Lipid droplets accumulate in polyamine-depleted cells. by Yazmin E. Cruz-Pulido (20285238)

Photographs show the appearance of ML and rat skin over the Achilles tendon before and after surgery. by Jianying Zhang (256508)

Metformin lotion inhibits scar tissue formation in rat skin after 10 days of wound healing. by Jianying Zhang (256508)

Virus infection relies on lipid production. by Yazmin E. Cruz-Pulido (20285238)

Metformin lotion elevates p-AMPK in the wounded skin of rats after 10 days of wound healing. by Jianying Zhang (256508)

Metformin lotion inhibits scar tissue formation in rat skin after 10 days of wound healing. by Jianying Zhang (256508)

Metformin lotion increases collagen I expression in the wounded skin of rats after 10 days of wound healing. by Jianying Zhang (256508)

Metformin lotion reduces α-SMA levels in the wounded skin of rats after 10 days of wound healing. by Jianying Zhang (256508)

Metformin lotion is anti-inflammatory in serum following skin wounds. by Jianying Zhang (256508)

Polyamine depletion reroutes energy production to glycolysis. by Yazmin E. Cruz-Pulido (20285238)

SREBF1 requires polyamines for translation. by Yazmin E. Cruz-Pulido (20285238)

Metformin lotion inhibits the release of HMGB1 from cell nuclei to the skin tissue matrix in rats. by Jianying Zhang (256508)

Quad-Nanopore Array Enables High-Resolution Identification of Four Single-Stranded DNA Homopolymers by Rui Hu (505795)

“…This dual benefit not only reduced the large driving force on DNA but also facilitated molecule capture through nanopores, therefore decreasing the voltage thresholds. …”

Quad-Nanopore Array Enables High-Resolution Identification of Four Single-Stranded DNA Homopolymers by Rui Hu (505795)

“…This dual benefit not only reduced the large driving force on DNA but also facilitated molecule capture through nanopores, therefore decreasing the voltage thresholds. …”

Layer-Thickness-Dependent Strengthening–Toughening Mechanisms in Crystalline/Amorphous Nanolaminates by Xiaoling Zhou (4644826)

“…The mechanical performance of these materials is strongly governed by the crystalline–amorphous interfaces (CAIs), yet the underlying strengthening and toughening mechanisms remain poorly understood. Here, we employ large-scale molecular dynamics simulations to investigate the compressive deformation of C/A nanopillars composed of alternating equal-thickness crystalline Cu and amorphous Cu₅₀Zr₅₀ layers. …”

Layer-Thickness-Dependent Strengthening–Toughening Mechanisms in Crystalline/Amorphous Nanolaminates by Xiaoling Zhou (4644826)

“…The mechanical performance of these materials is strongly governed by the crystalline–amorphous interfaces (CAIs), yet the underlying strengthening and toughening mechanisms remain poorly understood. Here, we employ large-scale molecular dynamics simulations to investigate the compressive deformation of C/A nanopillars composed of alternating equal-thickness crystalline Cu and amorphous Cu₅₀Zr₅₀ layers. …”

Layer-Thickness-Dependent Strengthening–Toughening Mechanisms in Crystalline/Amorphous Nanolaminates by Xiaoling Zhou (4644826)

“…The mechanical performance of these materials is strongly governed by the crystalline–amorphous interfaces (CAIs), yet the underlying strengthening and toughening mechanisms remain poorly understood. Here, we employ large-scale molecular dynamics simulations to investigate the compressive deformation of C/A nanopillars composed of alternating equal-thickness crystalline Cu and amorphous Cu₅₀Zr₅₀ layers. …”

Layer-Thickness-Dependent Strengthening–Toughening Mechanisms in Crystalline/Amorphous Nanolaminates by Xiaoling Zhou (4644826)

“…The mechanical performance of these materials is strongly governed by the crystalline–amorphous interfaces (CAIs), yet the underlying strengthening and toughening mechanisms remain poorly understood. Here, we employ large-scale molecular dynamics simulations to investigate the compressive deformation of C/A nanopillars composed of alternating equal-thickness crystalline Cu and amorphous Cu₅₀Zr₅₀ layers. …”

Layer-Thickness-Dependent Strengthening–Toughening Mechanisms in Crystalline/Amorphous Nanolaminates by Xiaoling Zhou (4644826)

“…The mechanical performance of these materials is strongly governed by the crystalline–amorphous interfaces (CAIs), yet the underlying strengthening and toughening mechanisms remain poorly understood. Here, we employ large-scale molecular dynamics simulations to investigate the compressive deformation of C/A nanopillars composed of alternating equal-thickness crystalline Cu and amorphous Cu₅₀Zr₅₀ layers. …”

Layer-Thickness-Dependent Strengthening–Toughening Mechanisms in Crystalline/Amorphous Nanolaminates by Xiaoling Zhou (4644826)

“…The mechanical performance of these materials is strongly governed by the crystalline–amorphous interfaces (CAIs), yet the underlying strengthening and toughening mechanisms remain poorly understood. Here, we employ large-scale molecular dynamics simulations to investigate the compressive deformation of C/A nanopillars composed of alternating equal-thickness crystalline Cu and amorphous Cu₅₀Zr₅₀ layers. …”