sj-doc-1-cpc-10.1177_10556656241228903 - Supplemental material for Three-dimensional Analysis of Maxillary Morphology in Infants with Unilateral Cleft Lip and Palate

Supplemental material, sj-doc-1-cpc-10.1177_10556656241228903 for Three-dimensional Analysis of Maxillary Morphology in Infants with Unilateral Cleft Lip and Palate by Jie Zheng, PhD, Wenying Kuang, PhD, Shiyu Yuan, BS, Hong He, PhD, and Wenjun Yuan, MD in The Cleft Palate Craniofacial Journal</p

Mirror, Mirror on the Wall, I Deserve More Than All: perceived attractiveness and self-interested behavior

A substantial amount of research has demonstrated that good-looking individuals are perceived and treated in a favorable manner; however, relatively little research has examined how attractive people actually behave. There are two predominant theories on attractiveness: the self-fulfilling nature of “what is beautiful is good” from social psychology and the evolutionary perspective of attractiveness, make divergent predictions in this regard. The current research systematically investigated whether physical attractiveness can predict self-interested behavior and, if so, in which direction. Across five studies (N = 1303), self-perceived attractiveness, either chronically experienced (Studies 1–3) or temporarily heightened (Studies 4 and 5), predicted and increased self-interested behavioral intention and behavior. Increased psychological entitlement acted as a mediator in this process (Studies 1–5). Furthermore, the publicity of the act was a boundary condition for the effect of attractiveness on self-interested behavior (Study 5). We have discussed theoretical and practical implications.</p

Emergence of <i>Morganella morganii</i> subsp<i>. morganii</i> in dairy calves, China

Emergence of Morganella morganii subsp. morganii in dairy calves, Chin

Additional file 1 of Serological investigation of Gyrovirus homsa1 infections in chickens in China

Additional file 1

Manipulating the Nanophase Separation of a Polymer–Salt Microfluid Generates an Advanced <i>In Situ</i> Separator for Component-Integrated Energy Storage Devices

A polymer separator plays a pivotal role in battery safety, overall electrochemical performance, and cell assembly process. Traditional separators are separately produced from the electrodes and dominated by porous polyolefin thin films. In spite of their commercial success, today’s separators are facing growing challenges with the increasing demand on the device safety and performance. As an attempt to address this urgent need, here, we propose a concept of in situ separator technology by manipulating the two-dimensional (2D) microfluid nanophase separation (2D-MFPS) of a poly(vinylidene difluoride)/lithium salt solution during drying. Particularly, nanophase separation is effectively regulated by low humidity, salt type, and compositions. For application studies, this 2D-MFPS is directly performed onto commercial electrodes under drying conditions with low humidity to fabricate a high-performance in situ separator with thickness and porous structures comparable to those of commercial Celgard separators. This in situ separator shows superior performance in high-temperature stability and wetting capability to a variety of liquid electrolytes. Finally, pouch cells with this in situ separator technology are successfully assembled with an extremely simplified separator-stacking-free process and demonstrate stable cycle performance due to the well-controlled porous structures and electrode–separator interface