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160 results on '"Mace, Charles R."'

1. Rapid spectrophotometric detection for optimized production of landomycins and characterization of their therapeutic potential.

Author

Chappell, Todd C., Maiello, Kathleen G., Tierney, Allison J., Yanagi, Karin, Lee, Jessica A., Lee, Kyongbum, Mace, Charles R., Bennett, Clay S., and Nair, Nikhil U.

Abstract

Microbial‐derived natural products remain a major source of structurally diverse bioactive compounds and chemical scaffolds that have the potential as new therapeutics to target drug‐resistant pathogens and cancers. In particular, genome mining has revealed the vast number of cryptic or low‐yield biosynthetic gene clusters in the genus Streptomyces. However, low natural product yields—improvements to which have been hindered by the lack of high throughput methods—have slowed the discovery and development of many potential therapeutics. Here, we describe our efforts to improve yields of landomycins—angucycline family polyketides under investigation as cancer therapeutics—by a genetically modified Streptomyces cyanogenus 136. After simplifying the extraction process from S. cyanogenus cultures, we identified a wavelength at which the major landomycin products are absorbed in culture extracts, which we used to systematically explore culture medium compositions to improve total landomycin titers. Through correlational analysis, we simplified the culture optimization process by identifying an alternative wavelength at which culture supernatants absorb yet is representative of total landomycin titers. Using the subsequently improved sample throughput, we explored landomycin production during the culturing process to further increase landomycin yield and reduce culture time. Testing the antimicrobial activity of the isolated landomycins, we report broad inhibition of Gram‐positive bacteria, inhibition of fungi by landomycinone, and broad landomycin resistance by Gram‐negative bacteria that is likely mediated by the exclusion of landomycins by the bacterial membrane. Finally, the anticancer activity of the isolated landomycins against A549 lung carcinoma cells agrees with previous reports on other cell lines that glycan chain length correlates with activity. Given the prevalence of natural products produced by Streptomyces, as well as the light‐absorbing moieties common to bioactive natural products and their metabolic precursors, our method is relevant to improving the yields of other natural products of interest. [ABSTRACT FROM AUTHOR]

Published
2024
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10. Generating signals at converging liquid fronts to create line-format readouts of soluble assay products in three-dimensional paper-based devices.

Author

Abdullah, Ibrahim H., Wilson, Daniel J., Mora, Andrea C., Parker, Rayleigh W., and Mace, Charles R.

Subjects
SMALL molecules, COLLEGE laboratories, ACETYLCHOLINESTERASE, IRON, POINT-of-care testing, LIQUIDS
Abstract

The correct interpretation of the result from a point-of-care device is crucial for an accurate and rapid diagnosis to guide subsequent treatment. Lateral flow tests (LFTs) use a well-established format that was designed to simplify the user experience. However, the LFT device architecture is inherently limited to detecting analytes that can be captured by molecular recognition. Microfluidic paper-based analytical devices (μPADs), like LFTs, have the potential to be used in diagnostic applications at the point of care. However, μPADs have not gained significant traction outside of academic laboratories, in part, because they have often demonstrated a lack of homogeneous shape or color in signal outputs, which consequently can lead to inaccurate interpretation of results by users. Here, we demonstrate a new class of μPADs that form colorimetric signals at the interfaces of converging liquid fronts (i.e., lines) to control where colorimetric signals are formed without relying on capture techniques. We demonstrate our approach by developing assays for three classes of analytes—an ion, an enzyme, and a small molecule—to measure using iron(III), acetylcholinesterase, and lactate, respectively. Additionally, we show these devices have the potential to support multiplexed assays by generating multiple lines in a common readout zone. These results highlight the ability of this new paper-based device architecture to aid the interpretation of assays that create soluble products by using flow to constrain those colorimetric products in a familiar, line-format output. [ABSTRACT FROM AUTHOR]

Published
2023
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11. Microsampling tools for collecting, processing, and storing blood at the point‐of‐care.

Author

Baillargeon, Keith R. and Mace, Charles R.

Subjects
*BLOOD banks, *COVID-19 pandemic, *BLOOD collection, *POINT-of-care testing, *CELL anatomy
Abstract

In the wake of the COVID‐19 global pandemic, self‐administered microsampling tools have reemerged as an effective means to maintain routine healthcare assessments without inundating hospitals or clinics. Finger‐stick collection of blood is easily performed at home, in the workplace, or at the point‐of‐care, obviating the need for a trained phlebotomist. While the initial collection of blood is facile, the diagnostic or clinical utility of the sample is dependent on how the sample is processed and stored prior to transport to an analytical laboratory. The past decade has seen incredible innovation for the development of new materials and technologies to collect low‐volume samples of blood with excellent precision that operate independently of the hematocrit effect. The final application of that blood (i.e., the test to be performed) ultimately dictates the collection and storage approach as certain materials or chemical reagents can render a sample diagnostically useless. Consequently, there is not a single microsampling tool that is capable of addressing every clinical need at this time. In this review, we highlight technologies designed for patient‐centric microsampling blood at the point‐of‐care and discuss their utility for quantitative sampling as a function of collection material and technique. In addition to surveying methods for collecting and storing whole blood, we emphasize the need for direct separation of the cellular and liquid components of blood to produce cell‐free plasma to expand clinical utility. Integrating advanced functionality while maintaining simple user operation presents a viable means of revolutionizing self‐administered microsampling, establishing new avenues for innovation in materials science, and expanding access to healthcare. [ABSTRACT FROM AUTHOR]

Published
2023
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16. Theoretical and experimental analysis of arrayed imaging reflectometry as a sensitive proteomics technique

Author

Mace, Charles R., Striemer, Christopher C., and Miller, Benjamin L.

Subjects
Reflectometer -- Usage, Biosensors -- Technology application, Biosensors -- Usage, Proteomics -- Research, Technology application, Chemistry
Abstract

Arrayed imaging reflectometry (AIR) is a newly developed label-free optical biosensing technique based on the creation and perturbation of a condition of zero reflectance on a silicon substrate. The antireflective coating is formed by covalently immobilizing arrayed probes on a silicon dioxide film. Probe--target complex formation causes a localized increase in optical thickness and a measurable reflectance change. To evaluate the performance of AIR, we have employed two proteins, intimin and tir, from enteropathogenic E. coli that are critical to the bacterium's mechanism of host infection. Using substrates functionalized with the intimin-binding domain of tir, we demonstrate detection of the extracellular domain of intimin at concentrations as low as 10 pM. Through the use of a diffusion-limited model for the intimin--tir binding interaction at this concentration, we estimate the detected intimin surface concentration to be 0.33 pg/[mm.sup.2].

Published
2006

21. Usability as a guiding principle for the design of paper-based, point-of-care devices – A review.

Author

Murray, Lara P. and Mace, Charles R.

Subjects
*POINT-of-care testing, *SAMPLING (Process)
Abstract

Due to their portability, versatility for supporting multiple assay formats, and potential for resulting in low-cost assays, paper-based analytical devices (PADs) are an increasingly popular format as a platform for the development of point-of-care tests. However, very few PADs have been translated successfully to their intended environments outside of academic settings. Often overlooked as a factor that inhibits translation, usability is a vital characteristic of any successful point-of-care test. Recent advancements in PAD design have demonstrated improved usability by simplifying various aspects of user operation, including sample collection, sample processing, device operation, detection, and readout/interpretation. Field testing at various stages of device design can offer critical feedback about device usability, especially when it involves the proposed end-user or other stakeholders. By highlighting advances in usability, we aim to encourage thoughtful and rigorous design at the academic prototyping stage to address one outstanding hurdle that limits the number of PADs that make it from the benchtop to the point-of-care. Image 1 • Paper-based devices have potential for use at the point-of-care. • Devices that are user-friendly are more likely to be translated to the field. • Additional user steps create additional opportunities for user error. • We discuss ways to streamline user operation of paper-based devices. • We highlight three case studies for devices deployed successfully to the field. [ABSTRACT FROM AUTHOR]

Published
2020
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23. Magnetic Levitation in Chemistry, Materials Science, and Biochemistry.

Author

Ge, Shencheng, Nemiroski, Alex, Mirica, Katherine A., Mace, Charles R., Hennek, Jonathan W., Kumar, Ashok A., and Whitesides, George M.

Subjects
MATERIALS science, CHEMISTRY, MAGNETIC suspension, QUALITY control, FOOD quality, MAGNETIC properties
Abstract

All matter has density. The recorded uses of density to characterize matter date back to as early as ca. 250 BC, when Archimedes was believed to have solved "The Puzzle of The King's Crown" using density.[1] Today, measurements of density are used to separate and characterize a range of materials (including cells and organisms), and their chemical and/or physical changes in time and space. This Review describes a density‐based technique—magnetic levitation (which we call "MagLev" for simplicity)—developed and used to solve problems in the fields of chemistry, materials science, and biochemistry. MagLev has two principal characteristics—simplicity, and applicability to a wide range of materials—that make it useful for a number of applications (for example, characterization of materials, quality control of manufactured plastic parts, self‐assembly of objects in 3D, separation of different types of biological cells, and bioanalyses). Its simplicity and breadth of applications also enable its use in low‐resource settings (for example—in economically developing regions—in evaluating water/food quality, and in diagnosing disease). [ABSTRACT FROM AUTHOR]

Published
2020
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24. Magnetische Levitation in Chemie, Materialwissenschaft und Biochemie.

Author

Ge, Shencheng, Nemiroski, Alex, Mirica, Katherine A., Mace, Charles R., Hennek, Jonathan W., Kumar, Ashok A., and Whitesides, George M.

Subjects
LEVITATION
Abstract

Copyright of Angewandte Chemie is the property of Wiley-Blackwell and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published
2020
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25. Detection of cardiovascular disease associated miR-29a using paper-based microfluidics and surface enhanced Raman scattering.

Author

Mabbott, Samuel, Fernandes, Syrena C., Schechinger, Monika, Cote, Gerard L., Faulds, Karen, Mace, Charles R., and Graham, Duncan

Subjects
SERS spectroscopy, MICROFLUIDICS, COLORIMETRIC analysis, MICROFLUIDIC devices, CARDIOVASCULAR diseases, FLUIDICS
Abstract

The development of viable point-of-care diagnostic formats is integral to achieving better patient care and improved outcomes. The need for robust and low-cost tests is especially important in under-resourced and rural settings. Perhaps the greatest challenge is ensuring that an untrained individual is capable of operating and interpreting the test, out with a care facility. Here we present a paper-based diagnostic device capable of sensing miR-29a using both colorimetric and surface enhanced Raman scattering (SERS) analysis. Rather, than carry out the two types of analyses in tandem, we envisage that the colorimetric output is easy enough to be interpreted by the untrained-individual administering the test to provide them with qualitative feedback. If deemed positive, the test can be further validated at a centralized care facility using a handheld-Raman spectrometer to provide a semi-quantitative result. Detection of miR-29a, a microRNA associated with myocardial infarction, was achieved at a level of pg μL−1 through the combination of three-dimensional paper-based microfluidics, colorimetric detection, and surface enhanced Raman scattering (SERS) analysis. RGB analysis of the colorimetric output generated from samples containing miR-29a at different concentrations (18–360 pg μL−1) showed differentiation from the control sample, however significant repeat variability indicated that it could not be used for quantifying miR-29a levels. However, the SERS analysis exhibited greater reproducibility at varying concentrations, achieving an LoD of 47 pg μL−1. The union of the paper-based device and the two analysis methods resulted in the production of a sensitive, reproducible and facile, point of care test (POCT), which paves the way for future implementation in the diagnosis of a range of diseases. [ABSTRACT FROM AUTHOR]

Published
2020
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30. Correlation of Cell Surface Biomarker Expression Levels with Adhesion Contact Angle Measured by Lateral Microscopy.

Author

Walz, Jenna A. and Mace, Charles R.

Subjects
*CELL membranes, *SURFACE chemistry, *BIOCOMPUTERS, *ADHESION contracts, *SURFACE plasmon resonance
Abstract

Immunophenotyping is typically achieved using flow cytometry, but any influence a biomarker may have on adhesion or surface recognition cannot be determined concurrently. In this manuscript, we demonstrate the utility of lateral microscopy for correlating cell surface biomarker expression levels with quantitative descriptions of cell morphology. With our imaging system, we observed single cells from two T cell lines and two B cell lines adhere to antibody-coated substrates and quantified this adhesion using contact angle measurements. We found that SUP-T1 and CEM CD4+ cells, both of which express similar levels of CD4, experienced average changes in contact angle that were not statistically different from one another on surfaces coated in anti-CD4. However, MAVER-1 and BJAB K20 cells, both of which express different levels of CD20, underwent average changes in contact angle that were significantly different from one another on surfaces coated in anti-CD20. Our results indicate that changes in cell contact angles on antibody-coated substrates reflect the expression levels of corresponding antigens on the surfaces of cells as determined by flow cytometry. Our lateral microscopy approach offers a more reproducible and quantitative alternative to evaluate adhesion compared to commonly used wash assays and can be extended to many additional immunophenotyping applications to identify cells of interest within heterogeneous populations. [ABSTRACT FROM AUTHOR]

Published
2018
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33. Reconfigurable Pipet for Customized, Cost-Effective Liquid Handling.

Author

Wilson, Daniel J. and Mace, Charles R.

Subjects
*PIPETTES, *CHEMICAL apparatus, *IMMUNOASSAY, *IMMUNOGLOBULINS, *MICROFLUIDICS, *EQUIPMENT & supplies
Abstract

We have developed a multichannel air displacement pipet with reconfigurable channels for nonstandard liquid handling applications. While linear multichannel pipets enable many established assays, they do not support analytical tools with customized liquid holding geometries, specifically paper-based microfluidic devices. Using our pipet, complex paper-based microfluidic devices can be fabricated without requiring multiple, time-consuming motions with a single-channel pipet or device designs limited to the configurations of traditional multichannel pipets. We created this tool by modifying a commercial 8-channel pipet using machined and 3D-printed components. We demonstrate the quantitative capabilities of our tool by comparing its performance to that of a calibrated, single-channel pipet in volume delivery experiments. Our reconfigurable pipet supports the advancement of custom analytical tools with nonstandard liquid handling requirements and provides an ergonomic alternative to commercial equipment for developers of paper-based devices. [ABSTRACT FROM AUTHOR]

Published
2017
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35. Measurement of the hematocrit using paper-based microfluidic devices.

Author

Berry, Samuel B., Fernandes, Syrena C., Rajaratnam, Anjali, DeChiara, Nicholas S., and Mace, Charles R.

Subjects
HEMATOCRIT, MICROFLUIDIC devices, BLOOD cells, HEMATOLOGY, IMMUNOASSAY, ELECTROCHEMISTRY
Abstract

The quantification of blood cells provides critical information about a patient's health status. Sophisticated analytical equipment, such as hematology analyzers, have been developed to perform these measurements, but limited-resource settings often lack the infrastructure required to purchase, operate, and maintain instrumentation. To address these practical challenges, paper-based microfluidic devices have emerged as a platform to develop diagnostic assays specifically for use at the point-of-care. To date, paper-based microfluidic devices have been used broadly in diagnostic assays that apply immunoassay, clinical chemistry, and electrochemistry techniques. The analysis of cells, however, has been largely overlooked. In this communication, we demonstrate a paper-based microfluidic device that enables the controlled transport of red blood cells (RBCs) and the measurement of the hematocrit―the ratio of RBC packed cell volume to total volume of whole blood. The properties of paper, device treatment, and device geometry affect the overall extent and reproducibility of transport of RBCs. Ultimately, we developed an inexpensive (US$0.03 per device) thermometer-styled device where the distance traveled by RBCs is proportional to the hematocrit. These results provide a foundation for the design of paper-based microfluidic devices that enable the separation and detection of cells in limited-resource settings. [ABSTRACT FROM AUTHOR]

Published
2016
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38. Multiplexed, Patterned-Paper Immunoassay for Detection of Malaria and Dengue Fever.

Author

Deraney, Rachel N., Mace, Charles R., Rolland, Jason P., and Schonhorn, Jeremy E.

Subjects
*MALARIA diagnosis, *DENGUE, *DIAGNOSIS of fever, *IMMUNOASSAY, *MEDICAL personnel, *HEALTH status indicators, *BIOMARKERS
Abstract

Multiplex assays detect the presence of more than one analyte in a sample. For diagnostic applications, multiplexed tests save healthcare providers time and resources by performing many assays in parallel, minimizing the amount of sample needed and improving the quality of information acquired regarding the health status of a patient. These advantages are of particular importance for those diseases that present with general, overlapping symptoms, which makes presumptive treatments inaccurate and may put the patient at risk. For example, malaria and dengue fever are febrile illnesses transmitted through mosquito bites, and these common features make it difficult to obtain an accurate diagnosis by symptoms alone. In this manuscript, we describe the development of a multiplexed, patterned paper immunoassay for the detection of biomarkers of malaria and dengue fever: malaria HRP2, malaria pLDH, and dengue NS1 type 2. In areas coendemic for malaria and dengue fever, this assay could be used as a rapid, point-of-care diagnostic to determine the cause of a fever of unknown origin. The reagents required for each paper-based immunoassay are separated spatially within a three-dimensional device architecture, which allows the experimental conditions to be adjusted independently for each assay. We demonstrate the analytical performances of paper-based assays for each biomarker and we show that there is no significant difference in performance between the multiplexed immunoassay and those immunoassays performed in singleplex. Additionally, we spiked individual analytes into lysed human blood to demonstrate specificity in a clinically relevant sample matrix. Our results suggest multiplex paper-based devices can be an essential component of diagnostic assays used at the point-of-care. [ABSTRACT FROM AUTHOR]

Published
2016
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40. Enabling the Development and Deployment of Next Generation Point-of-Care Diagnostics.

Author

Derda, Ratmir, Gitaka, Jesse, Klapperich, Catherine M., Mace, Charles R., Kumar, Ashok A., Lieberman, Marya, Linnes, Jacqueline C., Jores, Joerg, Nasimolo, Johnson, Ndung'u, Joseph, Taracha, Evans, Weaver, Abigail, Weibel, Douglas B., Kariuki, Thomas M., and Yager, Paul

Subjects
POINT-of-care testing, RAPID diagnostic tests, RESOURCE-limited settings, DIAGNOSIS of HIV infections
Abstract

This document summarizes a conference on emerging diagnostic technologies for point-of-care (POC) diagnostics in low resource settings, with a focus on East Africa. The conference emphasized the need for POC diagnostics in these settings and proposed solutions to improve their development and deployment. It highlighted the success of rapid diagnostic tests for HIV and malaria as examples of the impact of POC diagnostics. The document also discussed challenges and barriers in the development and distribution of POC diagnostics, such as limitations in current malaria tests and the need for new tests for diseases like tuberculosis and Ebola. The conference addressed these challenges and potential solutions, including the importance of collaboration, funding, and communication. [Extracted from the article]

Published
2015
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41. A device architecture for three-dimensional, patterned paper immunoassays.

Author

Schonhorn, Jeremy E., Fernandes, Syrena C., Rajaratnam, Anjali, Deraney, Rachel N., Rolland, Jason P., and Mace, Charles R.

Subjects
IMMUNOASSAY, WELL-being, LONGEVITY, MEDICAL care, INFECTION
Abstract

Diagnostic assays can provide valuable information about the health status of a patient, which include detection of biomarkers that indicate the presence of an infection, the progression or regression of a disease, and the efficacy of a course of treatment. Critical healthcare decisions must often be made at the point-of-care, far from the infrastructure and diagnostic capabilities of centralized laboratories. There exists an obvious need for diagnostic tools that are designed to address the unique challenges encountered by healthcare workers in limited-resource settings. Paper, a readily-available and inexpensive commodity, is an attractive medium with which to develop diagnostic assays for use in limited-resource settings. In this article, we describe a device architecture to perform immunoassays in patterned paper. These paper-based devices use a combination of lateral and vertical flow to control the wicking of fluid in three-dimensions. We provide guidelines to aid in the design of these devices and we illustrate how patterning can be used to tune the duration and performance of the assay. We demonstrate the use of these paper-based devices by developing a sandwich immunoassay for human chorionic gonadotropin (hCG) in urine, a biomarker of pregnancy. We then directly compare the qualitative and quantitative results of these paper-based immunoassays to commercially available lateral flow tests (i.e., the home pregnancy test). Our results suggest paper-based devices may find broad utility in the development of immunoassays for use at the point-of-care. [ABSTRACT FROM AUTHOR]

Published
2014
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43. Examining the Interactions of the Splicing Factor MBNL1 with Target RNA Sequences via a Label-Free, Multiplex Method.

Author

Yadav, Amrita R., Mace, Charles R., and Miller, Benjamin L.

Subjects
*RNA splicing, *NUCLEOTIDE sequence, *PROTEIN binding, *REFLECTOMETRY, *MICROARRAY technology
Abstract

The near-ubiquity of the involvement of RNA in crucial biological processes is accepted. It is important, therefore, to study and understand the biophysical principles that regulate the function of RNA and its interactions with other molecules (e.g., proteins and antibiotics). Methods enabling the high-throughput determination of RNA-protein binding kinetics and thermodynamics would greatly accelerate understanding of these interactions. To that end, we describe the development of a real-time biomolecular interaction analysis platform based on arrayed imaging reflectometry (AIR) for multiplex analysis of RNA-protein interactions. We demonstrate the use of aqueous AIR by measuring the binding kinetics between muscleblind-like 1 (MBNL1), a splicing regulator protein that plays a pivotal role in the Myotonic Dystrophies and Huntington's Disease, and several of its RNA targets simultaneously on a microarrayed chip. Using this approach, we observe that the kinetics of MBNL1 binding isolated CUG and repeat CUG RNA sequences (as models for "normal" and "pathogenic" RNA, respectively) are different even though their steady state binding constants are similar. The ability to compare binding kinetics between RNA sequences rapidly and easily may provide insight into the molecular basis of MBNL1-RNA binding, and more generally suggests that AIR can be a powerful tool to enable the label-free, real-time analysis of biomolecular interactions in a high-throughput format. [ABSTRACT FROM AUTHOR]

Published
2014
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44. Using Magnetic Levitation to Separate Mixtures of Crystal Polymorphs.

Author

Atkinson, Manza B. J., Bwambok, David K., Chen, Jie, Chopade, Prashant D., Thuo, Martin M., Mace, Charles R., Mirica, Katherine A., Kumar, Ashok A., Myerson, Allan S., and Whitesides, George M.

Subjects
CRYSTAL growth, MAGNETIC properties, DENSITY, CRYSTALLIZATION, ORGANIC compounds research
Abstract

The article discusses research on the effectiveness of magnetic levitation (MagLev) in separating mixtures of crystal polymorphs. It mentions the production of a mixture of crystalline solids with various solid-state structures through the crystallization of an organic compound. It offers information on MagLev as a system providing density gradient measuring density and separate objects.

Published
2013
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46. Separation of Nanoparticlesin Aqueous MultiphaseSystems through Centrifugation.

Author

Akbulut, Ozge, Mace, Charles R., Martinez, Ramses V., Kumar, Ashok A., Nie, Zhihong, Patton, Matthew R., and Whitesides, George M.

Subjects
*NANOPARTICLES, *SEPARATION (Technology), *CENTRIFUGATION, *CHEMICAL stability, *CENTRIFUGES, *NANOSTRUCTURED materials
Abstract

This paper demonstrates the use of aqueous multiphasesystems (MuPSs)as media for rate-zonal centrifugation to separate nanoparticles ofdifferent shapes and sizes. The properties of MuPSs do not changewith time or during centrifugation; this stability facilitates samplecollection after separation. A three-phase system demonstrates theseparation of the reaction products (nanorods, nanospheres, and largeparticles) of a synthesis of gold nanorods, and enriches the nanorodsfrom 48 to 99% in less than ten minutes using a benchtop centrifuge. [ABSTRACT FROM AUTHOR]

Published
2012
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47. Aqueous Multiphase Systems of Polymers and Surfactants Provide Self-Assembling Step-Gradients in Density.

Author

Mace, Charles R., Akbulut, Ozge, Kumar, Ashok A., Shapiro, Nathan D., Derda, Ratmir, Patton, Matthew R., and Whitesides, George M.

Subjects
*SURFACE active agents, *POLYMERS, *MOLECULAR self-assembly, *COMPOSITE materials, *DENSITY, *AQUEOUS solutions
Abstract

This Communication demonstrates the generation of over 300 phase-separated systems—ranging from two to six phases-from mixtures of aqueous solutions of polymers and surfactants. These aqueous multiphase systems (MuPSs) form self-assembling, thermodynamically stable step-gradients in density using a common solvent, water. The steps in density between phases of a MuPS can be very small (Δρ ≈ 0.001 g/cm3), do not change over time, and can be tuned by the addition of co-solutes. We use two sets of similar objects, glass beads and pellets of different formulations of Nylon, to demonstrate the ability of MuPSs to separate mixtures of objects by differences in density. The stable interfaces between phases facilitate the convenient collection of species after separation. These results suggest that the stable, sharp step-gradients in density provided by MuPSs can enable new classes of fractionations and separations based on density. [ABSTRACT FROM AUTHOR]

Published
2012
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50. Paper-Based ELISA.

Author

Cheng, Chao-Min, Martinez, Andres W., Gong, Jinlong, Mace, Charles R., Phillips, Scott T., Carrilho, Emanuel, Mirica, Katherine A., and Whitesides, George M.

Published
2010
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