Cyclopropane as an Unsaturation “Effect Isostere”: Lowering the Melting Points in Lipid-like Ionic Liquids by Richard A. O’Brien (1538818)

“…The data indicate there is considerable structural latitude possible when designing highly lipophilic ionic liquids that exhibit low melting points. While cyclopropanation of the lipid-like ionic liquids provides more resistance to aerobic degradation than their olefin analogs, the impact on the melting point decrease is not as pronounced. …”

Klf5 expression is down-regulated in the ruptured human and experimental AAA. by Dong Ma (584680)

Analysis of pairwise linkage disequilibrium in <i>C3</i> gene. by Yonghui Wang (287491)

Subjects:

Cancer drugs that decrease cardiomyocyte viability induce cellular stress. by E. Renee Matthews (18071587)

Detection probability estimates from models with decreasing detection probability. by Beth E. Ross (118546)

Results of the fitting process of the basic epidemiological model (i.e., without vaccinations). by Matthias Horn (78815)

A. Proportion of men with Low Semen Quality (LSQ) including 95% confidence interval (CI) versus prevalence, overall and for men on medication(s) (M); B: Point estimates with 95% CI... by P.G.J. ter Horst (21743830)

Example images for each of the assessed time points. by David Haberthür (8407422)

Locations of the sampling points in the Meili Snow Mountains. by Xinyu Wen (3693)

Biomechanical Energy Harvesters Based on Ionic Conductive Organohydrogels via the Hofmeister Effect and Electrostatic Interaction by Yinghong Wu (1462006)

“…Moreover, replacing water with glycerol in the hydrogel enables the device to exhibit excellent long-term stability (four months) and temperature tolerance (−50–100 °C). The presented strategy and mechanism can be extended to common organohydrogel systems aiming at high performance in electronic applications.…”

Biomechanical Energy Harvesters Based on Ionic Conductive Organohydrogels via the Hofmeister Effect and Electrostatic Interaction by Yinghong Wu (1462006)

“…Moreover, replacing water with glycerol in the hydrogel enables the device to exhibit excellent long-term stability (four months) and temperature tolerance (−50–100 °C). The presented strategy and mechanism can be extended to common organohydrogel systems aiming at high performance in electronic applications.…”

Biomechanical Energy Harvesters Based on Ionic Conductive Organohydrogels via the Hofmeister Effect and Electrostatic Interaction by Yinghong Wu (1462006)

“…Moreover, replacing water with glycerol in the hydrogel enables the device to exhibit excellent long-term stability (four months) and temperature tolerance (−50–100 °C). The presented strategy and mechanism can be extended to common organohydrogel systems aiming at high performance in electronic applications.…”

Biomechanical Energy Harvesters Based on Ionic Conductive Organohydrogels via the Hofmeister Effect and Electrostatic Interaction by Yinghong Wu (1462006)

“…Moreover, replacing water with glycerol in the hydrogel enables the device to exhibit excellent long-term stability (four months) and temperature tolerance (−50–100 °C). The presented strategy and mechanism can be extended to common organohydrogel systems aiming at high performance in electronic applications.…”

Differences in b-vitamins in response to a control diet or a diet containing MCOA: a. by Natalie E. Diether (16705804)

Bile acid changes observed on D7 and 14 post-weaning in response to feeding a control diet or a diet containing MCOA. by Natalie E. Diether (16705804)

Tryptophan and metabolite alterations in response to a control diet or a diet containing MCOA. by Natalie E. Diether (16705804)

Whole-body metabolic indicators of tissue deposition. by Natalie E. Diether (16705804)

Ascorbic acid, total phenolics, proline, GB, hydrogen peroxide, MDA and total soluble proteins in the inflorescence of two cultivars of cauliflower (<i>Brassica oleracea</i> L.) pl... by Munifa Jabeen (12634746)

Temporal distributions of inscriptions and occupations using uniform 50-years-long timeblocks. by Vojtěch Kaše (6156971)

Maximum temperature and freeze-thaw thickness of surrounding rock (4 °C). by Jianqing Jia (21001506)