Overexpression of TNFAIP9 inhibited the TGF-β-induced fibrosis in HK-2 cells. by Ying Chen (9697)

TNFAIP9 expression was increased in mice with chronic kidney disease (CKD) induced by 5/6 nephrectomy (Nx). by Ying Chen (9697)

Overexpression of TNFAIP9 counteracted the renal damage caused by 5/6 Nx in C57 mice. by Ying Chen (9697)

Overexpression of TNFAIP9 inhibited the TNF-α-induced inflammation in HK-2 cells. by Ying Chen (9697)

Image 2_The anti-depressive role of the Pei Yuan Kai Yu formula in cerebral small vessel disease based on gut microbiota.tif by Lixuan Yang (7331786)

“…</p>Results<p>In rats with CSVD and depression, PY significantly increased body weight; alleviated depression-like behaviors; and decreased the levels of inflammatory cytokines such as TNF-α, IL-1β, and IL-6 in both serum and hippocampus. …”

Image 1_The anti-depressive role of the Pei Yuan Kai Yu formula in cerebral small vessel disease based on gut microbiota.tif by Lixuan Yang (7331786)

“…</p>Results<p>In rats with CSVD and depression, PY significantly increased body weight; alleviated depression-like behaviors; and decreased the levels of inflammatory cytokines such as TNF-α, IL-1β, and IL-6 in both serum and hippocampus. …”

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). …”

Image 1_Anlotinib combined with tislelizumab in the treatment of primary small cell neuroendocrine carcinoma of the prostate: a case report and literature review.jpeg by Xin Fei (20466992)

“…After treatment, the patient’s symptoms were controlled, tumor marker levels decreased, and imaging showed significant improvement. …”

Multiproxy summary of pollen, fecal biomarker, and charcoal data for BF19. by John A. F. Wendt (19976392)

Ungulate community dynamics and associated environmental variables at Buffalo Ford Lake and the lower Lamar Valley during the last <i>c</i>. 2300 years. by John A. F. Wendt (19976392)

S1 Data - by Renjie Wang (1986553)

“…Light energy transmission to PSI by the unit reaction center (REo/RC) initially increased then decreased, significantly smaller in D3 compared to D1. …”

S3 Data - by Renjie Wang (1986553)

“…Light energy transmission to PSI by the unit reaction center (REo/RC) initially increased then decreased, significantly smaller in D3 compared to D1. …”

S2 Data - by Renjie Wang (1986553)

“…Light energy transmission to PSI by the unit reaction center (REo/RC) initially increased then decreased, significantly smaller in D3 compared to D1. …”