EMT at the level of dynamic TF activity networks in HMLE Twist ER cells treated with 4OHT (induced Twist model). by Anaar Siletz (400240)

Data from: Viviparity does not affect the numbers and sizes of reptile offspring by Shai Meiri (394933)

Image_1_Deep brain stimulation in Early Onset Parkinson's disease.JPEG by Patricia Krause (9398407)

“…These improvements were accompanied by a significant 59% LEDD reduction (p < 0.001), a significant 6.6 ± 16.1 points reduction of impulsivity (p = 0.02; n = 35) and a significant 30 ± 50% improvement of QoL (p = 0.01). …”

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.…”

Oral Health Policy in Brazil: changes and ruptures during the period 2018-2021 by Lília Paula de Souza Santos (6146060)

“…Federal funding dropped in 2018 and 2019 (8.45%), followed by an increase in 2020 (59.53%) and decrease in 2021 (-5.18%). The study period was marked by economic and political crises aggravated by the COVID-19 pandemic. …”

Comparison of Sting-LDA-WNA to other methods based on the test set 35Enz and induced fit assessment on benchmark 4.0 cases. by Fábio R. de Moraes (516010)

“…For lower coverage (25%), Meta-PPISP still ranks first achieving 70% precision while PINUP and Sting-LDA have similar precision (59%). (b) Sting-LDA-WNA performance on the “medium” and “difficult” classes of the protein-protein docking benchmark, resulting in 6% decrease as compared to the DS30 performance, by using the AUC rate, achieving 0.72.…”

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.…”

Ultrafiltration for the recovery of proteins from surimi washing water by Dayse Lícia de OLIVEIRA (8141601)

“…The permeate showed a significant decrease in TS, proteins and COD, indicating that UF was efficient in removing the organic load from the waters. …”

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.…”