Quantum-Chemical Investigation of Hydrocarbon Oxidative Dehydrogenation over Spin-Active Carbon Catalyst Clusters by Oleksiy V. Khavryuchenko (770008)

“…The armchair edge is passive toward reaction with hydrocarbons, but it reacts almost without a barrier with hydrocarbon radicals. The barrier of reoxidation by O₂ was found to decrease from 161 to 69 kJ/mol with an increasing level of saturation with H atoms.…”

Quantum-Chemical Investigation of Hydrocarbon Oxidative Dehydrogenation over Spin-Active Carbon Catalyst Clusters by Oleksiy V. Khavryuchenko (770008)

“…The armchair edge is passive toward reaction with hydrocarbons, but it reacts almost without a barrier with hydrocarbon radicals. The barrier of reoxidation by O₂ was found to decrease from 161 to 69 kJ/mol with an increasing level of saturation with H atoms.…”

Quantum-Chemical Investigation of Hydrocarbon Oxidative Dehydrogenation over Spin-Active Carbon Catalyst Clusters by Oleksiy V. Khavryuchenko (770008)

“…The armchair edge is passive toward reaction with hydrocarbons, but it reacts almost without a barrier with hydrocarbon radicals. The barrier of reoxidation by O₂ was found to decrease from 161 to 69 kJ/mol with an increasing level of saturation with H atoms.…”

Quantum-Chemical Investigation of Hydrocarbon Oxidative Dehydrogenation over Spin-Active Carbon Catalyst Clusters by Oleksiy V. Khavryuchenko (770008)

“…The armchair edge is passive toward reaction with hydrocarbons, but it reacts almost without a barrier with hydrocarbon radicals. The barrier of reoxidation by O₂ was found to decrease from 161 to 69 kJ/mol with an increasing level of saturation with H atoms.…”

Quantum-Chemical Investigation of Hydrocarbon Oxidative Dehydrogenation over Spin-Active Carbon Catalyst Clusters by Oleksiy V. Khavryuchenko (770008)

“…The armchair edge is passive toward reaction with hydrocarbons, but it reacts almost without a barrier with hydrocarbon radicals. The barrier of reoxidation by O₂ was found to decrease from 161 to 69 kJ/mol with an increasing level of saturation with H atoms.…”

Quantum-Chemical Investigation of Hydrocarbon Oxidative Dehydrogenation over Spin-Active Carbon Catalyst Clusters by Oleksiy V. Khavryuchenko (770008)

“…The armchair edge is passive toward reaction with hydrocarbons, but it reacts almost without a barrier with hydrocarbon radicals. The barrier of reoxidation by O₂ was found to decrease from 161 to 69 kJ/mol with an increasing level of saturation with H atoms.…”

Quantum-Chemical Investigation of Hydrocarbon Oxidative Dehydrogenation over Spin-Active Carbon Catalyst Clusters by Oleksiy V. Khavryuchenko (770008)

“…The armchair edge is passive toward reaction with hydrocarbons, but it reacts almost without a barrier with hydrocarbon radicals. The barrier of reoxidation by O₂ was found to decrease from 161 to 69 kJ/mol with an increasing level of saturation with H atoms.…”

Quantum-Chemical Investigation of Hydrocarbon Oxidative Dehydrogenation over Spin-Active Carbon Catalyst Clusters by Oleksiy V. Khavryuchenko (770008)

“…The armchair edge is passive toward reaction with hydrocarbons, but it reacts almost without a barrier with hydrocarbon radicals. The barrier of reoxidation by O₂ was found to decrease from 161 to 69 kJ/mol with an increasing level of saturation with H atoms.…”

Quantum-Chemical Investigation of Hydrocarbon Oxidative Dehydrogenation over Spin-Active Carbon Catalyst Clusters by Oleksiy V. Khavryuchenko (770008)

“…The armchair edge is passive toward reaction with hydrocarbons, but it reacts almost without a barrier with hydrocarbon radicals. The barrier of reoxidation by O₂ was found to decrease from 161 to 69 kJ/mol with an increasing level of saturation with H atoms.…”

Quantum-Chemical Investigation of Hydrocarbon Oxidative Dehydrogenation over Spin-Active Carbon Catalyst Clusters by Oleksiy V. Khavryuchenko (770008)

“…The armchair edge is passive toward reaction with hydrocarbons, but it reacts almost without a barrier with hydrocarbon radicals. The barrier of reoxidation by O₂ was found to decrease from 161 to 69 kJ/mol with an increasing level of saturation with H atoms.…”

Quantum-Chemical Investigation of Hydrocarbon Oxidative Dehydrogenation over Spin-Active Carbon Catalyst Clusters by Oleksiy V. Khavryuchenko (770008)

“…The armchair edge is passive toward reaction with hydrocarbons, but it reacts almost without a barrier with hydrocarbon radicals. The barrier of reoxidation by O₂ was found to decrease from 161 to 69 kJ/mol with an increasing level of saturation with H atoms.…”

Quantum-Chemical Investigation of Hydrocarbon Oxidative Dehydrogenation over Spin-Active Carbon Catalyst Clusters by Oleksiy V. Khavryuchenko (770008)

“…The armchair edge is passive toward reaction with hydrocarbons, but it reacts almost without a barrier with hydrocarbon radicals. The barrier of reoxidation by O₂ was found to decrease from 161 to 69 kJ/mol with an increasing level of saturation with H atoms.…”

Local reward learning and GRS-based learning became more pronounced over the course of adolescence. by Marco K. Wittmann (14710470)

Automated image analysis algorithm quantifies changes in synapses development. by Thomas J. F. Nieland (535564)

Effect of metformin exposure on growth and photosynthetic performance in the unicellular freshwater chlorophyte, <i>Chlorella vulgaris</i> by Brittany M. Cummings (5954474)

High-intensity focused ultrasound (HIFU) therapy for benign thyroid nodules: a 3-year retrospective multicenter follow-up study by Hervé Monpeyssen (9672810)

“…</p> <p> Sixty-five patients (mean age 51.1 ± 14.0 years; 86.2% women) with a single thyroid nodule and a mean baseline nodule volume of 9.8 ± 10.3 mL were treated with a mean energy of 7.1 ± 3.1 kJ (range: 2.0 to 15.5 kJ). …”

Table_1_Plant functional types and microtopography mediate climate change responses of fine roots in forested boreal peatlands.XLSX by Melina Bucher (15415778)

“…We observed stronger responses for trees (+374.5% for warming and +868.6% for water level drawdown) than for shrubs (+44.0% for warming and +11.5% for water level drawdown) and graminoids (+59.5% for warming and −59.8% for water level drawdown). …”

Supplementary material: Evaluation of emerging NASH therapies: the impact of treatment efficacy profiles on long-term health outcomes by William Herring (18495130)

“…The fibrosis worsening profile reduced predicted 10-year LRC rates (F1: 1.9%; F2: 6.5%; F3: 19.1%; F4/CC: 55.0%) more than the resolution and fibrosis improvement profiles (F1: 2.6%/2.6%; F2: 8.5%/8.3%; F3: 23.3%/23.0%; F4/CC: NA/59.0%). …”

Follistatin Is Induced by Ionizing Radiation and Potentially Predictive of Radiosensitivity in Radiation-Induced Fibrosis Patient Derived Fibroblasts by Helen B. Forrester (106836)

FXR1P overexpression in <i>Fxr1</i>-depleted C2C12 cells restores <i>p21</i> mRNA levels to normal. by Laetitia Davidovic (1595)