Displacement cloud maps. by Maogang Tian (21485116)

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Displacement cloud map (geology). by Hui Cheng (195456)

“…The primary trend indicates an increase in clay content of loess, a decrease in grit content, a relative increase in cohesion, and a relative decrease in the internal friction angle. …”

Point cloud fusion instance effect. by Hongliang Zou (20707270)

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The top 10 putative metabolites with the largest negative fold change between normal and thin cows. by Bhuripit Saraphol (20855573)

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The top 10 putative metabolites with the largest positive fold change between normal and thin cows. by Bhuripit Saraphol (20855573)

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Positioning trajectories and pose truths of different simultaneous localization and mapping algorithms under Sequence 1. by Hongliang Zou (20707270)

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Positioning trajectories and pose truths of different simultaneous localization and mapping algorithms under Sequence 6. by Hongliang Zou (20707270)

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Positioning trajectories and pose truths of different simultaneous localization and mapping algorithms under Sequence 5. by Hongliang Zou (20707270)

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The technical route of the study. by Hongliang Zou (20707270)

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Experimental results in the SubT-MRS dataset. by Hongliang Zou (20707270)

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Differential miRNA target gene pathway enrichment bubble map. by Zhaowen Tan (12283502)

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Mitigation (decreasing) scenario. by Fabio Correddu (12501799)

Thermoneutrality decreased sepsis survival. by Goldia Chan (21453340)

TITAN decreaser diatom heatmap. by Brent J. Bellinger (21156150)

“…., <i>z-</i>) diatom taxa (y-axis) to at least one of the five stressors, in decreasing order of number of stressor responses. Blue-orange scale corresponds to the <i>z</i> score that indicates the magnitude of response to a stressor.…”

Introgression decreases allelic shuffling. by Enrique J. Schwarzkopf (6579275)

Naringenin decreases mitochondrial function. by Lauren A. Eanes (20995499)

Noise decrease rate comparison. by Xianlin Ren (22783589)

Room-Temperature Self-Healable Glassy Semicrystalline Polymers via Ionic Aggregations by Pengxiang Si (5676260)

“…This work offers a promising strategy to extend the lifespan, increase the sustainability, and decrease the cost of semicrystalline polymers. As a proof of concept, such room-temperature self-healable glassy semicrystalline polymers can be considerably used in 3D printing manufacturing processes, leading to merged interfaces and enhancing the product’s structural integrity.…”

Room-Temperature Self-Healable Glassy Semicrystalline Polymers via Ionic Aggregations by Pengxiang Si (5676260)

“…This work offers a promising strategy to extend the lifespan, increase the sustainability, and decrease the cost of semicrystalline polymers. As a proof of concept, such room-temperature self-healable glassy semicrystalline polymers can be considerably used in 3D printing manufacturing processes, leading to merged interfaces and enhancing the product’s structural integrity.…”

Room-Temperature Self-Healable Glassy Semicrystalline Polymers via Ionic Aggregations by Pengxiang Si (5676260)

“…This work offers a promising strategy to extend the lifespan, increase the sustainability, and decrease the cost of semicrystalline polymers. As a proof of concept, such room-temperature self-healable glassy semicrystalline polymers can be considerably used in 3D printing manufacturing processes, leading to merged interfaces and enhancing the product’s structural integrity.…”