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. …”

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. …”

The percentages of genes with largely changed expression after AdNKX2-1 infection. by Yuko Ito (1976692)

VOC Alpha spike protein shows decreased proteolytic processing. by Daniela Niemeyer (199082)

Decreased MBP levels in <i>Large</i>^{<i>myd/myd</i>} and <i>POMGnT1</i>-KO mice at the RC and OSL. by Shigefumi Morioka (8893511)

Decreased presence of tubulin-GFP at axonal MTs in a pulse chase experiment suggests changes in MT replenishment with age. by Pilar Okenve-Ramos (18150546)

Schematic of training program during a 10-session heat acclimation intervention in national-level rowers. by Calvin P. Philp (12095878)

19606 decreases the luminal pH of the ACV during infection. by Jesus S. Distel (11250759)

MST1 upregulates CD36 expression via PPARγ. by Jianyang Li (461703)

Excreted products from adult STAT6 KO -adapted worms have decreased immunogenicity. by Annabel A. Ferguson (17616286)

Expression of NFATc1 is decreased in <i>Tcirg1</i>-knockdown osteoclasts. by Dongyan Zhang (640677)

Restoring large-scale brain networks in PTSD and related disorders: a proposal for neuroscientifically-informed treatment interventions by Ruth A. Lanius (3121746)

Average time-to-next-treatment (TTNT) analysis measured in days of large cell transformation (LCT) versus non-large cell transformation (NLCT) groups. by Neil K. Jairath (13237338)

Innovation and night light in large and small cities. by Saul Estrin (8629173)

Geographical distribution of large cities and small cities. by Saul Estrin (8629173)

“…The Figure reveals two patterns: 1) the maximum level of innovation is higher in large cities (2.53) than in small cities (2.02); 2) among large cities in <b>a</b>, innovation levels in general decrease with nightlight density. …”

Both cis- and trans-cycles decrease in number upon treatment with auxin. by Manu Aggarwal (15990691)

Lens profiles as Ez (orange lines) force was increased and Az and Pz (green lines) forces were decreased. by Ronald A. Schachar (16674576)

<i>vFlip</i> expression largely protects from lethality induced by <i>cFlip</i> deletion. by Barbara Ruder (8379354)