Lymphocyte populations in lamina propria and mesenteric lymph nodes of infected <i>MyD88</i>^<i>+/+</i> and <i>MyD88</i>^<i>-/-</i> mice. by Lindsay M. Snyder (4975163)

RI-OR2-TAT reduces the β-amyloid plaque load and levels of Aβ soluble oligomers in the brains of APP/PS1 transgenic mice. by Vadivel Parthsarathy (285723)

“…(<b>C</b>) Quantitative analysis shows a decrease in mean plaque load in the cortex of APP/PS1 mice treated with RI-OR2-TAT compared to animals treated with saline. …”

S1 Fig - by Maryam Banar (3220221)

The relative expression of gibberellin-synthesis genes, including <i>GmGA20ox1</i>, <i>GmGA3ox1</i>, <i>GmGA2ox1</i>, and <i>GmGa3</i>, in soybean seeds dip-treated with control, H... by Sang Tae Kim (6017996)

Percentage survival of <i>Acinetobacter baumannii</i> infected <i>Galleria mellonella.</i> by Techit Thavorasak (13138440)

Lamina propria dendritic cells, neutrophils, and macrophages produce IL-12p40 in the absence of MyD88 during <i>T</i>. <i>gondii</i> infection. by Lindsay M. Snyder (4975163)

CTV p20 interacts with NbSGS3 and mediates autophagic degradation of NbSGS3. by Yongle Zhang (11355546)

Clay mineral components. by Yuanwei Sun (3556460)

“…The peak strength changes linearly with hydrate saturation, while nonlinearly with effective confining pressure, especially 0–3 MPa. …”

Experimental equipment. by Yuanwei Sun (3556460)

“…The peak strength changes linearly with hydrate saturation, while nonlinearly with effective confining pressure, especially 0–3 MPa. …”

Schematic for NGH in-situ synthesis system. by Yuanwei Sun (3556460)

“…The peak strength changes linearly with hydrate saturation, while nonlinearly with effective confining pressure, especially 0–3 MPa. …”

Global, regional, and national burden of household air pollution, 1990–2021: a systematic analysis for the Global Burden of Disease Study 2021 by Fiona B, Bennitt

“…InterpretationAlthough the burden attributable to HAP has decreased considerably, HAP remains a substantial risk factor, especially in sub-Saharan Africa and south Asia. …”
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Tuning Crystallinity and Stacking of Two-Dimensional Covalent Organic Frameworks through Side-Chain Interactions by Chloe E. Pelkowski (17067485)

“…As pendant chain length is increased, trends show average layer offset increasing to a maximum of 2.07 Å in <b>C</b>_<b>5</b> <b>COF</b> and then decreasing as chain length is extended through <b>C</b>_<b>11</b> <b>COF</b>. …”

Tuning Crystallinity and Stacking of Two-Dimensional Covalent Organic Frameworks through Side-Chain Interactions by Chloe E. Pelkowski (17067485)

“…As pendant chain length is increased, trends show average layer offset increasing to a maximum of 2.07 Å in <b>C</b>_<b>5</b> <b>COF</b> and then decreasing as chain length is extended through <b>C</b>_<b>11</b> <b>COF</b>. …”

Tuning Crystallinity and Stacking of Two-Dimensional Covalent Organic Frameworks through Side-Chain Interactions by Chloe E. Pelkowski (17067485)

“…As pendant chain length is increased, trends show average layer offset increasing to a maximum of 2.07 Å in <b>C</b>_<b>5</b> <b>COF</b> and then decreasing as chain length is extended through <b>C</b>_<b>11</b> <b>COF</b>. …”

Tuning Crystallinity and Stacking of Two-Dimensional Covalent Organic Frameworks through Side-Chain Interactions by Chloe E. Pelkowski (17067485)

“…As pendant chain length is increased, trends show average layer offset increasing to a maximum of 2.07 Å in <b>C</b>_<b>5</b> <b>COF</b> and then decreasing as chain length is extended through <b>C</b>_<b>11</b> <b>COF</b>. …”

Tuning Crystallinity and Stacking of Two-Dimensional Covalent Organic Frameworks through Side-Chain Interactions by Chloe E. Pelkowski (17067485)

“…As pendant chain length is increased, trends show average layer offset increasing to a maximum of 2.07 Å in <b>C</b>_<b>5</b> <b>COF</b> and then decreasing as chain length is extended through <b>C</b>_<b>11</b> <b>COF</b>. …”

Tuning Crystallinity and Stacking of Two-Dimensional Covalent Organic Frameworks through Side-Chain Interactions by Chloe E. Pelkowski (17067485)

“…As pendant chain length is increased, trends show average layer offset increasing to a maximum of 2.07 Å in <b>C</b>_<b>5</b> <b>COF</b> and then decreasing as chain length is extended through <b>C</b>_<b>11</b> <b>COF</b>. …”

Tuning Crystallinity and Stacking of Two-Dimensional Covalent Organic Frameworks through Side-Chain Interactions by Chloe E. Pelkowski (17067485)

“…As pendant chain length is increased, trends show average layer offset increasing to a maximum of 2.07 Å in <b>C</b>_<b>5</b> <b>COF</b> and then decreasing as chain length is extended through <b>C</b>_<b>11</b> <b>COF</b>. …”

Tuning Crystallinity and Stacking of Two-Dimensional Covalent Organic Frameworks through Side-Chain Interactions by Chloe E. Pelkowski (17067485)

“…As pendant chain length is increased, trends show average layer offset increasing to a maximum of 2.07 Å in <b>C</b>_<b>5</b> <b>COF</b> and then decreasing as chain length is extended through <b>C</b>_<b>11</b> <b>COF</b>. …”

Tuning Crystallinity and Stacking of Two-Dimensional Covalent Organic Frameworks through Side-Chain Interactions by Chloe E. Pelkowski (17067485)

“…As pendant chain length is increased, trends show average layer offset increasing to a maximum of 2.07 Å in <b>C</b>_<b>5</b> <b>COF</b> and then decreasing as chain length is extended through <b>C</b>_<b>11</b> <b>COF</b>. …”