Protein identification results. by Miao Cheng (4348510)

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Basic characteristics of the participants with intestinal mucosal specimens collected. by Miao Cheng (4348510)

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GO annotations of differentially expressed proteins between groups. by Miao Cheng (4348510)

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Volcano plots of differentially expressed proteins between groups. by Miao Cheng (4348510)

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Peptides identification results. by Miao Cheng (4348510)

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Heat map of differentially expressed proteins between groups. by Miao Cheng (4348510)

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The experimental workflow of the colonic mucosal proteomics study on AS with intestinal inflammation. by Miao Cheng (4348510)

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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)

“…These findings underscore the significant influence of ligand architecture on the reactivity of <b>1</b>^<b>+</b> toward H₂ activation. …”

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)

“…These findings underscore the significant influence of ligand architecture on the reactivity of <b>1</b>^<b>+</b> toward H₂ activation. …”

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)

“…These findings underscore the significant influence of ligand architecture on the reactivity of <b>1</b>^<b>+</b> toward H₂ activation. …”

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)

“…These findings underscore the significant influence of ligand architecture on the reactivity of <b>1</b>^<b>+</b> toward H₂ activation. …”

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)

“…These findings underscore the significant influence of ligand architecture on the reactivity of <b>1</b>^<b>+</b> toward H₂ activation. …”

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)

“…These findings underscore the significant influence of ligand architecture on the reactivity of <b>1</b>^<b>+</b> toward H₂ activation. …”

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)

“…These findings underscore the significant influence of ligand architecture on the reactivity of <b>1</b>^<b>+</b> toward H₂ activation. …”

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)

“…These findings underscore the significant influence of ligand architecture on the reactivity of <b>1</b>^<b>+</b> toward H₂ activation. …”

Contact angle between solid and liquid. by Xinhui Luo (11880086)

“…We prepared the blends of these five surfactants, each with a mass fraction of 0.5 wt%, in a 1:1 ratio, resulting in 10 blended solutions. We measured the performance of these solutions and revealed that the AES + AEO-9 blend demonstrated a significant synergistic effect, markedly enhancing the capture efficiency of water for lignite dust.…”

Diagram of the experimental equipment. by Xinhui Luo (11880086)

“…We prepared the blends of these five surfactants, each with a mass fraction of 0.5 wt%, in a 1:1 ratio, resulting in 10 blended solutions. We measured the performance of these solutions and revealed that the AES + AEO-9 blend demonstrated a significant synergistic effect, markedly enhancing the capture efficiency of water for lignite dust.…”

Sedimentation experimental device. by Xinhui Luo (11880086)

“…We prepared the blends of these five surfactants, each with a mass fraction of 0.5 wt%, in a 1:1 ratio, resulting in 10 blended solutions. We measured the performance of these solutions and revealed that the AES + AEO-9 blend demonstrated a significant synergistic effect, markedly enhancing the capture efficiency of water for lignite dust.…”

The wetting feature of compound solutions. by Xinhui Luo (11880086)

“…We prepared the blends of these five surfactants, each with a mass fraction of 0.5 wt%, in a 1:1 ratio, resulting in 10 blended solutions. We measured the performance of these solutions and revealed that the AES + AEO-9 blend demonstrated a significant synergistic effect, markedly enhancing the capture efficiency of water for lignite dust.…”

Absorption peaks of groups. by Xinhui Luo (11880086)

“…We prepared the blends of these five surfactants, each with a mass fraction of 0.5 wt%, in a 1:1 ratio, resulting in 10 blended solutions. We measured the performance of these solutions and revealed that the AES + AEO-9 blend demonstrated a significant synergistic effect, markedly enhancing the capture efficiency of water for lignite dust.…”