Distribution of the same ingredient across different IDDSI levels (Percentages and frequencies) and statistical significance analysis (Chi-square analysis). by Muxi Chen (9294270)

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PRISMA flow diagram of study selection. by Masoud Rahmati (16665456)

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General characteristics of included studies. by Masoud Rahmati (16665456)

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Characteristics of individual studies. by Masoud Rahmati (16665456)

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Landmark prospective studies on the impact of T classification and LN involvement on the survival of AC. by Aihong Zheng (20571034)

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Adult <i>Shroom3</i>^<i>+</i>^<i>/Gt</i> hearts show decreased cardiomyocyte cross-sectional area. by Jennifer L. Carleton (22208916)

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Impact of 5′ nucleotidase disruption on <i>M</i>. <i>bovis</i> growth phenotype in axenic conditions. by Aga E. Gelgie (17661720)

Total match head impacts by player position. by Rachel S. Watson (21864061)

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Total match head impacts by header scenario. by Rachel S. Watson (21864061)

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Team A head impacts by player position. by Rachel S. Watson (21864061)

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Enhanced Reaction Kinetics in Stationary Two-Phase Flow through Porous Media by Xueyi Zhang (2019148)

“…The global kinetics initially increase before experiencing a monotonic decrease with significant fluctuations caused by the displacement of the nonwetting phase. …”

Enhanced Reaction Kinetics in Stationary Two-Phase Flow through Porous Media by Xueyi Zhang (2019148)

“…The global kinetics initially increase before experiencing a monotonic decrease with significant fluctuations caused by the displacement of the nonwetting phase. …”

Enhanced Reaction Kinetics in Stationary Two-Phase Flow through Porous Media by Xueyi Zhang (2019148)

“…The global kinetics initially increase before experiencing a monotonic decrease with significant fluctuations caused by the displacement of the nonwetting phase. …”

Enhanced Reaction Kinetics in Stationary Two-Phase Flow through Porous Media by Xueyi Zhang (2019148)

“…The global kinetics initially increase before experiencing a monotonic decrease with significant fluctuations caused by the displacement of the nonwetting phase. …”

Enhanced Reaction Kinetics in Stationary Two-Phase Flow through Porous Media by Xueyi Zhang (2019148)

“…The global kinetics initially increase before experiencing a monotonic decrease with significant fluctuations caused by the displacement of the nonwetting phase. …”

Enhanced Reaction Kinetics in Stationary Two-Phase Flow through Porous Media by Xueyi Zhang (2019148)

“…The global kinetics initially increase before experiencing a monotonic decrease with significant fluctuations caused by the displacement of the nonwetting phase. …”

Enhanced Reaction Kinetics in Stationary Two-Phase Flow through Porous Media by Xueyi Zhang (2019148)

“…The global kinetics initially increase before experiencing a monotonic decrease with significant fluctuations caused by the displacement of the nonwetting phase. …”

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. …”