Schematic diagram of two time intervals. by Peijian Jin (22265437)

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The mean number of the emerged <i>D. melanogaster</i> adults. Mean number (±SE) of emerged adults and average percentage (±SE) of the residual fertility at the different treatment... by Flavia Cerasti (21655934)

Estimated coefficients from the SARIMA model of new COVID-19 cases, assuming an abrupt effect following the implementation of two ETSs and one executive order in Oregon. by Raul Cruz-Cano (3751321)

Maximum likelihood estimates of trans-log mean stochastic function. by James Anaba Akolgo (14129379)

Summary of post-treatment disease course measures from MDMA-AT publications. by Filip Stanicic (17808254)

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Summary of post-treatment CAPS score changes from clinical trials with FDA-approved medications. by Filip Stanicic (17808254)

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Disease course measures after the PTSD treatments. by Filip Stanicic (17808254)

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Summary of post-treatment CAPS score changes from MDMA-AT publications. by Filip Stanicic (17808254)

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Summary of post-treatment disease course measures from off-label medications clinical trials. by Filip Stanicic (17808254)

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Summary of post-treatment CAPS score changes from clinical trials with psychotherapies. by Filip Stanicic (17808254)

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Summary of clinical studies of FDA-approved medications for PTSD: Disease course outcomes. by Filip Stanicic (17808254)

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Summary of post-treatment disease course measures from clinical trials with psychotherapies. by Filip Stanicic (17808254)

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Summary of clinical efficacy of relevant PTSD treatments. by Filip Stanicic (17808254)

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Post-treatment CAPS score changes from clinical trials with off-label PTSD medications. by Filip Stanicic (17808254)

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Prediction of bacterial BugBase phenotype. by Jun Sun (48981)

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Dynamic Covalent Chemistry Enabled Closed-Loop Recycling of Thermally Modified Polymer Membrane by Ching Yoong Loh (17863097)

“…Thermal and mechanical characterizations confirmed the great stability of the membranes, with the Diels–Alder reaction enabling depolymerization and reformation of the network without causing significant degradation. Additionally, the RFMs were recycled the third time, maintaining the fluxes (752 to 823 LMH) from the previous generation with a slight decrease in separation efficiency in dichloromethane-water emulsion separation (98.3 to 97%). …”

Dynamic Covalent Chemistry Enabled Closed-Loop Recycling of Thermally Modified Polymer Membrane by Ching Yoong Loh (17863097)

“…Thermal and mechanical characterizations confirmed the great stability of the membranes, with the Diels–Alder reaction enabling depolymerization and reformation of the network without causing significant degradation. Additionally, the RFMs were recycled the third time, maintaining the fluxes (752 to 823 LMH) from the previous generation with a slight decrease in separation efficiency in dichloromethane-water emulsion separation (98.3 to 97%). …”

Dynamic Covalent Chemistry Enabled Closed-Loop Recycling of Thermally Modified Polymer Membrane by Ching Yoong Loh (17863097)

“…Thermal and mechanical characterizations confirmed the great stability of the membranes, with the Diels–Alder reaction enabling depolymerization and reformation of the network without causing significant degradation. Additionally, the RFMs were recycled the third time, maintaining the fluxes (752 to 823 LMH) from the previous generation with a slight decrease in separation efficiency in dichloromethane-water emulsion separation (98.3 to 97%). …”

Dynamic Covalent Chemistry Enabled Closed-Loop Recycling of Thermally Modified Polymer Membrane by Ching Yoong Loh (17863097)

“…Thermal and mechanical characterizations confirmed the great stability of the membranes, with the Diels–Alder reaction enabling depolymerization and reformation of the network without causing significant degradation. Additionally, the RFMs were recycled the third time, maintaining the fluxes (752 to 823 LMH) from the previous generation with a slight decrease in separation efficiency in dichloromethane-water emulsion separation (98.3 to 97%). …”

Dynamic Covalent Chemistry Enabled Closed-Loop Recycling of Thermally Modified Polymer Membrane by Ching Yoong Loh (17863097)

“…Thermal and mechanical characterizations confirmed the great stability of the membranes, with the Diels–Alder reaction enabling depolymerization and reformation of the network without causing significant degradation. Additionally, the RFMs were recycled the third time, maintaining the fluxes (752 to 823 LMH) from the previous generation with a slight decrease in separation efficiency in dichloromethane-water emulsion separation (98.3 to 97%). …”