Echoes of the Brain within Default Mode, Association, and Heteromodal Cortices

Using mechanistic data from surface science studies on electron-induced reactions of organometallic precursors, cis-Pt(CO)2Cl2 (1) was designed specifically for use in focused electron beam induced deposition (FEBID) of Pt nanostructures. Electron induced decomposition of adsorbed 1 under ultrahigh vacuum (UHV) conditions proceeds through initial CO loss as determined by in situ X-ray photoelectron spectroscopy and mass spectrometry. Although the Pt-Cl bonds remain intact during the initial decomposition step, larger electron doses induce removal of the residual chloride through an electron-stimulated desorption process. FEBID structures created from cis-Pt(CO)2Cl2 under steady state deposition conditions in an Auger spectrometer were determined to be PtCl2, free of carbon and oxygen. Coupled with the electron stimulated removal of chlorine demonstrated in the UHV experiments, the Auger deposition data establish a route to FEBID of pure Pt. Results from this study demonstrate that structure-activity relationships can be used to design new precursors specifically for FEBID.

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Understanding the electron-stimulated surface reactions of organometallic complexes to enable design of precursors for electron beam-induced deposition

Spencer

Rosenberg

Barclay

et al. 2014

Appl. Phys. A

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Electron-Induced Surface Reactions of η³-Allyl Ruthenium Tricarbonyl Bromide [(η³-C₃H₅)Ru(CO)₃Br]: Contrasting the Behavior of Different Ligands

et al. 2015

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Toward the goal of better understanding the elementary steps involved in the electron beam-induced deposition (EBID) of organometallic precursors, the present study is aimed at understanding the sequence of electronstimulated reactions of surface-bound η 3 -allyl ruthenium tricarbonyl bromide [(η 3 -C 3 H 5 )Ru(CO) 3 Br], an organometallic complex with three different ligands: carbonyl (CO), halide (Br), and η 3 -allyl (η 3 -C 3 H 5 ). X-ray photoelectron spectroscopy and mass spectrometry were used in situ to probe the effects of 500 eV electrons on nanometer scale films of [(η 3 -C 3 H 5 )Ru-(CO) 3 Br]. Initially, electron irradiation decomposes the precursor, reducing the central Ru atom and causing the ejection of CO ligands into the gas phase. Experimental evidence points to the inability of electron irradiation to remove the carbon atoms of the η 3 -allyl (η 3 -C 3 H 5 ) ligand from the resulting EBID deposits. Although the Br atoms are not labile in the initial molecular decomposition step, they are removed from the film after exposure to higher electron doses as a result of a slower, electron-stimulated desorption process. Comparative studies with [(η 3 -C 3 H 5 )Ru(CO) 3 Cl] reveal that the identity of the halogen does not influence the elementary reaction steps involved in the decomposition process. Collectively, results from these studies suggest that sufficiently volatile organometallic precursors with a small number of carbonyl and halide ligands could be used to generate deposits in EBID with significantly higher metal concentrations (and correspondingly lower levels of organic contamination) compared to existing EBID precursors.

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Electron induced surface reactions of (η⁵-C₅H₅)Fe(CO)₂Mn(CO)₅, a potential heterobimetallic precursor for focused electron beam induced deposition (FEBID)

Unlu

Spencer

Johnson

et al. 2018

Phys. Chem. Chem. Phys.

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Electron-induced surface reactions of (η-CH)Fe(CO)Mn(CO) were explored in situ under ultra-high vacuum conditions using X-ray photoelectron spectroscopy and mass spectrometry. The initial step involves electron-stimulated decomposition of adsorbed (η-CH)Fe(CO)Mn(CO) molecules, accompanied by the desorption of an average of five CO ligands. A comparison with recent gas phase studies suggests that this precursor decomposition step occurs by a dissociative ionization (DI) process. Further electron irradiation decomposes the residual CO groups and (η-CH, Cp) ligand, in the absence of any ligand desorption. The decomposition of CO ligands leads to Mn oxidation, while electron stimulated Cp decomposition causes all of the associated carbon atoms to be retained in the deposit. The lack of any Fe oxidation is ascribed to either the presence of a protective carbonaceous matrix around the Fe atoms created by the decomposition of the Cp ligand, or to desorption of both CO ligands bound to Fe in the initial decomposition step. The selective oxidation of Mn in the absence of any Fe oxidation suggests that the fate of metal atoms in mixed-metal precursors for focused electron beam induced deposition (FEBID) will be sensitive to the nature and number of ligands in the immediate coordination sphere. In related studies, the composition of deposits created from (η-CH)Fe(CO)Mn(CO) under steady state deposition conditions, representative of those used to create nanostructures in electron microscopes, were measured and found to be qualitatively consistent with predictions from the UHV surface science studies.

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Weathering of pyrogenic organic matter induces fungal oxidative enzyme response in single culture inoculation experiments

Gibson

Berry

Wang

et al. 2016

Organic Geochemistry

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The addition of pyrogenic organic matter (PyOM), the aromatic carbon-rich product of the incomplete combustion of plant biomass or fossil fuels, to soil can influence the rate of microbial metabolism of native soil carbon. The interaction of soil heterotrophs with PyOM may be governed by the surficial chemical and physical properties of PyOM that evolve with environmental exposure. We present results of a 36-day laboratory incubation investigating the interaction of a common white-rot fungus, Trametes versicolor, with three forms of 13C-enriched (2.08 atom% 13C) PyOM derived from Pinus ponderosa (450 °C): one freshly produced, and two artificially weathered (254 nm, UV light-water treatment and water-leaching alone). Analysis (FTIR, XPS) of the UV-weathered PyOM showed increased aliphatic C–H content and oxidation of aromatic carbon relative to both the original and water-leached PyOM. The addition of both weathered forms of PyOM stimulated (positively primed) fungal respiration of the growth media, while the unaltered PyOM mildly inhibited (negatively primed) respiration. Artificial weathering resulted in higher oxidative (laccase and peroxidase) enzyme activity than unaltered PyOM, possibly the result of a diminished capacity to bind reactive substrates and extracellular enzymes after weathering. However, and contrary to expectations, simple water-leached weathering resulted in a relatively higher enzyme activity and respiration than that of UV-weathering. The 13C content of respired CO2 indicated negligible fungal oxidation of PyOM for all treatments, demonstrating the overall low microbial reactivity of this high temperature PyOM. The increased enzymatic and positive priming response of T. versicolor to weathered PyOM highlights the importance of weathering-induced chemistry in controlling PyOM–microbe–soil carbon interactions.

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Mechanism-based design of precursors for focused electron beam-induced deposition

et al. 2018

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Comparing postdeposition reactions of electrons and radicals with Pt nanostructures created by focused electron beam induced deposition

Spencer

Barclay

Gallagher

et al. 2017

Beilstein J. Nanotechnol.

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The ability of electrons and atomic hydrogen (AH) to remove residual chlorine from PtCl2 deposits created from cis-Pt(CO)2Cl2 by focused electron beam induced deposition (FEBID) is evaluated. Auger electron spectroscopy (AES) and energy-dispersive X-ray spectroscopy (EDS) measurements as well as thermodynamics calculations support the idea that electrons can remove chlorine from PtCl2 structures via an electron-stimulated desorption (ESD) process. It was found that the effectiveness of electrons to purify deposits greater than a few nanometers in height is compromised by the limited escape depth of the chloride ions generated in the purification step. In contrast, chlorine atoms can be efficiently and completely removed from PtCl2 deposits using AH, regardless of the thickness of the deposit. Although AH was found to be extremely effective at chemically purifying PtCl2 deposits, its viability as a FEBID purification strategy is compromised by the mobility of transient Pt–H species formed during the purification process. Scanning electron microscopy data show that this results in the formation of porous structures and can even cause the deposit to lose structural integrity. However, this phenomenon suggests that the use of AH may be a useful strategy to create high surface area Pt catalysts and may reverse the effects of sintering. In marked contrast to the effect observed with AH, densification of the structure was observed during the postdeposition purification of PtCx deposits created from MeCpPtMe3 using atomic oxygen (AO), although the limited penetration depth of AO restricts its effectiveness as a purification strategy to relatively small nanostructures.

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Integrating Informatics in Undergraduate Nursing Curricula: Using the QSEN Framework as a Guide

Spencer¹

2012

J Nurs Educ

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Informatics education must prepare today's nurses to manage a deluge of information and use technology effectively. In addition, U.S. health care is being redesigned with technology that improves patient safety and quality of care. The Institute of Medicine's recommendations for health care safety and professional education prompted initiatives by the National League for Nursing, the American Association of Colleges of Nursing, and others to make informatics a fundamental part of nursing education. The Quality and Safety Education for Nurses (QSEN) project outlines specific competency goals for informatics knowledge, skills, and attitudes. However, progress toward integration of informatics in nursing curricula has been slow, and additional strategies need further exploration and discussion in the nursing literature. This article uses the QSEN framework to present strategies for teaching multiple facets of informatics in the classroom, simulation laboratory, and clinical settings in a baccalaureate nursing curriculum.

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Julie A. Spencer

Electron Induced Surface Reactions of cis-Pt(CO)₂Cl₂: A Route to Focused Electron Beam Induced Deposition of Pure Pt Nanostructures

Understanding the electron-stimulated surface reactions of organometallic complexes to enable design of precursors for electron beam-induced deposition

Electron-Induced Surface Reactions of η³-Allyl Ruthenium Tricarbonyl Bromide [(η³-C₃H₅)Ru(CO)₃Br]: Contrasting the Behavior of Different Ligands

Electron induced surface reactions of (η⁵-C₅H₅)Fe(CO)₂Mn(CO)₅, a potential heterobimetallic precursor for focused electron beam induced deposition (FEBID)

Weathering of pyrogenic organic matter induces fungal oxidative enzyme response in single culture inoculation experiments

Mechanism-based design of precursors for focused electron beam-induced deposition

Comparing postdeposition reactions of electrons and radicals with Pt nanostructures created by focused electron beam induced deposition

Integrating Informatics in Undergraduate Nursing Curricula: Using the QSEN Framework as a Guide

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Julie A. Spencer

Electron Induced Surface Reactions of cis-Pt(CO)2Cl2: A Route to Focused Electron Beam Induced Deposition of Pure Pt Nanostructures

Understanding the electron-stimulated surface reactions of organometallic complexes to enable design of precursors for electron beam-induced deposition

Electron-Induced Surface Reactions of η3-Allyl Ruthenium Tricarbonyl Bromide [(η3-C3H5)Ru(CO)3Br]: Contrasting the Behavior of Different Ligands

Electron induced surface reactions of (η5-C5H5)Fe(CO)2Mn(CO)5, a potential heterobimetallic precursor for focused electron beam induced deposition (FEBID)

Weathering of pyrogenic organic matter induces fungal oxidative enzyme response in single culture inoculation experiments

Mechanism-based design of precursors for focused electron beam-induced deposition

Comparing postdeposition reactions of electrons and radicals with Pt nanostructures created by focused electron beam induced deposition

Integrating Informatics in Undergraduate Nursing Curricula: Using the QSEN Framework as a Guide

Contact Info

Product

Resources

About

Electron Induced Surface Reactions of cis-Pt(CO)₂Cl₂: A Route to Focused Electron Beam Induced Deposition of Pure Pt Nanostructures

Electron-Induced Surface Reactions of η³-Allyl Ruthenium Tricarbonyl Bromide [(η³-C₃H₅)Ru(CO)₃Br]: Contrasting the Behavior of Different Ligands

Electron induced surface reactions of (η⁵-C₅H₅)Fe(CO)₂Mn(CO)₅, a potential heterobimetallic precursor for focused electron beam induced deposition (FEBID)