Forest plot. by Junyin Pan (20700411)

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Risk of bias assessment for eligible randomized controlled trials. by Junyin Pan (20700411)

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S2 File - by Junyin Pan (20700411)

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Funnel plot. by Junyin Pan (20700411)

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Summary of studies identified in the literature search, including studies excluded from the analysis and reasons for exclusion. by Junyin Pan (20700411)

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The flow chart of study selection process. by Junyin Pan (20700411)

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Data extracted from included studies for the systematic review and meta-analysis. by Junyin Pan (20700411)

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Specifications and outcomes of clinical trial studies included in the meta-analysis. by Junyin Pan (20700411)

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Why Only the 2,6-Bis(o-Carborano)Pyridine-Stabilized Phosphenium Cation Has Succeeded in Splitting H₂?: Key Design Insights for Next-Gen Phosphenium Pincer Catalysts by Mohmmad Faizan (14122382)

“…Phosphenium pincer complexes have emerged as promising alternatives to transition metal catalysts for small-molecule activation. Among them, only the 2,6-bis(o-carborano)pyridine-stabilized phosphenium cation (<b>1</b>^<b>+</b>) has been shown to activate molecular hydrogen (H₂). …”

Why Only the 2,6-Bis(o-Carborano)Pyridine-Stabilized Phosphenium Cation Has Succeeded in Splitting H₂?: Key Design Insights for Next-Gen Phosphenium Pincer Catalysts by Mohmmad Faizan (14122382)

“…Phosphenium pincer complexes have emerged as promising alternatives to transition metal catalysts for small-molecule activation. Among them, only the 2,6-bis(o-carborano)pyridine-stabilized phosphenium cation (<b>1</b>^<b>+</b>) has been shown to activate molecular hydrogen (H₂). …”

Why Only the 2,6-Bis(o-Carborano)Pyridine-Stabilized Phosphenium Cation Has Succeeded in Splitting H₂?: Key Design Insights for Next-Gen Phosphenium Pincer Catalysts by Mohmmad Faizan (14122382)

“…Phosphenium pincer complexes have emerged as promising alternatives to transition metal catalysts for small-molecule activation. Among them, only the 2,6-bis(o-carborano)pyridine-stabilized phosphenium cation (<b>1</b>^<b>+</b>) has been shown to activate molecular hydrogen (H₂). …”

Why Only the 2,6-Bis(o-Carborano)Pyridine-Stabilized Phosphenium Cation Has Succeeded in Splitting H₂?: Key Design Insights for Next-Gen Phosphenium Pincer Catalysts by Mohmmad Faizan (14122382)

“…Phosphenium pincer complexes have emerged as promising alternatives to transition metal catalysts for small-molecule activation. Among them, only the 2,6-bis(o-carborano)pyridine-stabilized phosphenium cation (<b>1</b>^<b>+</b>) has been shown to activate molecular hydrogen (H₂). …”

Why Only the 2,6-Bis(o-Carborano)Pyridine-Stabilized Phosphenium Cation Has Succeeded in Splitting H₂?: Key Design Insights for Next-Gen Phosphenium Pincer Catalysts by Mohmmad Faizan (14122382)

“…Phosphenium pincer complexes have emerged as promising alternatives to transition metal catalysts for small-molecule activation. Among them, only the 2,6-bis(o-carborano)pyridine-stabilized phosphenium cation (<b>1</b>^<b>+</b>) has been shown to activate molecular hydrogen (H₂). …”

Why Only the 2,6-Bis(o-Carborano)Pyridine-Stabilized Phosphenium Cation Has Succeeded in Splitting H₂?: Key Design Insights for Next-Gen Phosphenium Pincer Catalysts by Mohmmad Faizan (14122382)

“…Phosphenium pincer complexes have emerged as promising alternatives to transition metal catalysts for small-molecule activation. Among them, only the 2,6-bis(o-carborano)pyridine-stabilized phosphenium cation (<b>1</b>^<b>+</b>) has been shown to activate molecular hydrogen (H₂). …”

Why Only the 2,6-Bis(o-Carborano)Pyridine-Stabilized Phosphenium Cation Has Succeeded in Splitting H₂?: Key Design Insights for Next-Gen Phosphenium Pincer Catalysts by Mohmmad Faizan (14122382)

“…Phosphenium pincer complexes have emerged as promising alternatives to transition metal catalysts for small-molecule activation. Among them, only the 2,6-bis(o-carborano)pyridine-stabilized phosphenium cation (<b>1</b>^<b>+</b>) has been shown to activate molecular hydrogen (H₂). …”

Why Only the 2,6-Bis(o-Carborano)Pyridine-Stabilized Phosphenium Cation Has Succeeded in Splitting H₂?: Key Design Insights for Next-Gen Phosphenium Pincer Catalysts by Mohmmad Faizan (14122382)

“…Phosphenium pincer complexes have emerged as promising alternatives to transition metal catalysts for small-molecule activation. Among them, only the 2,6-bis(o-carborano)pyridine-stabilized phosphenium cation (<b>1</b>^<b>+</b>) has been shown to activate molecular hydrogen (H₂). …”

KIF15 mediates the trafficking of PSD95 along microtubules. by Xiaomei He (795333)

Emotional changes in <i>Kif15</i>^<i>-/-</i> mice from adolescence to adulthood. by Xiaomei He (795333)

Frontier analysis of injuries’ burden caused by fire, heat, and hot substances from 1990 to 2021. by Shi Huang (125861)

KIF15 interacts with PSD95 and affect its localization in neuronal cytoplasm neurons of the PFC. by Xiaomei He (795333)