Dynamic analysis results. by Wei Cui (92129)

Subjects:

Verification of closed economic hypothesis. by Wei Cui (92129)

Subjects:

Parallel trend test. by Wei Cui (92129)

Subjects:

Descriptive statistics. by Wei Cui (92129)

Subjects:

Mediation mechanism test. by Wei Cui (92129)

Subjects:

Mechanism test and robustness test results. by Wei Cui (92129)

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Meta-regression based on age and length of saty. by Samira Raoofi (12558988)

Subjects:

Table_1_Linking Brain Age Gap to Mental and Physical Health in the Berlin Aging Study II.XLSX by Philippe Jawinski (2665681)

Simulations of Diabetic and Non-Diabetic Peripheral Nerve Myelin Lipid Bilayers by Yiding Yuan (10918675)

“…Compared to PI-lipids, PS-lipids were found to cause higher inter-lipid spacing and decreased order within membranes as a result of their smaller headgroup size and higher inter-lipid hydrogen bonding potential, which allow them to more frequently reside deeper in the membrane plane and produce pushing effects on other lipids. …”

Simulations of Diabetic and Non-Diabetic Peripheral Nerve Myelin Lipid Bilayers by Yiding Yuan (10918675)

“…Compared to PI-lipids, PS-lipids were found to cause higher inter-lipid spacing and decreased order within membranes as a result of their smaller headgroup size and higher inter-lipid hydrogen bonding potential, which allow them to more frequently reside deeper in the membrane plane and produce pushing effects on other lipids. …”

Simulations of Diabetic and Non-Diabetic Peripheral Nerve Myelin Lipid Bilayers by Yiding Yuan (10918675)

“…Compared to PI-lipids, PS-lipids were found to cause higher inter-lipid spacing and decreased order within membranes as a result of their smaller headgroup size and higher inter-lipid hydrogen bonding potential, which allow them to more frequently reside deeper in the membrane plane and produce pushing effects on other lipids. …”

Simulations of Diabetic and Non-Diabetic Peripheral Nerve Myelin Lipid Bilayers by Yiding Yuan (10918675)

“…Compared to PI-lipids, PS-lipids were found to cause higher inter-lipid spacing and decreased order within membranes as a result of their smaller headgroup size and higher inter-lipid hydrogen bonding potential, which allow them to more frequently reside deeper in the membrane plane and produce pushing effects on other lipids. …”

Simulations of Diabetic and Non-Diabetic Peripheral Nerve Myelin Lipid Bilayers by Yiding Yuan (10918675)

“…Compared to PI-lipids, PS-lipids were found to cause higher inter-lipid spacing and decreased order within membranes as a result of their smaller headgroup size and higher inter-lipid hydrogen bonding potential, which allow them to more frequently reside deeper in the membrane plane and produce pushing effects on other lipids. …”

Simulations of Diabetic and Non-Diabetic Peripheral Nerve Myelin Lipid Bilayers by Yiding Yuan (10918675)

“…Compared to PI-lipids, PS-lipids were found to cause higher inter-lipid spacing and decreased order within membranes as a result of their smaller headgroup size and higher inter-lipid hydrogen bonding potential, which allow them to more frequently reside deeper in the membrane plane and produce pushing effects on other lipids. …”

Simulations of Diabetic and Non-Diabetic Peripheral Nerve Myelin Lipid Bilayers by Yiding Yuan (10918675)

“…Compared to PI-lipids, PS-lipids were found to cause higher inter-lipid spacing and decreased order within membranes as a result of their smaller headgroup size and higher inter-lipid hydrogen bonding potential, which allow them to more frequently reside deeper in the membrane plane and produce pushing effects on other lipids. …”

Simulations of Diabetic and Non-Diabetic Peripheral Nerve Myelin Lipid Bilayers by Yiding Yuan (10918675)

“…Compared to PI-lipids, PS-lipids were found to cause higher inter-lipid spacing and decreased order within membranes as a result of their smaller headgroup size and higher inter-lipid hydrogen bonding potential, which allow them to more frequently reside deeper in the membrane plane and produce pushing effects on other lipids. …”

Pearson correlations between language-based predictions of SWB and observed SWB scale scores. by August Håkan Nilsson (12937056)

Microfluidic Particle Engineering of Hydrophobic Drug with Eudragit E100Bridging the Amorphous and Crystalline Gap by Swati Shikha (7459250)

Microfluidic Particle Engineering of Hydrophobic Drug with Eudragit E100Bridging the Amorphous and Crystalline Gap by Swati Shikha (7459250)

Gender co-authorship analysis based on the total citations. by M. Lourdes Ordoñez Olivo (19469511)