Microscopic Movement of Slow-Diffusing Nanoparticles in Cylindrical Nanopores Studied with Three-Dimensional Tracking by Luyang Zhao (1903252)

“…Under two model conditions, particles are retained much longer inside the pores: (1) increased solvent viscosity, which slows down the particle throughout the whole pore, and (2) increased pore wall affinity, which slows down the particle only at the wall. …”

Microscopic Movement of Slow-Diffusing Nanoparticles in Cylindrical Nanopores Studied with Three-Dimensional Tracking by Luyang Zhao (1903252)

“…Under two model conditions, particles are retained much longer inside the pores: (1) increased solvent viscosity, which slows down the particle throughout the whole pore, and (2) increased pore wall affinity, which slows down the particle only at the wall. …”

Microscopic Movement of Slow-Diffusing Nanoparticles in Cylindrical Nanopores Studied with Three-Dimensional Tracking by Luyang Zhao (1903252)

“…Under two model conditions, particles are retained much longer inside the pores: (1) increased solvent viscosity, which slows down the particle throughout the whole pore, and (2) increased pore wall affinity, which slows down the particle only at the wall. …”

Microscopic Movement of Slow-Diffusing Nanoparticles in Cylindrical Nanopores Studied with Three-Dimensional Tracking by Luyang Zhao (1903252)

“…Under two model conditions, particles are retained much longer inside the pores: (1) increased solvent viscosity, which slows down the particle throughout the whole pore, and (2) increased pore wall affinity, which slows down the particle only at the wall. …”

Microscopic Movement of Slow-Diffusing Nanoparticles in Cylindrical Nanopores Studied with Three-Dimensional Tracking by Luyang Zhao (1903252)

“…Under two model conditions, particles are retained much longer inside the pores: (1) increased solvent viscosity, which slows down the particle throughout the whole pore, and (2) increased pore wall affinity, which slows down the particle only at the wall. …”

Anti-AT prophylaxis decreases lesion size in <i>S. aureus</i> dermonecrosis. by Christine Tkaczyk (465528)

Over-expression of rhodopsin decreased the expression levels of differentiation markers in NHEKs. by Hyoung-June Kim (459814)

Aging is associated with decreased fat mass and increased oxidative stress in mice. by Hannes M. Findeisen (353287)

Effect of lysosomal hydrolysis inhibition on the decrease of PrP^Sc levels induced by CPZ or U18666A treatment. by Takeshi Yamasaki (521196)

LPS dose-dependently decreases T cell proliferative response to OKT3. by Fanny Poujol (834338)

Values for vertical foot clearance, foot overhang, anteroposterior MoS and mediolateral MoS on steps 4, 5 and 6 across conditions. by Timmion K. Skervin (11432568)

Subjects:

The number of behavioral arrests in DKO mice decreased following systemic atropine. by Mike Kalogiannis (224818)

“…<p>(A) Mean (± SEM) time per mouse spent in full behavioral arrests are plotted in 30 min bins across the entire recording period following IP injections of saline (open symbols) and atropine (0.5 mg/kg; filled symbols). …”

Down-regulation of Gli decreased ovarian cancer cell migration and invasion. by Qi Chen (144168)

“…<p>(<b>A</b>) Exposure to GANT61 (30 µM; 48 hr) reduces expression of both Gli1 and Gli2 protein, determined by Western blot. …”

Effect of E is partially diminished by addition of H₂O₂ or SOD mimetic to augment ROS level. by Anna Kalota (7415)

WT1 mRNA and protein levels are decreased by GnRH. by Debalina Bagchi (686046)

Scientists’ likelihood of using terminology sorted by overall decreasing likelihood ranking. by Jackie M. Getson (13190175)

HLA-C expression levels increase and exon 1 skipping decreases as NK cells mature. by Hongchuan Li (375905)

Delta Kmax¹ with non-accelerated and accelerated CXL² protocols. by Denise Wajnsztajn (3366902)

Subjects:

Delta Kmax¹ with epithelium-off and epithelium-on CXL² protocols. by Denise Wajnsztajn (3366902)

Subjects:

Blocking TCF transcriptional activity decreased CFZ-induced MSC differentiation. by Bo Hu (126105)