HEWL interacts with dissipated oleic acid micelles, and decreases oleic acid cytotoxicity by Qin Huang (49441)

Schematic of Large-Scale Filtration System (LSFS). by Haedi E. DeAngelis (10652168)

Large direct shear test system. by Changbo Du (14014481)

Mean squared error of estimates decreases with larger datasets. by Alexander Eugene Zarebski (12078347)

Decreased glycosylated α-DG and laminin levels distal to the glial dome in <i>Large</i>^{<i>myd/myd</i>} mice. by Shigefumi Morioka (8893511)

Ribosomal protein subunit large (Rpl) and small (Rps) transcripts are expressed at decreased levels at the site of <i>L</i>. <i>major</i> infection. by Gopinath Venugopal (638444)

Capturing the Transient Microstructure of a Physically Assembled Gel Subjected to Temperature and Large Deformation by Rosa Maria Badani Prado (11501833)

“…Here, we report the real-time change in the structure of physically assembled triblock copolymer gels that consist of 10 and 20 wt % of poly­(styrene)–poly­(isoprene)–poly­(styrene) [PS–PI–PS] triblock copolymer in mineral oil (i) during the gelation process with decreasing temperature, (ii) subjected to large oscillatory deformation, and (iii) during the stress-relaxation process after the application of a step strain. …”

Capturing the Transient Microstructure of a Physically Assembled Gel Subjected to Temperature and Large Deformation by Rosa Maria Badani Prado (11501833)

“…Here, we report the real-time change in the structure of physically assembled triblock copolymer gels that consist of 10 and 20 wt % of poly­(styrene)–poly­(isoprene)–poly­(styrene) [PS–PI–PS] triblock copolymer in mineral oil (i) during the gelation process with decreasing temperature, (ii) subjected to large oscillatory deformation, and (iii) during the stress-relaxation process after the application of a step strain. …”

Extending the information content of the MALDI analysis of biological fluids via multi-million shot analysis by Maxim Tsypin (6841484)

ECoG timescales decrease during spatial attention. by Isabel Raposo (21615517)

Multivariable general linear mixed model for GC-IPL thickness among participants with diabetes. by Roomasa Channa (374127)

Particle size distribution curve (a) and XRD pattern (b) of standard siliceous sand. Particle size distribution of the standard siliceous sand was measured using a laser particle s... by Liang Xiong (1426411)

Expression of lipid biosynthetic genes is decreased with polyamine depletion. by Yazmin E. Cruz-Pulido (20285238)

Comparison of physiological and perceptual measures of national-level rowing athletes taken during a 4-min time trial, before (Pre) and after (Post) a 10-session heat acclimation i... by Calvin P. Philp (12095878)

Toluidine blue histology of cMSC constructs for initial chondrogenic screening. by Melissa A. MacIver (12850566)

Tissue, days post-infection (dpi) and the top 10 most significant genes with increased and decreased expression with valid gene symbols for the response contrasts. by Gillian P. McHugo (8965919)

Cell-to-cell mtDNA variability for larger mtDNA populations. by Robert C. Glastad (10692277)

Active Diffusion of Self-Propelled Particles in Flexible Polymer Networks by Yeongjin Kim (10878837)

“…However, when the particle size is increased to be comparable to the mesh size, the active particles explore the polymer network via the trapping-and-hopping mechanism. If the particle is larger than the mesh, it captures the collective viscoelastic dynamics from the polymer network at short times and the simple diffusion of the total system at large times. …”

Active Diffusion of Self-Propelled Particles in Flexible Polymer Networks by Yeongjin Kim (10878837)

“…However, when the particle size is increased to be comparable to the mesh size, the active particles explore the polymer network via the trapping-and-hopping mechanism. If the particle is larger than the mesh, it captures the collective viscoelastic dynamics from the polymer network at short times and the simple diffusion of the total system at large times. …”

Active Diffusion of Self-Propelled Particles in Flexible Polymer Networks by Yeongjin Kim (10878837)

“…However, when the particle size is increased to be comparable to the mesh size, the active particles explore the polymer network via the trapping-and-hopping mechanism. If the particle is larger than the mesh, it captures the collective viscoelastic dynamics from the polymer network at short times and the simple diffusion of the total system at large times. …”