Both MRI and SR-PCI demonstrated significant decreases in clinically-relevant articular cartilage parameters. حسب Suranjan Bairagi (17087667)

Rates of carbon and nitrogen production. حسب Kathryn J. Coyne (11614403)

الموضوعات:

PCR primer sequences designed <i>K</i>. <i>veneficum</i>. حسب Kathryn J. Coyne (11614403)

الموضوعات:

RuBisCO (<i>rbcL</i>) expression. حسب Kathryn J. Coyne (11614403)

الموضوعات:

Schematic of CO₂ and temperature treatments and incubation time for each treatment. حسب Kathryn J. Coyne (11614403)

الموضوعات:

Particulate carbon and nitrogen. حسب Kathryn J. Coyne (11614403)

الموضوعات:

pH, CO₂ and DIC for each treatment (+/- standard deviation). حسب Kathryn J. Coyne (11614403)

الموضوعات:

Growth rates and cell volumes. حسب Kathryn J. Coyne (11614403)

الموضوعات:

Real-Time Polymer Viscosity–Catalytic Activity Relationships on the Microscale حسب Or Eivgi (1677280)

"…Consistent with this diffusional-access model, these viscosity changes were found to be monomer-dependent, showing larger changes in microenvironment viscosity in cross-linked polydicyclopentadiene compared to non-crosslinked polynorbornene. …"

Real-Time Polymer Viscosity–Catalytic Activity Relationships on the Microscale حسب Or Eivgi (1677280)

"…Consistent with this diffusional-access model, these viscosity changes were found to be monomer-dependent, showing larger changes in microenvironment viscosity in cross-linked polydicyclopentadiene compared to non-crosslinked polynorbornene. …"

Real-Time Polymer Viscosity–Catalytic Activity Relationships on the Microscale حسب Or Eivgi (1677280)

"…Consistent with this diffusional-access model, these viscosity changes were found to be monomer-dependent, showing larger changes in microenvironment viscosity in cross-linked polydicyclopentadiene compared to non-crosslinked polynorbornene. …"

Real-Time Polymer Viscosity–Catalytic Activity Relationships on the Microscale حسب Or Eivgi (1677280)

"…Consistent with this diffusional-access model, these viscosity changes were found to be monomer-dependent, showing larger changes in microenvironment viscosity in cross-linked polydicyclopentadiene compared to non-crosslinked polynorbornene. …"

Real-Time Polymer Viscosity–Catalytic Activity Relationships on the Microscale حسب Or Eivgi (1677280)

"…Consistent with this diffusional-access model, these viscosity changes were found to be monomer-dependent, showing larger changes in microenvironment viscosity in cross-linked polydicyclopentadiene compared to non-crosslinked polynorbornene. …"

Real-Time Polymer Viscosity–Catalytic Activity Relationships on the Microscale حسب Or Eivgi (1677280)

"…Consistent with this diffusional-access model, these viscosity changes were found to be monomer-dependent, showing larger changes in microenvironment viscosity in cross-linked polydicyclopentadiene compared to non-crosslinked polynorbornene. …"

Real-Time Polymer Viscosity–Catalytic Activity Relationships on the Microscale حسب Or Eivgi (1677280)

"…Consistent with this diffusional-access model, these viscosity changes were found to be monomer-dependent, showing larger changes in microenvironment viscosity in cross-linked polydicyclopentadiene compared to non-crosslinked polynorbornene. …"

Real-Time Polymer Viscosity–Catalytic Activity Relationships on the Microscale حسب Or Eivgi (1677280)

"…Consistent with this diffusional-access model, these viscosity changes were found to be monomer-dependent, showing larger changes in microenvironment viscosity in cross-linked polydicyclopentadiene compared to non-crosslinked polynorbornene. …"

Real-Time Polymer Viscosity–Catalytic Activity Relationships on the Microscale حسب Or Eivgi (1677280)

"…Consistent with this diffusional-access model, these viscosity changes were found to be monomer-dependent, showing larger changes in microenvironment viscosity in cross-linked polydicyclopentadiene compared to non-crosslinked polynorbornene. …"

Real-Time Polymer Viscosity–Catalytic Activity Relationships on the Microscale حسب Or Eivgi (1677280)

"…Consistent with this diffusional-access model, these viscosity changes were found to be monomer-dependent, showing larger changes in microenvironment viscosity in cross-linked polydicyclopentadiene compared to non-crosslinked polynorbornene. …"

Decreased hypotaurine levels within cells lacking the ADO gene in U251 cells. حسب Hong Tian (169626)

Contents of ions in the soil samples. حسب Fang Zheng (54278)

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