic lipid tails. The NLPs in this work had an average thickness of 5 nm and diameters of 9.2, 9.7, and 14.8 nm. We have previously demonstrated that NLPs are more suitable lipid-based structures for silica gel entrapment than liposomes because of their size compatibility with the mesoporous network (2-50 nm) and minimally altered structure after encapsulation. Here we further elaborate on that work by using a variety of spectroscopic techniques to elucidate whether or not different MSPs maintain their protein-lipid interactions after encapsulation. Fluorescence spectroscopy and quenching of the tryptophan residues with acrylamide, 5-DOXYL-stearic acid, and 16-DOXYL-stearic acid were used to determine the MSP orientation. We also utilized fluorescence anisotropy of tryptophans to measure the relative size of the NLPs and MSP aggregates after entrapment. Finally, circular dichroism spectroscopy was used to examine the secondary structure of the MSPs. Our results showed that, after entrapment, all of the lipid-bound MSPs maintained orientations that were minimally changed and indicative of association with lipids in NLPs. The tryptophan residues appeared to remain buried within the hydrophobic core of the lipid tails in the NLPs and appropriately spaced from the bilayer center. Also, after entrapment, lipid-bound MSPs maintained a high degree of α-helical content, a secondary structure associated with protein-lipid interactions. These findings demonstrate that NLPs are capable of serving as viable hosts for functional integral membrane proteins in the synthesis of sol-gel-derived bioinorganic hybrid nanomaterials.

Published
2015

7. Pulsed Laser Deposition of High-Quality Thin Films of the Insulating Ferromagnet EuS

Author

Yang, Qi I., Zhao, Jinfeng, Zhang, Li, Dolev, Merav, Fried, Alexander D., Marshall, Ann F., Risbud, Subhash H., and Kapitulnik, Aharon

Subjects
Condensed Matter - Materials Science
Abstract

High-quality thin films of the ferromagnetic-insulator europium(II) sulfide (EuS) were fabricated by pulsed laser deposition on Al2O3 (0001) and Si (100) substrates. A single orientation was obtained with the [100] planes parallel to the substrates, with atomic-scale smoothness indicates a near-ideal surface topography. The films exhibit uniform ferromagnetism below 15.9 K, with a substantial component of the magnetization perpendicular to the plane of the films. Optimization of the growth condition also yielded truly insulating films with immeasurably large resistance. This combination of magnetic and electric properties open the gate for novel devices that require a true ferromagnetic insulator., Comment: 4 pages, 4 figures

Published
2013
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8. Emerging Weak Localization Effects on Topological Insulator-Insulating Ferromagnet (Bi_2Se_3-EuS) Interface

Author

Yang, Qi I., Dolev, Merav, Zhang, Li, Zhao, Jinfeng, Fried, Alexander D., Schemm, Elizabeth, Liu, Min, Palevski, Alexander, Marshall, Ann F., Risbud, Subhash H., and Kapitulnik, Aharon

Subjects
Condensed Matter - Materials Science, Condensed Matter - Mesoscale and Nanoscale Physics, Quantum Physics
Abstract

Thin films of topological insulator Bi_2Se_3 were deposited directly on insulating ferromagnetic EuS. Unusual negative magnetoresistance was observed near the zero field below the Curie temperature (T_C), resembling the weak localization effect; whereas the usual positive magnetoresistance was recovered above T_C. Such negative magnetoresistance was only observed for Bi_2Se_3 layers thinner than t~4nm, when its top and bottom surfaces are coupled. These results provide evidence for a proximity effect between a topological insulator and an insulating ferromagnet, laying the foundation for future realization of the half-integer quantized anomalous Hall effect in three-dimensional topological insulators., Comment: 4 figures

Published
2013
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9. Analysis of Lipid Phase Behavior and Protein Conformational Changes in Nanolipoprotein Particles upon Entrapment in Sol–Gel-Derived Silica

Author

Zeno, Wade F, Hilt, Silvia, Aravagiri, Kannan K, Risbud, Subhash H, Voss, John C, Parikh, Atul N, and Longo, Marjorie L

Subjects
Biochemistry and Cell Biology, Physical Sciences, Biological Sciences, Bioengineering, Nanotechnology, Apolipoprotein A-I, Nanoparticles, Nanostructures, Polymethyl Methacrylate, Silica Gel, Chemical Physics
Abstract

The entrapment of nanolipoprotein particles (NLPs) and liposomes in transparent, nanoporous silica gel derived from the precursor tetramethylorthosilicate was investigated. NLPs are discoidal patches of lipid bilayer that are belted by amphiphilic scaffold proteins and have an average thickness of 5 nm. The NLPs in this work had a diameter of roughly 15 nm and utilized membrane scaffold protein (MSP), a genetically altered variant of apolipoprotein A-I. Liposomes have previously been examined inside of silica sol-gels and have been shown to exhibit instability. This is attributed to their size (∼150 nm) and altered structure and constrained lipid dynamics upon entrapment within the nanometer-scale pores (5-50 nm) of the silica gel. By contrast, the dimensional match of NLPs with the intrinsic pore sizes of silica gel opens the possibility for their entrapment without disruption. Here we demonstrate that NLPs are more compatible with the nanometer-scale size of the porous environment by analysis of lipid phase behavior via fluorescence anisotropy and analysis of scaffold protein secondary structure via circular dichroism spectroscopy. Our results showed that the lipid phase behavior of NLPs entrapped inside of silica gel display closer resemblance to its solution behavior, more so than liposomes, and that the MSP in the NLPs maintain the high degree of α-helix secondary structure associated with functional protein-lipid interactions after entrapment. We also examined the effects of residual methanol on lipid phase behavior and the size of NLPs and found that it exerts different influences in solution and in silica gel; unlike in free solution, silica entrapment may be inhibiting NLP size increase and/or aggregation. These findings set precedence for a bioinorganic hybrid nanomaterial that could incorporate functional integral membrane proteins.

Published
2014

11. Melt-Pool Dynamics and Microstructure of Mg Alloy WE43 under Laser Powder Bed Fusion Additive Manufacturing Conditions

Author

Soderlind, Julie, primary, Martin, Aiden A., additional, Calta, Nicholas P., additional, DePond, Philip J., additional, Wang, Jenny, additional, Vrancken, Bey, additional, Schäublin, Robin E., additional, Basu, Indranil, additional, Thampy, Vivek, additional, Fong, Anthony Y., additional, Kiss, Andrew M., additional, Berry, Joel M., additional, Perron, Aurélien, additional, Nelson Weker, Johanna, additional, Stone, Kevin H., additional, Tassone, Christopher J., additional, Toney, Michael F., additional, Van Buuren, Anthony, additional, Löffler, Jörg F., additional, Risbud, Subhash H., additional, and Matthews, Manyalibo J., additional

Published
2022
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12. Quartz and Silicas

Author

Davila, Lilian P., Risbud, Subhash H., Shackelford, James F., Shackelford, James F., editor, and Doremus, Robert H., editor

Published
2008
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13. Mullite

Author

Duval, David J., Risbud, Subhash H., Shackelford, James F., Shackelford, James F., editor, and Doremus, Robert H., editor

Published
2008
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25. Spectroscopic and structural characterization of electrochemically grown ZnO quantum dots

Author

Mahamuni, Shailaja, Borgohain, Kavita, Bendre, B.S., Leppert, Valerie J., and Risbud, Subhash H.

Subjects
Zinc oxide -- Research, Quantum electronics -- Research, Electron optics -- Research, Photoluminescence -- Usage, Physics
Abstract

A novel technique for the synthesis of stable, OH free zinc oxide quantum dots was described. The optical properties of these quantum dots were examined at room temperature by using optical absorption and luminescence spectra. The quantum dots that were synthesized exhibited strong luminescence in the ultraviolet region. In addition, the role of defects in photoluminescence emission was discussed.

Published
1999

26. Size selected silicon particles in sol-gel glass by centrifugal processing

Author

Duval, David J., McCoy, Benjamin J., Risbud, Subhash H., and Munir, Suhair A.

Subjects
Silicon crystals -- Research, Semiconductors -- Research, Nanotechnology -- Research, Physics
Abstract

Size selectivity in silicon particles suspended in a silica sol-gel precursor solution was induced using centrifugal processing. To describe Stokes settling of the silicon particles in the sol-gel medium, whose viscosity increased exponentially with time leading to hardening to a solid glassy material, a model was developed. The mathematical model explained the particle size and spatial distribution in the gelled matrix.

Published
1998

35. Real-time hot-stage high-voltage transmission electron microscopy precipitation of CdS nanocrystals in glasses: experiment and theoretical analysis

Author

Liu, Li-Chi and Risbud, Subhash H.

Subjects
Cadmium -- Analysis, Crystals -- Research, Glass -- Analysis, Transmission electron microscopes -- Usage, Physics
Abstract

In situ hot-stage high-voltage transmission electron microscopy enables the direct analysis of CdS nanocrystal precipitates in a silicate glass while a theoretical framework helps understand the coarsening kinetics of the nanocrystals. The theoretical framework includes the influence of diffusion and electron-beam heating to explain the experimental size distribution curves. In situ video taping of the bright-field images provides information on the coarsening and nucleation of the nanocrystals.

Published
1994

38. Current trends in military microelectronic component packaging

Author

Vettraino, Lawrence G. and Risbud, Subhash H.

Subjects
United States. Department of Defense -- Equipment and supplies, Microelectronic packaging -- Methods, Military electronics -- Packaging, Microelectronics -- Packaging, Electronic equipment and supplies -- Plastic embedment, Business, Electronics and electrical industries, Engineering and manufacturing industries
Abstract

The US Department of Defense has opted to use commercial microelectronic products for military use due to the decline in military research and development practices. The benefits of using plastic-encapsulated microcircuits and chip-on-board processing in military defense hardware is discussed.

Published
1999

46. Low-frequency cooperative dynamics in L-, D-, and DL-alanine crystals: A (super 13)C and (super 15)N cross-polarization magic-angle-spinning NMR study

Author

Sen, Sabyasachi, Ping Yu, Risbud, Subhash H., Dick, Raey, and Deamer, David

Subjects
Alanine -- Structure, Alanine -- Chemical properties, Lattice dynamics -- Analysis, Molecular dynamics -- Analysis, Nuclear magnetic resonance spectroscopy -- Analysis, Chemicals, plastics and rubber industries
Abstract

The low-frequency dynamics in the crystal structures of L-, D-, and DL-alanine polymorphs are investigated using the temperature dependence of the rotating-frame NMR spin-lattice relaxation times [T.sub.1p] of protons as a probe. The data reveal that the time scales of these low-frequency dynamical processes are distinctly different from the localized, high-frequency rotational motion of methyl and amine groups.

Published
2006

47. Quantum-dot size-distribution analysis and precipitation stages in semiconductor doped glasses.

Author

Liu, Li-Chi and Risbud, Subhash H.

Subjects
*PRECIPITATION (Chemistry), *SEMICONDUCTORS, *CLUSTER theory (Nuclear physics), *SULFIDES, *SELENIDES
Abstract

Focuses on a study which investigated the sequence of stages during precipitation of semiconductor clusters from supersaturated glasses exhibiting quantum-confinement effects. Information on semiconductor clusters, cadmium sulfide and cadmium selenide; Methodology of the study; Results and discussion.

Published
1990
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48. Glass formation in simple ionic systems via constant pressure molecular dynamics.

Author

Kumta, Prashant N., Deymier, Pierre A., and Risbud, Subhash H.

Subjects
MOLECULAR dynamics, GLASS transition temperature
Abstract

The utility of constant pressure molecular dynamics (MD) in studies of glass formation is demonstrated by choosing NaCl and ZnCl2 as examples of MX and MX2 salts. Rigid ion pair potentials have been used to model the two salts. Results of these simulations are in good agreement with general glass formation principles. The effect of the interatomic potential on the glass transition and the cooling rate on glass formation in both the salts is reported. The parameter characterizing the inertia of the borders of the MD simulation cell has a strong influence on the glass transition temperature. [ABSTRACT FROM AUTHOR]

Published
1989
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50. Synthesis, optical spectroscopy and ultrafast electron dynamics of PbS nanoparticles with different surface capping

Author

Patel, Amish A., Zhang, Jin Z., Wu, Fanxin, Torres-Martinez, Claudia L., Mehra, Rajesh K., Yang, Yi, and Risbud, Subhash H.

Subjects
Chemical synthesis -- Research, Sulfur -- Optical properties, Lead -- Optical properties, DNA -- Research, Chemicals, plastics and rubber industries
Abstract

The report describes the synthesis of PbS nanoparticles of different shapes and sizes with different surface capping using polymers including DNA. Pbs nanoparticles may find interesting applications in areas such as optical switching.

Published
2000

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