2012
DOI: 10.1039/c2em30048f
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Preparation and measurement methods for studying nanoparticle aggregate surface chemistry

Abstract: Despite best efforts at controlling nanoparticle (NP) surface chemistries, the environment surrounding nanomaterials is always changing and can impart a permanent chemical memory. We present a set of preparation and measurement methods to be used as the foundation for studying the surface chemical memory of engineered NP aggregates. We attempt to bridge the gap between controlled lab studies and real-world NP samples, specifically TiO(2), by using well-characterized and consistently synthesized NPs, controllab… Show more

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Cited by 13 publications
(33 citation statements)
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“…Provided that other techniques such as SEM and TEM have been used to locate samples rich in ENMs and ENM aggregates (perhaps after cryomicrotoming of the sample of interest), surface‐chemistry‐based methods such as X‐ray photoelectron spectroscopy (XPS), secondary ion mass spectrometry (SIMS), low‐energy ion scattering (LEIS), atomic force microscopy (AFM), scanning probe microscopy (SPM), and scanning tunneling microscopy (STM) can be used to provide very specific chemical information at a range of analytical figures of merit for ENM detection (Baer and others ). For example, XPS is a surface‐sensitive tool that can be used for examining compound‐identifying ENM functional groups (Gorham and others ), and time of flight (ToF)‐SIMS has recently been used in concert with specific sample preparation methodologies to discern subtle differences in ENM aggregate coatings (Szakal and others ). For compositional analysis alone, however, it is difficult to envision widespread deployment of surface‐chemistry–based methods for ENM detection because of their high learning curves and considerable expense.…”
Section: Overview Of Enm Detection and Characterization Methodsmentioning
confidence: 99%
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“…Provided that other techniques such as SEM and TEM have been used to locate samples rich in ENMs and ENM aggregates (perhaps after cryomicrotoming of the sample of interest), surface‐chemistry‐based methods such as X‐ray photoelectron spectroscopy (XPS), secondary ion mass spectrometry (SIMS), low‐energy ion scattering (LEIS), atomic force microscopy (AFM), scanning probe microscopy (SPM), and scanning tunneling microscopy (STM) can be used to provide very specific chemical information at a range of analytical figures of merit for ENM detection (Baer and others ). For example, XPS is a surface‐sensitive tool that can be used for examining compound‐identifying ENM functional groups (Gorham and others ), and time of flight (ToF)‐SIMS has recently been used in concert with specific sample preparation methodologies to discern subtle differences in ENM aggregate coatings (Szakal and others ). For compositional analysis alone, however, it is difficult to envision widespread deployment of surface‐chemistry–based methods for ENM detection because of their high learning curves and considerable expense.…”
Section: Overview Of Enm Detection and Characterization Methodsmentioning
confidence: 99%
“…Specific questions can also be answered with tailored methods such as fluorescence imaging and confocal laser scanning microscopy (CLSM) for studying trophic transfer of ENMs in the invertebrate food web (Holbrook and others ). However, there is no question that the majority of ENM‐related imaging studies have employed SEM or TEM to answer specific ENM‐related size information (Powell and others ; Luykx and others ; Tiede and others ; Pipan‐Tkalec and others ; Powell and others ; Huang and others ; Szakal and others ; Weir and others ). Regardless of ENM shape, the appropriate sample benefits from nanometer and subnanometer lateral resolution that can be offered with SEM and TEM, respectively, can answer critical questions regarding core–shell thicknesses, fates of ENM sizes, and extent of integration (for example, “Was the ENM integrated exactly as we expected/planned in a particular matrix?”).…”
Section: Overview Of Enm Detection and Characterization Methodsmentioning
confidence: 99%
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“…For example, SIMS has been employed in conjunction with inkjet printing to better understand the chemical characteristics of titanium dioxide nanomaterials deposited on a surface. 116 In addition, it has been used to study the drying characteristics and related dissolution states of silver nanomaterial suspensions in order to infer the nature of the initial solution. 116,117 Finally, the primary ion beam can be used to remove material from the specimen surface so that SIMS data can be collected in a depth profiling mode.…”
Section: Time-of-flight Secondary Ion Mass Spectrometrymentioning
confidence: 99%
“…116 In addition, it has been used to study the drying characteristics and related dissolution states of silver nanomaterial suspensions in order to infer the nature of the initial solution. 116,117 Finally, the primary ion beam can be used to remove material from the specimen surface so that SIMS data can be collected in a depth profiling mode. Depending on material, this technique can reliably be utilized to provide depth information from a single nanometer to several micrometers, depending on mode of operation and targeted analyte.…”
Section: Time-of-flight Secondary Ion Mass Spectrometrymentioning
confidence: 99%