Appendix figures. by Alexandra Dunnum VandeLoo (22209218)

“…</p><p><b>Results:</b> We present SAMCell, a modified version of Meta’s Segment Anything Model (SAM) trained on an existing large-scale dataset of microscopy images containing varying cell types and confluency. …”

Molecular Insights into the Crystallization of 4’-Hydroxyacetophenone from Water: Solute Aggregation, Liquid–Liquid Phase Separation, and Polymorph Selection by Carlos E. S. Bernardes (7183481)

“…Analysis of the solution properties before the onset of LLPS revealed that, in the HAP mole fraction range <i>x</i>_HAP < 0.004 (Zone I), where hydrate H2 ultimately crystallizes, small, solvated clusters are initially present in solution, which remain approximately invariant in size, shape, and HAP/H₂O proportion as the temperature decreases. For the <i>x</i>_HAP > 0.005 range (Zone III), where anhydrous form I crystallizes, large HAP/water aggregates (that can even percolate the whole system as <i>x</i>_HAP approaches the 0.005 limit) are already initially present in solution. …”

Molecular Insights into the Crystallization of 4’-Hydroxyacetophenone from Water: Solute Aggregation, Liquid–Liquid Phase Separation, and Polymorph Selection by Carlos E. S. Bernardes (7183481)

“…Analysis of the solution properties before the onset of LLPS revealed that, in the HAP mole fraction range <i>x</i>_HAP < 0.004 (Zone I), where hydrate H2 ultimately crystallizes, small, solvated clusters are initially present in solution, which remain approximately invariant in size, shape, and HAP/H₂O proportion as the temperature decreases. For the <i>x</i>_HAP > 0.005 range (Zone III), where anhydrous form I crystallizes, large HAP/water aggregates (that can even percolate the whole system as <i>x</i>_HAP approaches the 0.005 limit) are already initially present in solution. …”

Molecular Insights into the Crystallization of 4’-Hydroxyacetophenone from Water: Solute Aggregation, Liquid–Liquid Phase Separation, and Polymorph Selection by Carlos E. S. Bernardes (7183481)

“…Analysis of the solution properties before the onset of LLPS revealed that, in the HAP mole fraction range <i>x</i>_HAP < 0.004 (Zone I), where hydrate H2 ultimately crystallizes, small, solvated clusters are initially present in solution, which remain approximately invariant in size, shape, and HAP/H₂O proportion as the temperature decreases. For the <i>x</i>_HAP > 0.005 range (Zone III), where anhydrous form I crystallizes, large HAP/water aggregates (that can even percolate the whole system as <i>x</i>_HAP approaches the 0.005 limit) are already initially present in solution. …”

Digital Microfluidic Platform Based on Printed Circuit Board for Affinity Evaluation of Mertansine Aptamers by Dongliu Xiang (10688647)

“…Compared with manual methods, the digital microfluidic platform not only reduced the time for a single determination from 105 to 45 min but also significantly decreased the reagent consumption from 1280 to 30.72 μL. …”

Task design for measurement of pupillary response. by Tomoe Hayakawa (20978784)

Structure of the Segment Anything Model (SAM) from the original paper [5]. by Alexandra Dunnum VandeLoo (22209218)

Continuous, Label-Free Phenotyping of Single Cells Based on Antibody Interaction Profiling in Microfluidic Channels by Thijs Roebroek (21081066)

“…Using computational imaging, numerous cells are tracked across a large field of view (12 × 3 mm²) and the resulting motion profiles are used for phenotypic cell characterization. …”

Continuous, Label-Free Phenotyping of Single Cells Based on Antibody Interaction Profiling in Microfluidic Channels by Thijs Roebroek (21081066)

“…Using computational imaging, numerous cells are tracked across a large field of view (12 × 3 mm²) and the resulting motion profiles are used for phenotypic cell characterization. …”

Continuous, Label-Free Phenotyping of Single Cells Based on Antibody Interaction Profiling in Microfluidic Channels by Thijs Roebroek (21081066)

“…Using computational imaging, numerous cells are tracked across a large field of view (12 × 3 mm²) and the resulting motion profiles are used for phenotypic cell characterization. …”

Continuous, Label-Free Phenotyping of Single Cells Based on Antibody Interaction Profiling in Microfluidic Channels by Thijs Roebroek (21081066)

“…Using computational imaging, numerous cells are tracked across a large field of view (12 × 3 mm²) and the resulting motion profiles are used for phenotypic cell characterization. …”

Continuous, Label-Free Phenotyping of Single Cells Based on Antibody Interaction Profiling in Microfluidic Channels by Thijs Roebroek (21081066)

“…Using computational imaging, numerous cells are tracked across a large field of view (12 × 3 mm²) and the resulting motion profiles are used for phenotypic cell characterization. …”

Continuous, Label-Free Phenotyping of Single Cells Based on Antibody Interaction Profiling in Microfluidic Channels by Thijs Roebroek (21081066)

“…Using computational imaging, numerous cells are tracked across a large field of view (12 × 3 mm²) and the resulting motion profiles are used for phenotypic cell characterization. …”

Continuous, Label-Free Phenotyping of Single Cells Based on Antibody Interaction Profiling in Microfluidic Channels by Thijs Roebroek (21081066)

“…Using computational imaging, numerous cells are tracked across a large field of view (12 × 3 mm²) and the resulting motion profiles are used for phenotypic cell characterization. …”

Continuous, Label-Free Phenotyping of Single Cells Based on Antibody Interaction Profiling in Microfluidic Channels by Thijs Roebroek (21081066)

“…Using computational imaging, numerous cells are tracked across a large field of view (12 × 3 mm²) and the resulting motion profiles are used for phenotypic cell characterization. …”

Continuous, Label-Free Phenotyping of Single Cells Based on Antibody Interaction Profiling in Microfluidic Channels by Thijs Roebroek (21081066)

“…Using computational imaging, numerous cells are tracked across a large field of view (12 × 3 mm²) and the resulting motion profiles are used for phenotypic cell characterization. …”

Averaged pupillary responses in bright and dark conditions. by Tomoe Hayakawa (20978784)

Mean and standard error of sensory properties. by Tomoe Hayakawa (20978784)

Qualitative comparison of zero-shot, cross-dataset performance. by Alexandra Dunnum VandeLoo (22209218)

Box plot of queens and males in the young colony (left) and old colony (right) A-B compares the queens and males distribution in the young and old colonies, respectively. by Moïse Pierre Exélis (21578515)