Apoptosis and necrosis detection in BHP18-21v cells after adenoviral vector infection. by Yuko Ito (1976692)

3D Nanoscale Structures of Hydrated Polyamide Desalination Membranes Revealed by Cryogenic Transmission Electron Microscopy Tomography by Chenhao Yao (1569328)

“…Additionally, while the surface area decreases upon hydration for both SW and BW membranes, indicating a smoothing of surface nodules and cavities, surface roughness remains unchanged, suggesting that current roughness measurement methods such as atomic force microscopy do not capture intrinsic morphological features. …”

3D Nanoscale Structures of Hydrated Polyamide Desalination Membranes Revealed by Cryogenic Transmission Electron Microscopy Tomography by Chenhao Yao (1569328)

“…Additionally, while the surface area decreases upon hydration for both SW and BW membranes, indicating a smoothing of surface nodules and cavities, surface roughness remains unchanged, suggesting that current roughness measurement methods such as atomic force microscopy do not capture intrinsic morphological features. …”

3D Nanoscale Structures of Hydrated Polyamide Desalination Membranes Revealed by Cryogenic Transmission Electron Microscopy Tomography by Chenhao Yao (1569328)

“…Additionally, while the surface area decreases upon hydration for both SW and BW membranes, indicating a smoothing of surface nodules and cavities, surface roughness remains unchanged, suggesting that current roughness measurement methods such as atomic force microscopy do not capture intrinsic morphological features. …”

Electron Tomography Reveals Porosity Degradation Spatially on Individual Pt-Based Nanocatalysts by Weiwei Xia (1586359)

“…We demonstrate that the surface area–volume ratio (SVR) of cycled porous particles decreases linearly rather than reciprocally with particle size. …”

Electron Tomography Reveals Porosity Degradation Spatially on Individual Pt-Based Nanocatalysts by Weiwei Xia (1586359)

“…We demonstrate that the surface area–volume ratio (SVR) of cycled porous particles decreases linearly rather than reciprocally with particle size. …”

Electron Tomography Reveals Porosity Degradation Spatially on Individual Pt-Based Nanocatalysts by Weiwei Xia (1586359)

“…We demonstrate that the surface area–volume ratio (SVR) of cycled porous particles decreases linearly rather than reciprocally with particle size. …”

Electron Tomography Reveals Porosity Degradation Spatially on Individual Pt-Based Nanocatalysts by Weiwei Xia (1586359)

“…We demonstrate that the surface area–volume ratio (SVR) of cycled porous particles decreases linearly rather than reciprocally with particle size. …”

Electron Tomography Reveals Porosity Degradation Spatially on Individual Pt-Based Nanocatalysts by Weiwei Xia (1586359)

“…We demonstrate that the surface area–volume ratio (SVR) of cycled porous particles decreases linearly rather than reciprocally with particle size. …”

Electron Tomography Reveals Porosity Degradation Spatially on Individual Pt-Based Nanocatalysts by Weiwei Xia (1586359)

“…We demonstrate that the surface area–volume ratio (SVR) of cycled porous particles decreases linearly rather than reciprocally with particle size. …”

Electron Tomography Reveals Porosity Degradation Spatially on Individual Pt-Based Nanocatalysts by Weiwei Xia (1586359)

“…We demonstrate that the surface area–volume ratio (SVR) of cycled porous particles decreases linearly rather than reciprocally with particle size. …”

Electron Tomography Reveals Porosity Degradation Spatially on Individual Pt-Based Nanocatalysts by Weiwei Xia (1586359)

“…We demonstrate that the surface area–volume ratio (SVR) of cycled porous particles decreases linearly rather than reciprocally with particle size. …”

Three mitochondrial metrics were assessed from the same retinal samples across age and location. by Jaimie Hoh Kam (11383884)

Properties of evolved FUS PLD. by Simon M. Lichtinger (11326846)

Disfavored structures of a GB loop with various three-stranded <i>β</i>-sheets identified by the simulation. by Hiroto Murata (11355849)

Neutrophil survival is not affected by <i>L</i>. <i>mexicana</i> infection. by Katiuska Passelli (11965496)

Depletion of SAMHD1 does not affect cellular apoptosis or cell cycle arrest. by Kiwon Park (6492266)

Flow cytometry analysis of Annexin V/FITC-PI on SW480 and HCT116 cells treated with negative control, THC, βCD-THC inclusion complex, and camptothecin. by Zhi Xuan Low (19270163)

The flow cytometry analysis. by Kseniya Rubina (227659)

IRE1 depletion induces cell cycle arrest independently of apoptosis. by Iratxe Zuazo-Gaztelu (21071939)