Detailed descriptions of inferred metabolic pathways for dataset 4. by Tejaswini Baral (14320736)

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Detailed descriptions of inferred metabolic pathways for dataset 1. by Tejaswini Baral (14320736)

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Alpha diversity. by Tejaswini Baral (14320736)

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Beta Diversity. by Tejaswini Baral (14320736)

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LEfSe Analysis. by Tejaswini Baral (14320736)

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Relative abundance. by Tejaswini Baral (14320736)

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Detailed descriptions of inferred metabolic pathways for dataset 2. by Tejaswini Baral (14320736)

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Detailed descriptions of inferred metabolic pathways for dataset 3. by Tejaswini Baral (14320736)

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Number of active features in group-wise comparison. by Tejaswini Baral (14320736)

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Overview of selected datasets. by Tejaswini Baral (14320736)

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Minimal data set. by Pornpan Chalermkitpanit (22110121)

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Univariate and multivariate analysis of variables associated with good and poor responders to TFESI. by Pornpan Chalermkitpanit (22110121)

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The correlation between clinical presentations and baseline serum inflammatory cytokines before TFESI. by Pornpan Chalermkitpanit (22110121)

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The serum concentrations of cytokines between good responders and poor responders to TFESI. by Pornpan Chalermkitpanit (22110121)

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Demographic data and baseline characteristics between good and poor responders to TFESI. by Pornpan Chalermkitpanit (22110121)

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The correlation between the duration of pain symptoms and baseline serum inflammatory cytokine levels before TFESI. by Pornpan Chalermkitpanit (22110121)

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Supplementary results_detailed. by Pornpan Chalermkitpanit (22110121)

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Regional Characteristics in Ultradeep MXene Slit Nanopores: Insights from Molecular Dynamics Simulation by Kaiqing Sun (18715965)

“…As the interlayer spacing varies, the ion distribution in the electrode pores exhibits regional characteristics: in the ordered region near the bulk region, a stable electrical double-layer (EDL) structure is maintained, whereas in the deeper mixed region, persistent co-ion presence and significant disorder are observed. Dominated by the mixed region, the total energy variation of the electrode decreases as the interlayer spacing decreases, with energy changes of 8526.52, 7443.52, and 6640.99 kJ·mol^–1 at interlayer spacings of 1.2, 1.0, and 0.8 nm, respectively, representing reductions of approximately 12.7 and 22.1% compared to 1.2 nm. …”

Regional Characteristics in Ultradeep MXene Slit Nanopores: Insights from Molecular Dynamics Simulation by Kaiqing Sun (18715965)

“…As the interlayer spacing varies, the ion distribution in the electrode pores exhibits regional characteristics: in the ordered region near the bulk region, a stable electrical double-layer (EDL) structure is maintained, whereas in the deeper mixed region, persistent co-ion presence and significant disorder are observed. Dominated by the mixed region, the total energy variation of the electrode decreases as the interlayer spacing decreases, with energy changes of 8526.52, 7443.52, and 6640.99 kJ·mol^–1 at interlayer spacings of 1.2, 1.0, and 0.8 nm, respectively, representing reductions of approximately 12.7 and 22.1% compared to 1.2 nm. …”

Regional Characteristics in Ultradeep MXene Slit Nanopores: Insights from Molecular Dynamics Simulation by Kaiqing Sun (18715965)

“…As the interlayer spacing varies, the ion distribution in the electrode pores exhibits regional characteristics: in the ordered region near the bulk region, a stable electrical double-layer (EDL) structure is maintained, whereas in the deeper mixed region, persistent co-ion presence and significant disorder are observed. Dominated by the mixed region, the total energy variation of the electrode decreases as the interlayer spacing decreases, with energy changes of 8526.52, 7443.52, and 6640.99 kJ·mol^–1 at interlayer spacings of 1.2, 1.0, and 0.8 nm, respectively, representing reductions of approximately 12.7 and 22.1% compared to 1.2 nm. …”