Wet/Dry Bottlebrush Pressure Sensitive Adhesives via a Dangling Defect-Driven Design by Brandon R. Clarke (12837931)

“…A series of bottlebrush pressure sensitive adhesives (PSAs) containing progressively greater numbers of large dangling ends were synthesized using ring-opening metathesis polymerization. …”

Proportion of new cases transmitted via each route for only simulations with large outbreaks and a disease introduction of May 2019. by Kathleen Moriarty (16275755)

The two mechanisms of increase. by Jakub Köry (17980273)

Innovation and night light in large and small cities. by Saul Estrin (8629173)

Geographical distribution of large cities and small cities. by Saul Estrin (8629173)

“…Panel <b>a</b> plots 36 cities in our sample that are defined as “large” cities and <b>b</b> plots 128 “small” cities with <5 million population. …”

Innovation, nightlights and a continuous measure of city size. by Saul Estrin (8629173)

Analysis of epithelial cell growth via gillespie simulations. by Raúl A. Reyes Hueros (19959526)

Large-Area Fabrication of a Highly Stable Wearable Temperature Sensing System via Dispensing Printing: Carbon-Based Electronic Ink, Self-Charging Sensing, and Remote Human Monitori... by Haoran Zhang (731854)

Novel Equivalent Carbon Number Strategy for Large-Scale Lipidomics Data Analysis via Ultrahigh–Performance Liquid Chromatography–Orbitrap Astral Mass Spectrometry by Yao Chen (149006)

“…In this study, we propose a comprehensive strategy using the Equivalent Carbon Number (ECN) model to integrate the advantages of MS-DIAL (providing precise lipid retention behavior) and LipidSearch (offering accurate MS/MS spectral information). …”

Novel Equivalent Carbon Number Strategy for Large-Scale Lipidomics Data Analysis via Ultrahigh–Performance Liquid Chromatography–Orbitrap Astral Mass Spectrometry by Yao Chen (149006)

“…In this study, we propose a comprehensive strategy using the Equivalent Carbon Number (ECN) model to integrate the advantages of MS-DIAL (providing precise lipid retention behavior) and LipidSearch (offering accurate MS/MS spectral information). …”

Novel Equivalent Carbon Number Strategy for Large-Scale Lipidomics Data Analysis via Ultrahigh–Performance Liquid Chromatography–Orbitrap Astral Mass Spectrometry by Yao Chen (149006)

“…In this study, we propose a comprehensive strategy using the Equivalent Carbon Number (ECN) model to integrate the advantages of MS-DIAL (providing precise lipid retention behavior) and LipidSearch (offering accurate MS/MS spectral information). …”

Novel Equivalent Carbon Number Strategy for Large-Scale Lipidomics Data Analysis via Ultrahigh–Performance Liquid Chromatography–Orbitrap Astral Mass Spectrometry by Yao Chen (149006)

“…In this study, we propose a comprehensive strategy using the Equivalent Carbon Number (ECN) model to integrate the advantages of MS-DIAL (providing precise lipid retention behavior) and LipidSearch (offering accurate MS/MS spectral information). …”

Novel Equivalent Carbon Number Strategy for Large-Scale Lipidomics Data Analysis via Ultrahigh–Performance Liquid Chromatography–Orbitrap Astral Mass Spectrometry by Yao Chen (149006)

“…In this study, we propose a comprehensive strategy using the Equivalent Carbon Number (ECN) model to integrate the advantages of MS-DIAL (providing precise lipid retention behavior) and LipidSearch (offering accurate MS/MS spectral information). …”

Novel Equivalent Carbon Number Strategy for Large-Scale Lipidomics Data Analysis via Ultrahigh–Performance Liquid Chromatography–Orbitrap Astral Mass Spectrometry by Yao Chen (149006)

“…In this study, we propose a comprehensive strategy using the Equivalent Carbon Number (ECN) model to integrate the advantages of MS-DIAL (providing precise lipid retention behavior) and LipidSearch (offering accurate MS/MS spectral information). …”

Methods for Quantifying the Metabolic Boundary Fluxes of Cell Cultures in Large Cohorts by High-Resolution Hydrophilic Liquid Chromatography Mass Spectrometry by Ryan A. Groves (11439742)

“…Metabolomics is a mainstream approach for investigating the metabolic underpinnings of complex biological phenomena and is increasingly being applied to large-scale studies involving hundreds or thousands of samples. …”

Methods for Quantifying the Metabolic Boundary Fluxes of Cell Cultures in Large Cohorts by High-Resolution Hydrophilic Liquid Chromatography Mass Spectrometry by Ryan A. Groves (11439742)

“…Metabolomics is a mainstream approach for investigating the metabolic underpinnings of complex biological phenomena and is increasingly being applied to large-scale studies involving hundreds or thousands of samples. …”

Methods for Quantifying the Metabolic Boundary Fluxes of Cell Cultures in Large Cohorts by High-Resolution Hydrophilic Liquid Chromatography Mass Spectrometry by Ryan A. Groves (11439742)

“…Metabolomics is a mainstream approach for investigating the metabolic underpinnings of complex biological phenomena and is increasingly being applied to large-scale studies involving hundreds or thousands of samples. …”

Methods for Quantifying the Metabolic Boundary Fluxes of Cell Cultures in Large Cohorts by High-Resolution Hydrophilic Liquid Chromatography Mass Spectrometry by Ryan A. Groves (11439742)

“…Metabolomics is a mainstream approach for investigating the metabolic underpinnings of complex biological phenomena and is increasingly being applied to large-scale studies involving hundreds or thousands of samples. …”

Methods for Quantifying the Metabolic Boundary Fluxes of Cell Cultures in Large Cohorts by High-Resolution Hydrophilic Liquid Chromatography Mass Spectrometry by Ryan A. Groves (11439742)

“…Metabolomics is a mainstream approach for investigating the metabolic underpinnings of complex biological phenomena and is increasingly being applied to large-scale studies involving hundreds or thousands of samples. …”

Methods for Quantifying the Metabolic Boundary Fluxes of Cell Cultures in Large Cohorts by High-Resolution Hydrophilic Liquid Chromatography Mass Spectrometry by Ryan A. Groves (11439742)

“…Metabolomics is a mainstream approach for investigating the metabolic underpinnings of complex biological phenomena and is increasingly being applied to large-scale studies involving hundreds or thousands of samples. …”