Leaf chlorophyll <i>a</i>, <i>b</i>, <i>a/b</i>, total chlorophyll, proline and Glycinebetaine (GB) contents of two cultivars of cauliflower (<i>Brassica oleracea</i> L.) plants fo... by Munifa Jabeen (12634746)

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. …”

Graphs of marginal mean values of the studied parameters for dolphin kick, flutter kick and breaststroke kick with and without diving gear (Parameters that were not statistically d... by Marek Rejman (9199616)

Fitted kinetics parameters for adsorptions of CR in aqueous solution onto magnetic Co_0.5Mn_0.5Fe₂O₄ nanoparticles at room temperature. by Xiajun Zhang (3161865)

Subjects:

Orsay virus infection of the <i>lin-8(n2731</i>) synMuv A mutant induces a Muv phenotype indicative of decreased synMuv B gene activity, and 2 different synMuv B mutants produce 50–100× less Orsay virus RNA. by Ashwin Seetharaman (615458)

Fig 9 - by Dennis Ochola (11626912)

Fig 7 - by Dennis Ochola (11626912)

Thermotactic simulation for building a neuroanatomical model. by Muneki Ikeda (5166362)

Fig 4 - by Dennis Ochola (11626912)

Results on the trimmed datasets with a decreasing number of papers per author available for training and testing. by Leonard Bauersfeld (16475015)

Intravenous treatment of naïve wild-type mice with PrP LSPCs decreased PrP^C mRNA and cell surface PrP^C protein at various time points. by Heather Bender (363996)

Clustering of metastable states using the first 50 ns of post-translational folding trajectories of CAT-III with ligand bound. by Yang Jiang (46459)

Heart specific RNase Z variants show a mild decrease in longevity and locomotor response. by Ekaterina Migunova (15909887)

m 6A RNA Methylation Decreases Atherosclerotic Vulnerable Plaque Through Inducing T Cells by Chunmei Qi (739294)

“…Conclusion: After successfully establishing a vascular parkinsonism rabbit model, m 6A RNA methylation can decrease Th cells and vulnerable atherosclerotic plaques.…”

The %change in GABA level had a trend correlation with MEP amplitude in the left sensorimotor area (R = −0.43002, R2 = 0.1849, t = 1.844717, p = 0.082575). by Hiroyuki Matsuta (13250169)