Functionalization of Electrodes with Tunable [EMIM]_<i>x</i>[Cl]_<i>x</i>+1^– Ionic Liquid Clusters for Electrochemical Separations by Eric T. Baxter (1597048)

“…Cyclic voltammetry measurements reveal the irreversible adsorption of Fe­(CN)₆^4–/3– anions during redox cycling, while electrochemical impedance spectroscopy indicates a substantial decrease in the electron transfer resistance of the IL-functionalized electrodes due to adsorption of Fe­(CN)₆^4–/3–. …”

Functionalization of Electrodes with Tunable [EMIM]_<i>x</i>[Cl]_<i>x</i>+1^– Ionic Liquid Clusters for Electrochemical Separations by Eric T. Baxter (1597048)

“…Cyclic voltammetry measurements reveal the irreversible adsorption of Fe­(CN)₆^4–/3– anions during redox cycling, while electrochemical impedance spectroscopy indicates a substantial decrease in the electron transfer resistance of the IL-functionalized electrodes due to adsorption of Fe­(CN)₆^4–/3–. …”

Functionalization of Electrodes with Tunable [EMIM]_<i>x</i>[Cl]_<i>x</i>+1^– Ionic Liquid Clusters for Electrochemical Separations by Eric T. Baxter (1597048)

“…Cyclic voltammetry measurements reveal the irreversible adsorption of Fe­(CN)₆^4–/3– anions during redox cycling, while electrochemical impedance spectroscopy indicates a substantial decrease in the electron transfer resistance of the IL-functionalized electrodes due to adsorption of Fe­(CN)₆^4–/3–. …”

Functionalization of Electrodes with Tunable [EMIM]_<i>x</i>[Cl]_<i>x</i>+1^– Ionic Liquid Clusters for Electrochemical Separations by Eric T. Baxter (1597048)

“…Cyclic voltammetry measurements reveal the irreversible adsorption of Fe­(CN)₆^4–/3– anions during redox cycling, while electrochemical impedance spectroscopy indicates a substantial decrease in the electron transfer resistance of the IL-functionalized electrodes due to adsorption of Fe­(CN)₆^4–/3–. …”

Loop in the IB domain drives ParM monomer opening. by Natalie Ng (6560246)

“…(H) The dihedral angle of a ParM monomer crystal structure (PDB ID: 1MWM) was much higher than that of each subunit in a ParM filament crystal structure (PDB ID: 5AEY). …”

Impairments in recognition memory and mesohippocampal dopaminergic fibers induced in the mouse ventral hippocampus after chronic GBR12935 infusions. by Jill Rocchetti (16883936)

BmVg interacts with SWP12, SWP26 and SWP30. by Chunxia Wang (766713)

Fig 1 - by Oh Joo Kweon (8837291)

“…IgM antibody levels reached to peak point at 15–35 days PSO and gradually decreased. …”

Fluorine-Induced Anomalous Optical Stability and Pressure-Enhanced Emission Property of 0D Lead Perovskite Derivatives by Congcong Chen (796149)

Fluorine-Induced Anomalous Optical Stability and Pressure-Enhanced Emission Property of 0D Lead Perovskite Derivatives by Congcong Chen (796149)

<b>Phosphate effects on the transformation of Sb(V)-</b><b>bearing </b><b>ferrihydrite under microbial iron- and sulfate-reducing conditions</b> by Man Jae Kwon (21789485)

“…Anoxic reactors that contained Sb(V)-bearing ferrihydrite (Fh), varying PO₄^3- concentrations (0, 0.2, and 2 mM), and sulfate, were inoculated with a microbial community sourced from Sb-contaminated soil. …”

Data for Evolutionary responses of a dominant plant along a successional gradient in a salt-marsh system by Qingqing Chen (8664393)

Silencing miR-125b-5p attenuates inflammatory response and apoptosis inhibition in mycobacterium tuberculosis-infected human macrophages by targeting DNA damage-regulated autophagy... by Guangming Liu (508069)

“…In mechanism, DRAM2 was a downstream target of miR-125b-5p, as evidenced by dual-luciferase reporter assay. …”

Solar phototron survivorship. by Nicole L. Berry (9471070)

Extracellular Matrix degradation pathways are enhanced by acidosis in M.tb infection. by Ashley M. Whittington (16510641)

Hydrogel Coated Mesh with Controlled Flux for Oil/Water Separation by Changhui Fu (1578262)

“…In this study, acrylic acid (AA), chitosan (CS) and modified silica were utilized to form a layer of dual-network PAA/CS@SiO₂ hydrogel by photopolymerization on SSM, followed by a simple and novel ultrasonic-assisted pore-making method to generate numerous pores in situ on the surface of the hydrogel-coated mesh, which led to an increase in water flux from 0 to 70,000 L m^–2 h^–1 without decreasing the separation efficiency. After 100 separations of a mixture of <i>n</i>-hexane and water, the flux was still higher than 50,000 L m^–2 h^–1 with a separation efficiency above 99%, which is superior to most of hydrogel-coated meshes reported so far. …”

Hydrogel Coated Mesh with Controlled Flux for Oil/Water Separation by Changhui Fu (1578262)

“…In this study, acrylic acid (AA), chitosan (CS) and modified silica were utilized to form a layer of dual-network PAA/CS@SiO₂ hydrogel by photopolymerization on SSM, followed by a simple and novel ultrasonic-assisted pore-making method to generate numerous pores in situ on the surface of the hydrogel-coated mesh, which led to an increase in water flux from 0 to 70,000 L m^–2 h^–1 without decreasing the separation efficiency. After 100 separations of a mixture of <i>n</i>-hexane and water, the flux was still higher than 50,000 L m^–2 h^–1 with a separation efficiency above 99%, which is superior to most of hydrogel-coated meshes reported so far. …”

Hydrogel Coated Mesh with Controlled Flux for Oil/Water Separation by Changhui Fu (1578262)

“…In this study, acrylic acid (AA), chitosan (CS) and modified silica were utilized to form a layer of dual-network PAA/CS@SiO₂ hydrogel by photopolymerization on SSM, followed by a simple and novel ultrasonic-assisted pore-making method to generate numerous pores in situ on the surface of the hydrogel-coated mesh, which led to an increase in water flux from 0 to 70,000 L m^–2 h^–1 without decreasing the separation efficiency. After 100 separations of a mixture of <i>n</i>-hexane and water, the flux was still higher than 50,000 L m^–2 h^–1 with a separation efficiency above 99%, which is superior to most of hydrogel-coated meshes reported so far. …”

Hydrogel Coated Mesh with Controlled Flux for Oil/Water Separation by Changhui Fu (1578262)

“…In this study, acrylic acid (AA), chitosan (CS) and modified silica were utilized to form a layer of dual-network PAA/CS@SiO₂ hydrogel by photopolymerization on SSM, followed by a simple and novel ultrasonic-assisted pore-making method to generate numerous pores in situ on the surface of the hydrogel-coated mesh, which led to an increase in water flux from 0 to 70,000 L m^–2 h^–1 without decreasing the separation efficiency. After 100 separations of a mixture of <i>n</i>-hexane and water, the flux was still higher than 50,000 L m^–2 h^–1 with a separation efficiency above 99%, which is superior to most of hydrogel-coated meshes reported so far. …”

Hydrogel Coated Mesh with Controlled Flux for Oil/Water Separation by Changhui Fu (1578262)

“…In this study, acrylic acid (AA), chitosan (CS) and modified silica were utilized to form a layer of dual-network PAA/CS@SiO₂ hydrogel by photopolymerization on SSM, followed by a simple and novel ultrasonic-assisted pore-making method to generate numerous pores in situ on the surface of the hydrogel-coated mesh, which led to an increase in water flux from 0 to 70,000 L m^–2 h^–1 without decreasing the separation efficiency. After 100 separations of a mixture of <i>n</i>-hexane and water, the flux was still higher than 50,000 L m^–2 h^–1 with a separation efficiency above 99%, which is superior to most of hydrogel-coated meshes reported so far. …”