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1. Repetitive Dosing of Fumed Silica Leads to Profibrogenic Effects through Unique Structure–Activity Relationships and Biopersistence in the Lung

Author

Sun, Bingbing, Wang, Xiang, Liao, Yu-Pei, Ji, Zhaoxia, Chang, Chong Hyun, Pokhrel, Suman, Ku, Justine, Liu, Xiangsheng, Wang, Meiying, Dunphy, Darren R, Li, Ruibin, Meng, Huan, Mädler, Lutz, Brinker, C Jeffrey, Nel, André E, and Xia, Tian

Subjects
Medical Biotechnology, Biomedical and Clinical Sciences, Lung, Infectious Diseases, Animals, Inflammasomes, Mice, NLR Family, Pyrin Domain-Containing 3 Protein, Nanotubes, Carbon, Silicon Dioxide, Structure-Activity Relationship, fumed silica, metal doping, lung fibrosis, biopersistence, dissolution, Nanoscience & Nanotechnology
Abstract

Contrary to the notion that the use of fumed silica in consumer products can "generally (be) regarded as safe" (GRAS), the high surface reactivity of pyrogenic silica differs from other forms of synthetic amorphous silica (SAS), including the capacity to induce membrane damage and acute proinflammatory changes in the murine lung. In addition, the chain-like structure and reactive surface silanols also allow fumed silica to activate the NLRP3 inflammasome, leading to IL-1β production. This pathway is known to be associated with subchronic inflammation and profibrogenic effects in the lung by α-quartz and carbon nanotubes. However, different from the latter materials, bolus dose instillation of 21 mg/kg fumed silica did not induce sustained IL-1β production or subchronic pulmonary effects. In contrast, the NLRP3 inflammasome pathway was continuously activated by repetitive-dose administration of 3 × 7 mg/kg fumed silica, 1 week apart. We also found that while single-dose exposure failed to induce profibrotic effects in the lung, repetitive dosing can trigger increased collagen production, even at 3 × 3 mg/kg. The change between bolus and repetitive dosing was due to a change in lung clearance, with recurrent dosing leading to fumed silica biopersistence, sustained macrophage recruitment, and activation of the NLRP3 pathway. These subchronic proinflammatory effects disappeared when less surface-reactive titanium-doped fumed silica was used for recurrent administration. All considered, these data indicate that while fumed silica may be regarded as safe for some applications, we should reconsider the GRAS label during repetitive or chronic inhalation exposure conditions.

Published
2016

2. Reduction of Acute Inflammatory Effects of Fumed Silica Nanoparticles in the Lung by Adjusting Silanol Display through Calcination and Metal Doping

Author

Sun, Bingbing, Pokhrel, Suman, Dunphy, Darren R, Zhang, Haiyuan, Ji, Zhaoxia, Wang, Xiang, Wang, Meiying, Liao, Yu-Pei, Chang, Chong Hyun, Dong, Juyao, Li, Ruibin, Mädler, Lutz, Brinker, C Jeffrey, Nel, André E, and Xia, Tian

Subjects
Medical Biotechnology, Engineering, Biomedical and Clinical Sciences, Lung, Calcium, Cell Line, Humans, Liver Cirrhosis, Nanoparticles, Pneumonia, Reactive Oxygen Species, Silanes, Silicon Dioxide, Structure-Activity Relationship, United States, United States Food and Drug Administration, fumed silica, silanol groups, doping, NLRP3 inflammasome, IL-1 beta, lung inflammation, IL-1β, Nanoscience & Nanotechnology
Abstract

The production of pyrogenic (fumed) silica is increasing worldwide at a 7% annual growth rate, including expanded use in food, pharmaceuticals, and other industrial products. Synthetic amorphous silica, including fumed silica, has been generally recognized as safe for use in food products by the Food and Drug Administration. However, emerging evidence from experimental studies now suggests that fumed silica could be hazardous due to its siloxane ring structure, high silanol density, and "string-of-pearl-like" aggregate structure, which could combine to cause membrane disruption, generation of reactive oxygen species, pro-inflammatory effects, and liver fibrosis. Based on this structure-activity analysis (SAA), we investigated whether calcination and rehydration of fumed silica changes its hazard potential in the lung due to an effect on silanol density display. This analysis demonstrated that the accompanying change in surface reactivity could indeed impact cytokine production in macrophages and acute inflammation in the lung, in a manner that is dependent on siloxane ring reconstruction. Confirmation of this SAA in vivo, prompted us to consider safer design of fumed silica properties by titanium and aluminum doping (0-7%), using flame spray pyrolysis. Detailed characterization revealed that increased Ti and Al doping could reduce surface silanol density and expression of three-membered siloxane rings, leading to dose-dependent reduction in hydroxyl radical generation, membrane perturbation, potassium efflux, NLRP3 inflammasome activation, and cytotoxicity in THP-1 cells. The reduction of NLRP3 inflammasome activation was also confirmed in bone-marrow-derived macrophages. Ti doping, and to a lesser extent Al doping, also ameliorated acute pulmonary inflammation, demonstrating the possibility of a safer design approach for fumed silica, should that be required for specific use circumstances.

Published
2015

3. Surface Interactions with Compartmentalized Cellular Phosphates Explain Rare Earth Oxide Nanoparticle Hazard and Provide Opportunities for Safer Design

Author

Li, Ruibin, Ji, Zhaoxia, Chang, Chong Hyun, Dunphy, Darren R, Cai, Xiaoming, Meng, Huan, Zhang, Haiyuan, Sun, Bingbing, Wang, Xiang, Dong, Juyao, Lin, Sijie, Wang, Meiying, Liao, Yu-Pei, Brinker, C Jeffrey, Nel, Andre, and Xia, Tian

Subjects
Medical Biotechnology, Biomedical and Clinical Sciences, Nanotechnology, Bioengineering, Macrophages, Alveolar, Metals, Rare Earth, Nanoparticles, Oxides, Phosphates, Surface Properties, rare earth oxides, toxicity, safety, fibrosis, lysosomal damage, dephosphorylation, transformation, Nanoscience & Nanotechnology
Abstract

Growing international exploitation of rare earth oxides (REOs) for commercial and biological use has increased the possibility of human exposure and adverse health effects. Occupational exposure to rare earth materials in miners and polishers leads to a severe form of pneumoconiosis, while gadolinium-containing MRI contrast agents cause nephrogenic systemic fibrosis in patients with renal impairment. The mechanisms for inducing these adverse pro-fibrogenic effects are of considerable importance for the safety assessment of REO particles as well as presenting opportunities for safer design. In this study, using a well-prepared REO library, we obtained a mechanistic understanding of how REOs induce cellular and pulmonary damage by a compartmentalized intracellular biotransformation process in lysosomes that results in pro-fibrogenic growth factor production and lung fibrosis. We demonstrate that rare earth oxide ion shedding in acidifying macrophage lysosomes leads to biotic phosphate complexation that results in organelle damage due to stripping of phosphates from the surrounding lipid bilayer. This results in nanoparticle biotransformation into urchin shaped structures and setting in motion a series of events that trigger NLRP3 inflammasome activation, IL-1β release, TGF-β1 and PDGF-AA production. However, pretreatment of REO nanoparticles with phosphate in a neutral pH environment prevents biological transformation and pro-fibrogenic effects. This can be used as a safer design principle for producing rare earth nanoparticles for biological use.

Published
2014

4. Influence of material properties on TiO2 nanoparticle agglomeration.

Author

Zhou, Dongxu, Ji, Zhaoxia, Jiang, Xingmao, Dunphy, Darren R, Brinker, Jeffrey, and Keller, Arturo A

Subjects
Titanium, Humic Substances, Microscopy, Electron, Transmission, Materials Testing, Kinetics, Particle Size, Metal Nanoparticles, General Science & Technology
Abstract

Emerging nanomaterials are being manufactured with varying particle sizes, morphologies, and crystal structures in the pursuit of achieving outstanding functional properties. These variations in these key material properties of nanoparticles may affect their environmental fate and transport. To date, few studies have investigated this important aspect of nanoparticles' environmental behavior. In this study, the aggregation kinetics of ten different TiO2 nanoparticles (5 anatase and 5 rutile each with varying size) was systematically evaluated. Our results show that, as particle size increases, the surface charge of both anatase and rutile TiO2 nanoparticles shifts toward a more negative value, and, accordingly, the point of zero charge shifts toward a lower value. The colloidal stability of anatase sphere samples agreed well with DLVO theoretical predictions, where an increase in particle size led to a higher energy barrier and therefore greater critical coagulation concentration. In contrast, the critical coagulation concentration of rutile rod samples correlated positively with the specific surface area, i.e., samples with higher specific surface area exhibited higher stability. Finally, due to the large innate negative surface charge of all the TiO2 samples at the pH value (pH = 8) tested, the addition of natural organic matter was observed to have minimal effect on TiO2 aggregation kinetics, except for the smallest rutile rods that showed decreased stability in the presence of natural organic matter.

Published
2013

5. The targeted delivery of multicomponent cargos to cancer cells by nanoporous particle-supported lipid bilayers

Author

Ashley, Carlee E, Carnes, Eric C, Phillips, Genevieve K, Padilla, David, Durfee, Paul N, Brown, Page A, Hanna, Tracey N, Liu, Juewen, Phillips, Brandy, Carter, Mark B, Carroll, Nick J, Jiang, Xingmao, Dunphy, Darren R, Willman, Cheryl L, Petsev, Dimiter N, Evans, Deborah G, Parikh, Atul N, Chackerian, Bryce, Wharton, Walker, Peabody, David S, and Brinker, C Jeffrey

Subjects
Medical Biotechnology, Biomedical and Clinical Sciences, Orphan Drug, Bioengineering, Rare Diseases, Genetics, Biotechnology, Nanotechnology, Cancer, 5.1 Pharmaceuticals, Development of treatments and therapeutic interventions, Amino Acid Sequence, Carcinoma, Hepatocellular, Cell Line, Tumor, Humans, Lipid Bilayers, Liposomes, Liver Neoplasms, Molecular Sequence Data, Nanocapsules, Nanopores, Peptides, Silicon Dioxide, Nanoscience & Nanotechnology
Abstract

Encapsulation of drugs within nanocarriers that selectively target malignant cells promises to mitigate side effects of conventional chemotherapy and to enable delivery of the unique drug combinations needed for personalized medicine. To realize this potential, however, targeted nanocarriers must simultaneously overcome multiple challenges, including specificity, stability and a high capacity for disparate cargos. Here we report porous nanoparticle-supported lipid bilayers (protocells) that synergistically combine properties of liposomes and nanoporous particles. Protocells modified with a targeting peptide that binds to human hepatocellular carcinoma exhibit a 10,000-fold greater affinity for human hepatocellular carcinoma than for hepatocytes, endothelial cells or immune cells. Furthermore, protocells can be loaded with combinations of therapeutic (drugs, small interfering RNA and toxins) and diagnostic (quantum dots) agents and modified to promote endosomal escape and nuclear accumulation of selected cargos. The enormous capacity of the high-surface-area nanoporous core combined with the enhanced targeting efficacy enabled by the fluid supported lipid bilayer enable a single protocell loaded with a drug cocktail to kill a drug-resistant human hepatocellular carcinoma cell, representing a 10(6)-fold improvement over comparable liposomes.

Published
2011

6. Integrated nanotechnology platform for tumor-targeted multimodal imaging and therapeutic cargo release

Author

Hosoya, Hitomi, Dobroff, Andrey S., Driessen, Wouter H. P., Cristini, Vittorio, Brinker, Lina M., Staquicini, Fernanda I., Cardó-Vila, Marina, D’Angelo, Sara, Ferrara, Fortunato, Proneth, Bettina, Lin, Yu-Shen, Dunphy, Darren R., Dogra, Prashant, Melancon, Marites P., Stafford, R. Jason, Miyazono, Kohei, Gelovani, Juri G., Kataoka, Kazunori, Brinker, C. Jeffrey, Sidman, Richard L., Arap, Wadih, and Pasqualini, Renata

Published
2016

9. In-situ X-ray scattering study of continuous silica - surfactant self-assembly during steady-state dip coating

Author

Doshi, Dhaval A.; Gibaud, Alain, Liu, Nanguo;, Malanoski, Anthony P.;, Hongji Chen, Jin Wang, Sturmayr, Dietmar, Dunphy, Darren R., MacPhee, Andrew, Narayanan, Suresh, Brinker, C. Jeffrey, Swol, Frank van, Hurd, Alan J., and Reed, Scott T.

Subjects
Silica -- Chemical properties, Scattering (Physics) -- Analysis, X-rays -- Observations, Chemicals, plastics and rubber industries
Abstract

Spatially resolved 2D grazing incidence X-ray scattering is used in combination with optical interferometry during steady-state dip-coating of surfactant-templated silica thin-films to structurally and compositionally characterize the EISA process. The results obtained provide some new chemical and structural insights into evaporation-induced self-assembly.

Published
2003

12. The electroactive integrated optical waveguide: ultrasensitive spectroelectrochemistry of submonolayer adsorbates

Author

Dunphy, Darren R., Mendes, Sergio B., Saavedra, S. Scott, and Armstrong, Neal R.

Subjects
Integrated optics -- Analysis, Waveguides -- Analysis, Spectrum analysis -- Methods, Electrochemistry -- Analysis, Monomolecular films -- Analysis, Chemistry
Abstract

Highly sensitive spectroelectrochemistry of adsorbed films on ITO is demonstrated with the electroactive integrated optical waveguide (EA-IOW). The EA-IOW, a single-mode planar waveguide coated with an ITO layer, is [approximately][10.sup.4]-fold more sensitive to changes in absorbance occurring during electrochemical events versus a single-pass transmission spectroelectrochemical experiment, as demonstrated by reduction of surface-adsorbed methylene blue. Furthermore, the EA-IOW is selective to near-surface events, as it is relatively insensitive to absorbance by solutions of dissolved chromophores at < 1 mM. The EA-IOW is also used to monitor the formation of Prussian Blue during the reduction of ferricyanide, an event that is not easily followed using current-detected cyclic voltammetry, due to interfering faradaic and non-faradaic electrochemical events. The optical background of the EA-IOW is potential-dependent and is explained by ion diffusion into the ITO and by voltage-dependent changes in optical constants for the material. Finally, the high sensitivity of the EA-IOW (relative to other evanescent-field-based spectroelectrochemical techniques) is discussed in terms of its design.

Published
1997

13. Dynamic surface tension detection by optically probing a repeating drop rate

Author

Lima, Lawrence R., III, Dunphy, Darren R., and Synovec, Robert E.

Subjects
Surface tension -- Measurement, Chromatographic analysis -- Methods, Surface chemistry -- Research, Chemistry
Abstract

Design and characterization of a dynamic surface tension detector (DSTD) for use with flow injection analysis and high-performance liquid chromatography is reported. The DSTD optically measures the repeating drop rate at the end of a capillary tube connected to the terminating end of the flow system. Surface-active analytes cause a significant decrease in the drop volume that is readily measured. The selectivity of the detector for ionic and nonionic surface-active species, such as sodium dodecyl sulfate and poly(ethylene glycol) (PEG),is described. The relationship between dynamic surface tension, analyte translational diffusion, and analyte inherent surface activity is examined in relation to detector signal and is presented in a preliminary model of the detection mechanism. A calibration curve for PEG 1470 (molecular mass 1470 g/mol, nominal) is presented, and a limit of detection of 4 ppm at the detector was determined. The instrument limit of detection was determined to be a fraction of the detectable drop rate change, on the order of 0.45% (3 times the root-mean-square noise), and is limited by flow rate imprecision that maltifests as an apparent change in drop surface tension. The dependency of DSTD signal on flow rate was examined using a series of PEGs at flow rates from 13 to 266 [mu]L/min, and a good correlation between analyte translational diffusion coefficient and detector signal was observed. The tunability of detector response to specific molecular weight ranges for a homologous polymer series is examined. The application of the DSTD for the detection of trace high molecular weight impurities in high-concentration, low molecular weight polymer matrices is discussed.

Published
1994

14. Mesoporous Silica Nanoparticle-Supported Lipid Bilayers (Protocells) for Active Targeting and Delivery to Individual Leukemia Cells

Author

Durfee, Paul N., primary, Lin, Yu-Shen, additional, Dunphy, Darren R., additional, Muñiz, Ayşe J., additional, Butler, Kimberly S., additional, Humphrey, Kevin R., additional, Lokke, Amanda J., additional, Agola, Jacob O., additional, Chou, Stanley S., additional, Chen, I-Ming, additional, Wharton, Walker, additional, Townson, Jason L., additional, Willman, Cheryl L., additional, and Brinker, C. Jeffrey, additional

Published
2016
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16. Spray-Dried Multiscale Nano-biocomposites Containing Living Cells

Author

Johnson, Patrick E., primary, Muttil, Pavan, additional, MacKenzie, Debra, additional, Carnes, Eric C., additional, Pelowitz, Jennifer, additional, Mara, Nathan A., additional, Mook, William M., additional, Jett, Stephen D., additional, Dunphy, Darren R., additional, Timmins, Graham S., additional, and Brinker, C. Jeffrey, additional

Published
2015
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18. Atomic Layer Deposition of l-Alanine Polypeptide

Author

Fu, Yaqin, primary, Li, Binsong, additional, Jiang, Ying-Bing, additional, Dunphy, Darren R., additional, Tsai, Andy, additional, Tam, Siu-Yue, additional, Fan, Hongyou, additional, Zhang, Hongxia, additional, Rogers, David, additional, Rempe, Susan, additional, Atanassov, Plamen, additional, Cecchi, Joseph L., additional, and Brinker, C. Jeffrey, additional

Published
2014
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20. Integrated nanotechnology platform for tumor-targeted multimodal imaging and therapeutic cargo release.

Author

Miyazono, Kohei, Kataok, Kazunori, Hosoya, Hitomi, D'Angelo, Sara, Ferrara, Fortunato, Yu-Shen Lin, Dunphy, Darren R., Melancon, Marites P., Stafford, R. Jason, Gelovani, Juri G., Sidman, Richard L., Brinker, C. Jeffrey, Arap, Wadih, Dobroff, Andrey S., Brinker, Lina M., Staquicini, Fernanda I., Cardó-Vila, Marina, Dogra, Prashant, Pasqualini, Renata, and Proneth, Bettina

Subjects
RECEPTOR-ligand complexes, IMAGING of cancer, DRUG delivery systems, NANOTECHNOLOGY, MATHEMATICAL models, NANOPARTICLES, BACTERIOPHAGES, LIPOSOMES
Abstract

A major challenge of targeted molecular imaging and drug delivery in cancer is establishing a functional combination of ligand-directed cargo with a triggered release system. Here we develop a hydrogelbased nanotechnology platform that integrates tumor targeting, photon-to-heat conversion, and triggered drug delivery within a single nanostructure to enable multimodal imaging and controlled release of therapeutic cargo. In proof-of-concept experiments, we showa broad range of ligand peptide-based applications with phage particles, heat-sensitive liposomes, or mesoporous silica nanoparticles that self-assemble into a hydrogel for tumor-targeted drug delivery. Because nanoparticles pack densely within the nanocarrier, their surface plasmon resonance shifts to near-infrared, thereby enabling a laser-mediated photothermal mechanism of cargo release. We demonstrate both noninvasive imaging and targeted drug delivery in preclinical mouse models of breast and prostate cancer. Finally, we applied mathematical modeling to predict and confirm tumor targeting and drug delivery. These results are meaningful steps toward the design and initial translation of an enabling nanotechnology platform with potential for broad clinical application.s [ABSTRACT FROM AUTHOR]

Published
2016
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21. Processing Pathway Dependence of Amorphous Silica Nanoparticle Toxicity: Colloidal vs Pyrolytic

Author

Zhang, Haiyuan, primary, Dunphy, Darren R., additional, Jiang, Xingmao, additional, Meng, Huan, additional, Sun, Bingbing, additional, Tarn, Derrick, additional, Xue, Min, additional, Wang, Xiang, additional, Lin, Sijie, additional, Ji, Zhaoxia, additional, Li, Ruibin, additional, Garcia, Fred L., additional, Yang, Jing, additional, Kirk, Martin L., additional, Xia, Tian, additional, Zink, Jeffrey I., additional, Nel, Andre, additional, and Brinker, C. Jeffrey, additional

Published
2012
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24. Erratum: The targeted delivery of multicomponent cargos to cancer cells by nanoporous particle-supported lipid bilayers

Author

Ashley, Carlee E., primary, Carnes, Eric C., additional, Phillips, Genevieve K., additional, Padilla, David, additional, Durfee, Paul N., additional, Brown, Page A., additional, Hanna, Tracey N., additional, Liu, Juewen, additional, Phillips, Brandy, additional, Carter, Mark B., additional, Carroll, Nick J., additional, Jiang, Xingmao, additional, Dunphy, Darren R., additional, Willman, Cheryl L., additional, Petsev, Dimiter N., additional, Evans, Deborah G., additional, Parikh, Atul N., additional, Chackerian, Bryce, additional, Wharton, Walker, additional, Peabody, David S., additional, and Brinker, C. Jeffrey, additional

Published
2011
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25. Tricontinuous Cubic Nanostructure and Pore Size Patterning in Mesostructured Silica Films Templated with Glycerol Monooleate

Author

Dunphy, Darren R., primary, Garcia, Fred L., additional, Kaehr, Bryan, additional, Khripin, Constantine Y., additional, Collord, Andrew D., additional, Baca, Helen K., additional, Tate, Michael P., additional, Hillhouse, Hugh W., additional, Strzalka, Joseph W., additional, Jiang, Zhang, additional, Wang, Jin, additional, and Brinker, C. Jeffrey, additional

Published
2011
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26. Convective Assembly of 2D Lattices of Virus‐like Particles Visualized by In‐Situ Grazing‐Incidence Small‐Angle X‐Ray Scattering

Author

Ashley, Carlee E., primary, Dunphy, Darren R., additional, Jiang, Zhang, additional, Carnes, Eric C., additional, Yuan, Zhen, additional, Petsev, Dimiter N., additional, Atanassov, Plamen B., additional, Velev, Orlin D., additional, Sprung, Michael, additional, Wang, Jin, additional, Peabody, David S., additional, and Brinker, C. Jeffrey, additional

Published
2011
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29. DNA translocation through an array of kinked nanopores

Author

Chen, Zhu, primary, Jiang, Yingbing, additional, Dunphy, Darren R., additional, Adams, David P., additional, Hodges, Carter, additional, Liu, Nanguo, additional, Zhang, Nan, additional, Xomeritakis, George, additional, Jin, Xiaozhong, additional, Aluru, N. R., additional, Gaik, Steven J., additional, Hillhouse, Hugh W., additional, and Jeffrey Brinker, C., additional

Published
2010
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30. Characterization of Lipid-Templated Silica and Hybrid Thin Film Mesophases by Grazing Incidence Small-Angle X-ray Scattering

Author

Dunphy, Darren R., primary, Alam, Todd M., additional, Tate, Michael P., additional, Hillhouse, Hugh W., additional, Smarsly, Bernd, additional, Collord, Andrew D., additional, Carnes, Eric, additional, Baca, Helen K., additional, Köhn, Ralf, additional, Sprung, Michael, additional, Wang, Jin, additional, and Brinker, C. Jeffrey, additional

Published
2009
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32. Enlarged Pore Size in Mesoporous Silica Films Templatedby Pluronic F127: Use of Poloxamer Mixtures and Increased Template/SiO2Ratios in Materials Synthesized by Evaporation-Induced Self-Assembly.

Author

Dunphy, Darren R., Sheth, Pratik H., Garcia, Fred L., and Brinker, C. Jeffrey

Subjects
*MESOPOROUS silica, *THIN films, *PORE size (Materials), *CHEMICAL templates, *BLOCK copolymers, *POLOXAMERS, *MOLECULAR self-assembly, *MIXTURE analysis
Abstract

Although evaporation-induced self-assembly(EISA) has proven tobe a convenient method for synthesizing nanoporous silica films (andparticles), accessing material structures with pore sizes larger thanca. 10 nm remains experimentally inconvenient. The use of pore swellingagents (SAs), commonly used during the hydrothermal synthesis of mesoporoussilicas, results in little or no pore size expansion due to evaporationor phase separation. Moreover, diblock copolymer templates can yieldlarge pores but are quite expensive and generally require the additionof strong organic cosolvents. Here, we hypothesized that pores templatedby the Pluronic triblock polymer F127 could be successfully enlarged,without phase separation, by using a chemically similar, nonvolatile,secondary Pluronic polymer (P103) as the SA. We find pore size increasedup to 15 nm for a spherical pore morphology, with a phase transitionto a multilamellar vesicle (MLV)-based nanostructure occurring asthe P103/F127 ratio is further increased. This MLV phase produceseven larger pore sizes due to the collapse of concentric silica shellsupon template removal. Remarkably, F127 alone exhibits expansion ofpore size (up to ca. 16 nm) as the template/silica ratio is increased.We find appearance of the MLV phase is due to geometric packing considerations,with expansion of F127 micelle size being a result of favorable intermolecularinteractions driven by the large poly(ethylene oxide) content of F127.Other Pluronic polymers with this feature also exhibit variable poresize based on the template/silica ratio, enabling the synthesis ofmesoporous films with 3D pore connectivity and truly variable poresize of ca. 4.5 to almost 20 nm. [ABSTRACT FROM AUTHOR]

Published
2015
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36. In-Situ X-ray Scattering Study of Continuous Silica−Surfactant Self-Assembly during Steady-State Dip Coating

Author

Doshi, Dhaval A., primary, Gibaud, Alain, additional, Liu, Nanguo, additional, Sturmayr, Dietmar, additional, Malanoski, Anthony P., additional, Dunphy, Darren R., additional, Chen, Hongji, additional, Narayanan, Suresh, additional, MacPhee, Andrew, additional, Wang, Jin, additional, Reed, Scott T., additional, Hurd, Alan J., additional, van Swol, Frank, additional, and Brinker, C. Jeffrey, additional

Published
2003
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39. Atomic Layer Deposition of ʟ-Alanine Polypeptide.

Author

Yaqin Fu, Dunphy, Darren R., Atanassov, Plamen, Cecch, Joseph L., Brinker, C. Jeffrey, Ying-Bing Jiang, Binsong Li, Hongyou Fan, Rogers, David, Rempe, Susan, Andy Tsai, Siu-Yue Tam, and Hongxia Zhang

Subjects
*POLYPEPTIDES, *ATOMIC layer deposition, *PEPTIDE bonds, *POLYMERIZATION, *MASS spectrometry
Abstract

ʟ-Alanine polypeptide thin films were synthesized via atomic layer deposition (ALD). Instead of using an amino acid monomer as the precursor, an ʟ-alanine amino acid derivatized with a protecting group was used to prevent self-polymerization, increase the vapor pressure, and allow linear cycle-by-cycle growth emblematic of ALD. The successful deposition of a conformal polypeptide film has been confirmed by FTIR, TEM, and Mass Spectrometry, and the ALD process has been extended to polyvaline. [ABSTRACT FROM AUTHOR]

Published
2014
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44. Influence of Material Properties on TiO2 Nanoparticle Agglomeration.

Author

Zhou, Dongxu, Ji, Zhaoxia, Jiang, Xingmao, Dunphy, Darren R., Brinker, Jeffrey, and Keller, Arturo A.

Subjects
MECHANICAL behavior of materials, TITANIUM dioxide, NANOPARTICLES, AGGLOMERATION (Materials), CRYSTAL structure, CRYSTAL morphology
Abstract

Emerging nanomaterials are being manufactured with varying particle sizes, morphologies, and crystal structures in the pursuit of achieving outstanding functional properties. These variations in these key material properties of nanoparticles may affect their environmental fate and transport. To date, few studies have investigated this important aspect of nanoparticles' environmental behavior. In this study, the aggregation kinetics of ten different TiO2 nanoparticles (5 anatase and 5 rutile each with varying size) was systematically evaluated. Our results show that, as particle size increases, the surface charge of both anatase and rutile TiO2 nanoparticles shifts toward a more negative value, and, accordingly, the point of zero charge shifts toward a lower value. The colloidal stability of anatase sphere samples agreed well with DLVO theoretical predictions, where an increase in particle size led to a higher energy barrier and therefore greater critical coagulation concentration. In contrast, the critical coagulation concentration of rutile rod samples correlated positively with the specific surface area, i.e., samples with higher specific surface area exhibited higher stability. Finally, due to the large innate negative surface charge of all the TiO2 samples at the pH value (pH = 8) tested, the addition of natural organic matter was observed to have minimal effect on TiO2 aggregation kinetics, except for the smallest rutile rods that showed decreased stability in the presence of natural organic matter. [ABSTRACT FROM AUTHOR]

Published
2013
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47. Processing Pathway Dependence of Amorphous Silica Nanoparticle Toxicity: Colloidal vs Pyrolytic.

Author

Haiyuan Zhang, Dunphy, Darren R., Xingmao Jiang, Huan Meng, Bingbing Sun, Tarn, Derrick, Min Xue, Xiang Wang, Sijie Lin, Zhaoxia Ji, Ruibin Li, Garcia, Fred L., Jing Yang, Kirk, Martin L., Tian Xia, Zink, Jeffrey I., Nel, Andre, and Brinker, C. Jeffrey

Subjects
*SILICA nanoparticles, *EFFECT of temperature on toxicity, *SILICA gel, *HIGH temperature chemistry, *SILICA -- Toxicology, *REACTIVE oxygen species, *SILOXANES
Abstract

We have developed structure/toxicity relationships for amorphous silica nanoparticles (NPs) synthesized through low-temperature colloidal (e.g., Stöber silica) or high-temperature pyrolysis (e.g., fumed silica) routes. Through combined spectroscopic and physical analyses, we have determined the state of aggregation, hydroxyl concentration, relative proportion of strained and unstrained siloxane rings, and potential to generate hydroxyl radicals for Stöber and fumed silica NPs with comparable primary particle sizes (16 nm in diameter). On the basis of erythrocyte hemolytic assays and assessment of the viability and ATP levels in epithelial and macrophage cells, we discovered for fumed silica an important toxicity relationship to postsynthesis thermal annealing or environmental exposure, whereas colloidal silicas were essentially nontoxic under identical treatment conditions. Specifically, we find for fumed silica a positive correlation of toxicity with hydroxyl concentration and its potential to generate reactive oxygen species (ROS) and cause red blood cell hemolysis. We propose fumed silica toxicity stems from its intrinsic population of strained three-membered rings (3MRs) along with its chainlike aggregation and hydroxyl content. Hydrogen-bonding and electrostatic interactions of the silanol surfaces of fumed silica aggregates with the extracellular plasma membrane cause membrane perturbations sensed by the Nalp3 inflammasome, whose subsequent activation leads to secretion of the cytokine IL-1β. Hydroxyl radicals generated by the strained 3MRs in fumed silica, but largely absent in colloidal silicas, may contribute to the inflammasome activation. Formation of colloidal silica into aggregates mimicking those of fumed silica had no effect on cell viability or hemolysis. This study emphasizes that not all amorphous silicas are created equal and that the unusual toxicity of fumed silica compared to that of colloidal silica derives from its framework and surface chemistry along with its fused chainlike morphology established by high-temperature synthesis (>1300 °C) and rapid thermal quenching. [ABSTRACT FROM AUTHOR]

Published
2012
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48. DNA translocation through an array of kinked nanopores.

Author

Zhu Chen, Yingbing Jiang, Dunphy, Darren R., Adams, David P., Hodges, Carter, Nanguo Liu, Nan Zhang, Xomeritakis, George, Xiaozhong Jin, Aluru, N. R., Gaik, Steven J., Hillhouse, Hugh W., and Brinker, C. Jeffrey

Subjects
DNA, RNA, DETECTORS, FLUX (Metallurgy), SILICON nitride
Abstract

Synthetic solid-state nanopores are being intensively investigated as single-molecule sensors for detection and characterization of DNA, RNA and proteins. This field has been inspired by the exquisite selectivity and flux demonstrated by natural biological channels and the dream of emulating these behaviours in more robust synthetic materials that are more readily integrated into practical devices. So far, the guided etching of polymer films, focused ion-beam sculpting, and electron-beam lithography and tuning of silicon nitride membranes have emerged as three promising approaches to define synthetic solid-state pores with sub-nanometre resolution. These procedures have in common the formation of nominally cylindrical or conical pores aligned normal to the membrane surface. Here we report the formation of ‘kinked’ silica nanopores, using evaporation-induced self-assembly, and their further tuning and chemical derivatization using atomic-layer deposition. Compared with ‘straight through’ proteinaceous nanopores of comparable dimensions, kinked nanopores exhibit up to fivefold reduction in translocation velocity, which has been identified as one of the critical issues in DNA sequencing. Additionally, we demonstrate an efficient two-step approach to create a nanopore array exhibiting nearly perfect selectivity for ssDNA over dsDNA. We show that a coarse-grained drift–diffusion theory with a sawtooth-like potential can reasonably describe the velocity and translocation time of DNA through the pore. By control of pore size, length and shape, we capture the main functional behaviours of protein pores in our solid-state nanopore system. [ABSTRACT FROM AUTHOR]

Published
2010
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49. Self-Directed Assembly of Photoactive Hybrid Silicates Derived from an Azobenzene-Bridged Silsesquioxane.

Author

Nanguo Liu, Kui Yu, Smarsly, Bernd, Dunphy, Darren R., Ying-Bing Jiang, and Brinker, C. Jeffrey

Subjects
*AZO compounds, *HYDROGEN bonding, *ISOMERIZATION
Abstract

Reports on the synthesis and self-directed assembly of a photoactive azobenzene-bridged silsequioxane, 4,4'-bis(3-triethoxysilylpropylureido)azobenzene. Self-assembly into a highly ordered lamellar mesostructure with the hydrogen-bonding interactions between the three active centers of the bis-ureide groups; Investigation of the reversible photo and thermal isomerization behavior of a dilute molecular dispersion of the azobenzene.

Published
2002
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