Imido Titanium Ethylene Polymerization Catalysts Containing Triazacyclic Ligands by Nico Adams (342780)

“…The use of MAO pretreated with BHT-H (BHT-H = 2,6-di-<i>tert</i>-butyl-4-methylphenol) led to higher productivites, increased polymer molecular weights, and more polymer chain unsaturations, but productivity decreased when a large excess of BHT-H was used. The reactions of the well-defined alkyl species Ti(N^tBu)(Me₃[9]aneN₃)Me₂, [Ti(N^tBu)(Me₃[9]aneN₃)(μ-Me)₂AlMe₂]⁺, and [Ti(N^tBu)(Me₃[9]aneN₃)Me]⁺ with BHT-H were examined, and the aryloxide compound [Ti(N^tBu)(Me₃[9]aneN₃)(BHT)][BAr^F₄] was isolated (Ar^F = C₆F₅). …”

Video 1_Case Report: Salvation of a congested SCIP flap with a modified “chemical leech” technique.mp4 by Yong Zhao (84950)

“…However, owing to insufficient offloading, this technique is less effective in free flaps than in fasciocutaneous flaps, especially large-volume flaps. In this case report, we modified the “chemical leech” technique by adding a venous catheter. …”

Data Sheet 1_Pain assessment on a numerical scale with uncertainty intervals: a proof-of-concept simulation study.docx by Markus Huber (317962)

“…The clinical importance of the method lies in its ability to reflect the large heterogeneity of individual pain experiences and the possibility of investigating pain-related aspects that go beyond a traditional pain assessment with point estimates. …”

Linear effects of age and sex on fWHR. by Carmen Emilia Lefevre (547382)

Food intake in groups A, B and C. by Sohail Afzal (10850709)

“…Statistically, there was a significant decrease in EPG values from days 0–14. …”

Actuation of a Nonconductive Droplet in an Aqueous Fluid by Reversed Electrowetting Effect by Qinggong Wang (9094017)

“…However, the opposite phenomenon, e.g., decreasing the wettability of a nonconductive droplet and increasing its contact angle (CA) by the reversed electrowetting (REW) effect, has been scarcely reported. …”

Actuation of a Nonconductive Droplet in an Aqueous Fluid by Reversed Electrowetting Effect by Qinggong Wang (9094017)

“…However, the opposite phenomenon, e.g., decreasing the wettability of a nonconductive droplet and increasing its contact angle (CA) by the reversed electrowetting (REW) effect, has been scarcely reported. …”

Actuation of a Nonconductive Droplet in an Aqueous Fluid by Reversed Electrowetting Effect by Qinggong Wang (9094017)

“…However, the opposite phenomenon, e.g., decreasing the wettability of a nonconductive droplet and increasing its contact angle (CA) by the reversed electrowetting (REW) effect, has been scarcely reported. …”

Actuation of a Nonconductive Droplet in an Aqueous Fluid by Reversed Electrowetting Effect by Qinggong Wang (9094017)

“…However, the opposite phenomenon, e.g., decreasing the wettability of a nonconductive droplet and increasing its contact angle (CA) by the reversed electrowetting (REW) effect, has been scarcely reported. …”

Actuation of a Nonconductive Droplet in an Aqueous Fluid by Reversed Electrowetting Effect by Qinggong Wang (9094017)

“…However, the opposite phenomenon, e.g., decreasing the wettability of a nonconductive droplet and increasing its contact angle (CA) by the reversed electrowetting (REW) effect, has been scarcely reported. …”

Actuation of a Nonconductive Droplet in an Aqueous Fluid by Reversed Electrowetting Effect by Qinggong Wang (9094017)

“…However, the opposite phenomenon, e.g., decreasing the wettability of a nonconductive droplet and increasing its contact angle (CA) by the reversed electrowetting (REW) effect, has been scarcely reported. …”

Actuation of a Nonconductive Droplet in an Aqueous Fluid by Reversed Electrowetting Effect by Qinggong Wang (9094017)

“…However, the opposite phenomenon, e.g., decreasing the wettability of a nonconductive droplet and increasing its contact angle (CA) by the reversed electrowetting (REW) effect, has been scarcely reported. …”

Negative thermotactic behavior is also reproduced by a variety of neuroanatomical models. by Muneki Ikeda (5166362)

Activity of a thermosensory neuron AFD designates steering curvature of locomotion. by Muneki Ikeda (5166362)

Effect of HPMC/GSNO on tumor necrosis factor alpha (TNF-α; A), RANK (B) and on the ratio RANKL/OPG (C) mRNA levels in experimental periodontitis in rats. by Conceição S. Martins (468492)

A Jump model for neonatal sepsis incidence trend patterns at JMC, Ethiopia. by Daniel Geleta (17328210)

Correct responses (Rationalized Arcsin Units) as a function of TMR in Experiment I. by Cosima Lanzilotti (14204350)

Gene amplification and deletion in <i>L. tarentolae</i> A150.1. by Gaétan Roy (187604)

DAVID analysis. by Diego Iacono (10785756)

Fig 1 - by Kirsten A. Wilcox (11099051)