Tax expression is associated with decreased cellular motility. by Saumya Ramanayake (7879091)

Decreased numbers of motor neurons in Tc1 and Dp(16)1Yey mice. by Sheona Watson-Scales (586942)

Overexpression of SV2A-EGFP in wild-type neurons results in reduced EPSC amplitude and decreased synaptic depression. by Amy Nowack (336337)

From 2D to 1D Electronic Dimensionality in Halide Perovskites with Stepped and Flat Layers Using Propylammonium as a Spacer by Justin M. Hoffman (6890504)

“…The RP structures show a blue-shift in bandgap for decreasing <i>n</i> (1.90 eV for <i>n</i> = 4 and 2.03 eV for <i>n</i> = 3), while the SL structures have an even greater blue-shift (2.53 eV for <i>m</i> = 4, 2.74 eV for <i>m</i> = 3, and 2.93 eV for <i>m</i> = 2). …”

From 2D to 1D Electronic Dimensionality in Halide Perovskites with Stepped and Flat Layers Using Propylammonium as a Spacer by Justin M. Hoffman (6890504)

“…The RP structures show a blue-shift in bandgap for decreasing <i>n</i> (1.90 eV for <i>n</i> = 4 and 2.03 eV for <i>n</i> = 3), while the SL structures have an even greater blue-shift (2.53 eV for <i>m</i> = 4, 2.74 eV for <i>m</i> = 3, and 2.93 eV for <i>m</i> = 2). …”

From 2D to 1D Electronic Dimensionality in Halide Perovskites with Stepped and Flat Layers Using Propylammonium as a Spacer by Justin M. Hoffman (6890504)

“…The RP structures show a blue-shift in bandgap for decreasing <i>n</i> (1.90 eV for <i>n</i> = 4 and 2.03 eV for <i>n</i> = 3), while the SL structures have an even greater blue-shift (2.53 eV for <i>m</i> = 4, 2.74 eV for <i>m</i> = 3, and 2.93 eV for <i>m</i> = 2). …”

From 2D to 1D Electronic Dimensionality in Halide Perovskites with Stepped and Flat Layers Using Propylammonium as a Spacer by Justin M. Hoffman (6890504)

“…The RP structures show a blue-shift in bandgap for decreasing <i>n</i> (1.90 eV for <i>n</i> = 4 and 2.03 eV for <i>n</i> = 3), while the SL structures have an even greater blue-shift (2.53 eV for <i>m</i> = 4, 2.74 eV for <i>m</i> = 3, and 2.93 eV for <i>m</i> = 2). …”

From 2D to 1D Electronic Dimensionality in Halide Perovskites with Stepped and Flat Layers Using Propylammonium as a Spacer by Justin M. Hoffman (6890504)

“…The RP structures show a blue-shift in bandgap for decreasing <i>n</i> (1.90 eV for <i>n</i> = 4 and 2.03 eV for <i>n</i> = 3), while the SL structures have an even greater blue-shift (2.53 eV for <i>m</i> = 4, 2.74 eV for <i>m</i> = 3, and 2.93 eV for <i>m</i> = 2). …”

From 2D to 1D Electronic Dimensionality in Halide Perovskites with Stepped and Flat Layers Using Propylammonium as a Spacer by Justin M. Hoffman (6890504)

“…The RP structures show a blue-shift in bandgap for decreasing <i>n</i> (1.90 eV for <i>n</i> = 4 and 2.03 eV for <i>n</i> = 3), while the SL structures have an even greater blue-shift (2.53 eV for <i>m</i> = 4, 2.74 eV for <i>m</i> = 3, and 2.93 eV for <i>m</i> = 2). …”

From 2D to 1D Electronic Dimensionality in Halide Perovskites with Stepped and Flat Layers Using Propylammonium as a Spacer by Justin M. Hoffman (6890504)

“…The RP structures show a blue-shift in bandgap for decreasing <i>n</i> (1.90 eV for <i>n</i> = 4 and 2.03 eV for <i>n</i> = 3), while the SL structures have an even greater blue-shift (2.53 eV for <i>m</i> = 4, 2.74 eV for <i>m</i> = 3, and 2.93 eV for <i>m</i> = 2). …”

From 2D to 1D Electronic Dimensionality in Halide Perovskites with Stepped and Flat Layers Using Propylammonium as a Spacer by Justin M. Hoffman (6890504)

“…The RP structures show a blue-shift in bandgap for decreasing <i>n</i> (1.90 eV for <i>n</i> = 4 and 2.03 eV for <i>n</i> = 3), while the SL structures have an even greater blue-shift (2.53 eV for <i>m</i> = 4, 2.74 eV for <i>m</i> = 3, and 2.93 eV for <i>m</i> = 2). …”

From 2D to 1D Electronic Dimensionality in Halide Perovskites with Stepped and Flat Layers Using Propylammonium as a Spacer by Justin M. Hoffman (6890504)

“…The RP structures show a blue-shift in bandgap for decreasing <i>n</i> (1.90 eV for <i>n</i> = 4 and 2.03 eV for <i>n</i> = 3), while the SL structures have an even greater blue-shift (2.53 eV for <i>m</i> = 4, 2.74 eV for <i>m</i> = 3, and 2.93 eV for <i>m</i> = 2). …”

Simulation results of magnetization difference between control and labeling scans with two flow rates (0.2 and 5 cm/s) for ALADDIN with multiphase bSSFP sequence. by Ki Hwan Kim (427869)

Light adaptation in a macaque monkey’s rod cell. by Melissa Nygård (15374507)

Retinal cell layer thickness ratios in European sea bass fed a 0 or 5% taurine diet (open and cross hatched boxes, respectively). by Richard W. Brill (2337940)

Wnt mediates hSVF vascular self-assembly. by Venkat M. Ramakrishnan (2559520)

Culture reduces hSVF vascularization potential. by Venkat M. Ramakrishnan (2559520)

“…Significant decreases in total hSVF EC length are seen by day 5 as a function of increasing passage (***<i>p</i> ≤ 0.001). …”

Maximum productivity of graphite rod biocathodes poised at −600 mV vs. SHE normalized to surface area. by Edward V. LaBelle (608387)

Genes whose transcript abundance decreased less than half after exposure to N₂O₅ gas compared to air control in RNA-seq analysis. by Daiki Tsukidate (12936828)

Structure diagram of the test load: 1-Pressure loading unit; 2—Buffer bar; 3—Strain gauge A2; 4—Transmission bar; 5—Rock specimen; 6—Support; 7—Strain gauge A1; 8—Incident bar; 9—H... by Chun Wang (337817)