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Your search keyword '"Borguet, Eric"' showing total 461 results
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461 results on '"Borguet, Eric"'

1. Determining the Dielectric Constant of Solid/Liquid Interfaces

Author

Dadashi, Somaiyeh, Adhikari, Narendra M., Li, Hao, Piontek, Stefan M., Wang, Zheming, Rosso, Kevin M., and Borguet, Eric

Subjects
Physics - Chemical Physics, Condensed Matter - Materials Science
Abstract

The dielectric constant ($\varepsilon^{\prime}$) of interfacial water is an important parameter, but its measurement has posed challenges, and no consensus has been reached on a generalized expression. We derived a formula for $\varepsilon^{\prime}$ of a buried interface using the slab model for a half-solvated sphere: $ \varepsilon^{\prime}=\varepsilon_1 \varepsilon_2\left(\varepsilon_2-\varepsilon_1+6\right) / 2\left(2 \varepsilon_2+\varepsilon_1\right)$, where $\varepsilon_1$ and $\varepsilon_2$ are the dielectric constants of the solid and liquid phases, respectively. We experimentally validated this expression using vibrational sum frequency generation and Fresnel factor calculations for interfaces of alumina with water ($ \mathrm{H_2O} $ and $ \mathrm{D_2O} $) and acetonitrile. This fills an important knowledge gap in the description of the dielectric constant of interfaces.

Published
2024

2. Bridging molecular-scale interfacial science with continuum-scale models.

Author

Ilgen, Anastasia, Borguet, Eric, Geiger, Franz, Gibbs, Julianne, Grassian, Vicki, Jun, Young-Shin, Kabengi, Nadine, and Kubicki, James

Abstract

Solid-water interfaces are crucial for clean water, conventional and renewable energy, and effective nuclear waste management. However, reflecting the complexity of reactive interfaces in continuum-scale models is a challenge, leading to oversimplified representations that often fail to predict real-world behavior. This is because these models use fixed parameters derived by averaging across a wide physicochemical range observed at the molecular scale. Recent studies have revealed the stochastic nature of molecular-level surface sites that define a variety of reaction mechanisms, rates, and products even across a single surface. To bridge the molecular knowledge and predictive continuum-scale models, we propose to represent surface properties with probability distributions rather than with discrete constant values derived by averaging across a heterogeneous surface. This conceptual shift in continuum-scale modeling requires exponentially rising computational power. By incorporating our molecular-scale understanding of solid-water interfaces into continuum-scale models we can pave the way for next generation critical technologies and novel environmental solutions.

Published
2024

3. Comparing Meta-GGAs, +U Corrections, and Hybrid Functionals for Polaronic Point Defects in Layered MnO$_2$, NiO$_2$, and KCoO$_2$

Author

Sah, Raj K., Zdilla, Michael J., Borguet, Eric, and Perdew, John P.

Subjects
Physics - Computational Physics
Abstract

Defects in a material can significantly tune properties and enhance utility. Hybrid functionals like HSE06 are often used to describe solids with such defects. However, geometry optimization (including accounting for effects such as Jahn-Teller distortion) using hybrid functionals is challenging for the large supercells needed for defect study. The proposed r$^2$SCAN+rVV10+U+$\mathrm{U_d}$ method, which is computationally much cheaper and faster than hybrid functionals, can successfully describe defects in materials with the proper choice of U (for the d orbitals of the host atom) and $\mathrm{U_d}$ (for those of the defect atom), as shown here for small polaron defects in layered transition-metal oxides. For a range of U and $\mathrm{U_d}$ around literature values (from solid-state reaction energies) for a given transition-metal ion and its oxidation state, we find that this approach predicts localized polaronic states in band gaps, as hybrid functionals do. The layered materials birnessite ($\mathrm{K_nMnO_2}, n=0.03 $) and $\mathrm{K_nNiO_2},n=0.03$, with one K atom intercalated between layers in a supercell, are found to have one localized occupied $\mathrm{e_g}$ polaronic state on the transition metal ion reduced by the insertion of the K atom, when the geometry is calculated as above using published U values. The expected Jahn-Teller distortion is not observed when U=$\mathrm{U_d}$=0. Layered cobalt oxide with additional potassium ions intercalated ($\mathrm{K_nCoO_2},n=1.03$) is different, due to a dramatic difference in electronic configuration of the defected Co(II) ion: A single extra K atom in the supercell leads to four localized electrons in the band gap, using standard U values, and even for U=$\mathrm{U_d}$=0.

Published
2024

6. Reversible solvent interactions with UiO-67 metal–organic frameworks.

Author

Goodenough, Isabella, Boyanich, Mikaela C., McDonnell, Ryan P., Castellana, Lauren, Datta Devulapalli, Venkata Swaroopa, Luo, Tian-Yi, Das, Prasenjit, Richard, Mélissandre, Rosi, Nathaniel L., and Borguet, Eric

Abstract

The utility of UiO-67 Metal–Organic Frameworks (MOFs) for practical applications requires a comprehensive understanding of intermolecular host-guest MOF–analyte interactions. To investigate intermolecular interactions between UiO-67 MOFs and complex molecules, it is useful to evaluate the interactions with simple polar and non-polar analytes. This problem is approached by investigating the interactions of polar (acetone and isopropanol) and non-polar (n-heptane) molecules with functionalized UiO-67 MOFs via temperature programmed desorption mass spectrometry and temperature programmed Fourier transform infrared spectroscopy. We find that isopropanol, acetone, and n-heptane bind reversibly and non-destructively to UiO-67 MOFs, where MOF and analyte functionality influence relative binding strengths (n-heptane ≈ isopropanol > acetone). During heating, all three analytes diffuse into the internal pore environment and directly interact with the μ3-OH groups located within the tetrahedral pores, evidenced by the IR response of ν(μ3-OH). We observe nonlinear changes in the infrared cross sections of the ν(CH) modes of acetone, isopropanol, and n-heptane following diffusion into UiO-67. Similarly, acetone's ν(C=O) infrared cross section increases dramatically when diffused into UiO-67. Ultimately, this in situ investigation provides insights into how individual molecular functional groups interact with UiO MOFs and enables a foundation where MOF interactions with complex molecular systems can be evaluated. [ABSTRACT FROM AUTHOR]

Published
2024
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9. Final Report on Energy Frontier Research Centers: Center for the Computational Design of Functional Layered Materials (CCDM) August 1, 2014 - July 31, 2018; Center for Complex Materials from First Principles (CCM) August 1, 2018 - July 31, 2021

Author

Perdew, John, primary, Bansil, Arun, additional, Borguet, Eric, additional, Cao, Linyou, additional, Haataja, Mikko, additional, Iavarone, Maria, additional, Karapetrov, Goran, additional, Klein, Michael, additional, Ruzsinszky, Adrienn, additional, Scuseria, Gustavo, additional, Srolovitz, David, additional, Strongin, Daniel, additional, Sun, Jianwei, additional, Wu, Xifan, additional, Xi, Xiaoxing, additional, Yan, Qimin, additional, Yang, Weitao, additional, Zdilla, Michael, additional, and Zhu, Yimei, additional

Published
2023
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11. A Simplified Approach for Dynamic Contact Angle Measurements

Author

Zou, Yunqian, Ross, Naomi, Nawaj, Wasim, and Borguet, Eric

Abstract

Contact angle measurement is a valuable tool for analyzing surface properties, including surface structure, cleanliness, and solid–liquid interactions. Typically, this measurement is performed at the static state, capturing the interactions at the solid–liquid interface when the gas, liquid, and solid phases reach equilibrium. In this study, we developed a user-friendly setup for accurately measuring dynamic contact angles using the needle-in-drop method. Our setup consists of a syringe for controlled liquid dispensing and withdrawal on a solid surface, a sample stage with a scale bar for baseline measurements (the diameter of the droplet), a lens to magnify the image of the droplet on the solid surface, and a smartphone camera for recording the dynamic expansion and retraction of the liquid droplet. In addition to obtaining the static sessile-drop contact angle information, our modified setup allows for the acquisition of other relevant parameters, including contact angle hysteresis and the contact-line pinning force. By training students to assemble a cost-effective contact angle measurement setup using laboratory components and guiding them in the utilization of this setup for conducting static and dynamic contact angle measurements, students gain practical experience to determine the surface wettability and interfacial energy from static contact angle measurements and to characterize the interfacial hysteresis and liquid mobility from dynamic contact angle measurements. We anticipate that this approach will benefit students in a wide range of disciplines, including materials science, chemical engineering, and physical chemistry, where understanding surface properties is essential.

Published
2024
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13. Steric Effects on Single‐Molecule Conductance in Flat‐Lying Phenanthrene.

Author

Batzinger, Kevin, Zhou, Qinghai, Ye, Xiang, Borguet, Eric, Xiao, Shengxiong, and Smeu, Manuel

Subjects
SCANNING tunneling microscopy, PHENANTHRENE, GREEN'S functions, DENSITY functional theory, GOLD clusters, MOLECULAR electronics
Abstract

A previous combined experimental and theoretical study found that the position of anchoring groups on a phenanthrene (PHE) backbone played a large role in determining the single‐molecule conductance of the PHE derivative. However, a consistent 0.1 G0 feature was found across all PHE derivatives. To understand this, the previously investigated PHE derivatives were placed flat on a simulated Au substrate with a scanning tunneling microscope (STM) tip over PHE and conductance was calculated using the non‐equilibrium Green's function technique in conjunction with density functional theory (NEGF‐DFT). The location of the tip was varied to find the most conductive and most energetically favorable arrangements, which did not coincide. Furthermore, the variation in conductance found in erect junctions was not present when PHE derivatives were lying flat, with all derivatives calculated to have conductance values around 0.1 G0. [ABSTRACT FROM AUTHOR]

Published
2024
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19. Oxide– and Silicate–Water Interfaces and Their Roles in Technology and the Environment

Author

Bañuelos, José Leobardo, primary, Borguet, Eric, additional, Brown, Gordon E., additional, Cygan, Randall T., additional, DeYoreo, James J., additional, Dove, Patricia M., additional, Gaigeot, Marie-Pierre, additional, Geiger, Franz M., additional, Gibbs, Julianne M., additional, Grassian, Vicki H., additional, Ilgen, Anastasia G., additional, Jun, Young-Shin, additional, Kabengi, Nadine, additional, Katz, Lynn, additional, Kubicki, James D., additional, Lützenkirchen, Johannes, additional, Putnis, Christine V., additional, Remsing, Richard C., additional, Rosso, Kevin M., additional, Rother, Gernot, additional, Sulpizi, Marialore, additional, Villalobos, Mario, additional, and Zhang, Huichun, additional

Published
2023
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27. Synergistic Electronic Effects in AuCo Nanoparticles Stabilized in a Triazine-Based Covalent Organic Framework: A Catalyst for Methyl Orange and Methylene Blue Reduction

Author

Devulapalli, Venkata Swaroopa Datta, primary, Kushwaha, Rinku, additional, Ovalle, Edwin, additional, Singh, Himan Dev, additional, Shekhar, Pragalbh, additional, Chakraborty, Debanjan, additional, Vinod, Chathakudath Prabhakaran, additional, Vaidhyanathan, Ramanathan, additional, and Borguet, Eric, additional

Published
2022
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41. Adsorption and electrochemical activity: An in situ electrochemical scanning tunneling microscopy study of electrode reactions and potential-induced adsorption of porphyrins

Author

Ye, Tao, He, Yufan, and Borguet, Eric

Subjects
Scanning tunneling microscopy -- Usage, Adsorption -- Research, Porphyrins -- Chemical properties, Porphyrins -- Atomic properties, Molecular dynamics -- Research, Chemicals, plastics and rubber industries
Abstract

Classical electrochemistry and electrochemical scanning tunneling microscopy (EC-STM) were combined to provide molecular level insight into electrochemical reactions and the molecular adsorption state at the electrolyte-electrode interface. This provides direct, molecular level evidence of the electrochemically 'invisible' species and electrochemical activity of absorbed species is recovered by allowing the oxidized molecule sufficient time to reduce.

Published
2006

42. Sulfur impregnation on activated carbon fibers through [H.sub.2]S oxidation for vapor phase mercury removal

Author

Feng, Wenguo, Kwon, Seokjoon, Feng, Xue, Borguet, Eric, and Vidic, Radisav D.

Subjects
Sulfur -- Chemical properties, Carbon, Activated -- Chemical properties, Oxidation-reduction reaction -- Analysis, Engineering and manufacturing industries, Environmental issues
Abstract

Sulfur was impregnated onto activated carbon fibers (ACFs) through [H.sub.2]S oxidation catalyzed by the sorbent surface in a fixed-bed reactor. By changing the temperature and duration of the sulfur impregnation process, ACFs with different sulfur contents were developed. Characterization of ACFs before and after sulfur impregnation was conducted by surface area analysis, energy dispersive X-ray analysis, thermogravimetric analysis, X-ray photoelectron spectroscopy, and temperature programmed desorption. Vapor phase mercury adsorption experiments were carried out in a fixed-bed reactor. Sulfur was impregnated mainly as elemental sulfur and the amount of sulfur deposited on the ACF increased with an increase in impregnation temperature. Higher temperature leads to more uniform sulfur distribution inside the sorbent pores. The impregnation process can be explained by a combination of pore filling and monolayer adsorption, with the former mechanism predominating at low temperatures. In the absence of sulfur, the mercury adsorption capacity can be correlated with surface area and pore volume. DOI: 10.1061/(ASCE)0733-9372(2006)132:3(292) CE Database subject headings: Activated carbon; Sulfur; Mercury; Hydrogen sulfides; Oxidation; Abatement and removal.

Published
2006

45. Modeling of Diffusion of Acetone in UiO-66

Author

Wardzala, Jacob J., primary, Ruffley, Jonathan P., additional, Goodenough, Isabella, additional, Schmidt, Allie M., additional, Shukla, Priyanka B., additional, Wei, Xin, additional, Bagusetty, Abhishek, additional, De Souza, Mattheus, additional, Das, Prasenjit, additional, Thompson, Dorian J., additional, Karwacki, Christopher J., additional, Wilmer, Christopher E., additional, Borguet, Eric, additional, Rosi, Nathaniel L., additional, and Johnson, J. Karl, additional

Published
2020
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46. A vibrational spectroscopic study of the fate of oxygen-containing functional groups and trapped CO2 in single-walled carbon nanotubes during thermal treatment

Author

Xue Feng, Matranga, Christopher, Vidic, Radisav, and Borguet, Eric

Subjects
Nanotubes -- Research, Carbon dioxide -- Optical properties, Fourier transform infrared spectroscopy -- Usage, Vibrational spectra -- Analysis, Chemicals, plastics and rubber industries
Abstract

The oxygen-containing functional groups, introduced by common purification procedures, on single-walled carbon nanotubes made by both the HiPco and laser-ablation techniques are studied by Fourier Transform Infrared (FTIR) spectroscopy from 90 to 1400 K under vacuum. Effectiveness of the vacuum heating in removing most of the functionalities created in HNO3-treated HiPco samples is revealed.

Published
2004

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