Impact test procedure on panel. by Tek Raj Gyawali (20550560)

“…Panels reinforced with thinner PVA fibers exhibited superior performance in resisting compressive and impact loads. This enabled a reduction in fiber content to 1.2% (a 60% decrease) and panel thickness to 22 mm (a 4.35% decrease) compared to panels with thicker fibers. …”

Data Sheet 1_Previous COVID-19 infection significantly reduces elastase levels in newly diagnosed pulmonary tuberculosis patients.pdf by Nancy Hilda Joseph (21837314)

“…Introduction<p>Tuberculosis (TB) is considered a risk factor for severe COVID-19 disease and the quality of life of patients co-infected with COVID-19 and TB is significantly impacted due to the nature of these diseases. …”

HSP90 inhibition by RGRN-305 decreased the gene expression of proinflammatory cytokines induced by SARS-CoV-2 S protein. by Hakim Ben Abdallah (14578241)

BMI groups by SES. by Krystal Hunter (6820052)

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BMISES_Data_Part2. by Krystal Hunter (6820052)

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Logistic regression for LSES population. by Krystal Hunter (6820052)

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Logistic regression for HSES population. by Krystal Hunter (6820052)

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Logistic regression for overall population. by Krystal Hunter (6820052)

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BMISES_Data_Part1. by Krystal Hunter (6820052)

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Baseline characteristics of HSES/LSES population. by Krystal Hunter (6820052)

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Baseline characteristics of overall population. by Krystal Hunter (6820052)

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Diagram of study population. by Krystal Hunter (6820052)

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The impact of bacteriocin PCM7−4 on the formation of <i>L. monocytogenes</i> biofilms was observed using SEM. by Haotian Ma (11100492)

The Influence of Nucleating Agent Positional Isomer Structure on the Nucleation Efficiency of Poly(lactic acid): Interaction-Induced Conformational Transitions under High Lattice M... by Jingbo Wu (328587)

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The Influence of Nucleating Agent Positional Isomer Structure on the Nucleation Efficiency of Poly(lactic acid): Interaction-Induced Conformational Transitions under High Lattice M... by Jingbo Wu (328587)

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Heterogeneous Condensation on Simplified Viral Envelope Protein Structures by Kawkab Ahasan (18784843)

“…Elucidating the mechanisms of heterogeneous condensation on viral and bacterial envelopes is crucial for understanding biothreat transport phenomena and optimizing capture efficiency in condensation-based detection devices. We investigate the impact of viral envelope geometric parameters [e.g., surface structure pitch-to-diameter ratio (<i>p</i>/<i>d</i>)] due to protruding glycoproteins and surface wettability [via liquid–solid interaction intensity (<i>f</i>)] on heterogeneous condensation using molecular dynamics simulations. …”

Heterogeneous Condensation on Simplified Viral Envelope Protein Structures by Kawkab Ahasan (18784843)

“…Elucidating the mechanisms of heterogeneous condensation on viral and bacterial envelopes is crucial for understanding biothreat transport phenomena and optimizing capture efficiency in condensation-based detection devices. We investigate the impact of viral envelope geometric parameters [e.g., surface structure pitch-to-diameter ratio (<i>p</i>/<i>d</i>)] due to protruding glycoproteins and surface wettability [via liquid–solid interaction intensity (<i>f</i>)] on heterogeneous condensation using molecular dynamics simulations. …”

Heterogeneous Condensation on Simplified Viral Envelope Protein Structures by Kawkab Ahasan (18784843)

“…Elucidating the mechanisms of heterogeneous condensation on viral and bacterial envelopes is crucial for understanding biothreat transport phenomena and optimizing capture efficiency in condensation-based detection devices. We investigate the impact of viral envelope geometric parameters [e.g., surface structure pitch-to-diameter ratio (<i>p</i>/<i>d</i>)] due to protruding glycoproteins and surface wettability [via liquid–solid interaction intensity (<i>f</i>)] on heterogeneous condensation using molecular dynamics simulations. …”

Heterogeneous Condensation on Simplified Viral Envelope Protein Structures by Kawkab Ahasan (18784843)

“…Elucidating the mechanisms of heterogeneous condensation on viral and bacterial envelopes is crucial for understanding biothreat transport phenomena and optimizing capture efficiency in condensation-based detection devices. We investigate the impact of viral envelope geometric parameters [e.g., surface structure pitch-to-diameter ratio (<i>p</i>/<i>d</i>)] due to protruding glycoproteins and surface wettability [via liquid–solid interaction intensity (<i>f</i>)] on heterogeneous condensation using molecular dynamics simulations. …”

Heterogeneous Condensation on Simplified Viral Envelope Protein Structures by Kawkab Ahasan (18784843)

“…Elucidating the mechanisms of heterogeneous condensation on viral and bacterial envelopes is crucial for understanding biothreat transport phenomena and optimizing capture efficiency in condensation-based detection devices. We investigate the impact of viral envelope geometric parameters [e.g., surface structure pitch-to-diameter ratio (<i>p</i>/<i>d</i>)] due to protruding glycoproteins and surface wettability [via liquid–solid interaction intensity (<i>f</i>)] on heterogeneous condensation using molecular dynamics simulations. …”