An L-shaped acromial angle: The lateral border of the acromion showed a bony protuberance, similar in shape to the letter L. by Weichong Dong (6498998)

Creep failure mode and sketch map of slow-step fractured rock. by Dengke Yang (842532)

ALK inhibitors (Positive control) and ABT199 (Proposed binding) in complex with the ALK active side. by Richard Junior Zapata Dongo (17912565)

Coalescence-Induced Droplet Jumping on Superhydrophobic Surfaces with Annular Wedge-Shaped Micropillar Arrays by Huimin Hou (8899250)

Subjects:

Cell population dynamics for the basic single-step model. by Anshul Saini (11320669)

Distribution of patients in the 4 age groups, mean value of IC-volume from both sides and separately for the left and right ICs. by Pingling Kwok (14896191)

Subjects:

Decreased clonogenic capacity of U87MG and U251MG glioma cells dependent on SHG-44 concentration. by Denis Mustafov (19137870)

Top supply and side return clean laboratory and layout of experimental air vents. by Chao Li (145513)

Comparison of diffusion simulations: implicit scheme of the GDE with a 30-second time step (blue line), implicit scheme of the PNGM with α = 0.6 and a 15-second time step (green li... by Mouad Klai (20818364)

Triads in speech-shaped noise vs babble. by Lauren V. Hadley (11524668)

Pathway analysis using GRB2, a significantly connected and downregulated protein as the focus. by Eiman Y. Ibrahim (10731078)

Flowchart displaying the steps of the present study. by Jingtian Yang (11966345)

Stability differences between condition 1 and other conditions across participants on the hemiparetic (HP) side. by Hyung Suk Yang (20442438)

Subjects:

Process flow map for both NAS and MAC procedures indicating the steps in the endoscopy process. by Andrew L. Mariotti (17457504)

Decrease of cellular cAMP levels in response to a concentration range of melatonin treatments. by Cathryn S. D. Maienza (20629929)

Penalty conversions yield large practical decreases, but robustness and generalizability of result are limited by data quality and sample selection. by Ryan J. Treves (13527735)

Side-Chain Engineering for Modulating the Mechanical and Thermosalient Behavior of Elastic Crystals of Triple-Helix Coordination Polymers by Shu-Wen An (7450172)

“…Potential energy surface analysis and variable-temperature single-crystal X-ray diffraction analysis are used to figure out the effect of side-chain groups on their mechanically responsive and thermosalient properties, which demonstrate that the regulation of side-chain groups from <b>phen</b> to <b>bpy</b> and then to <b>dmbpy</b> in these triple-helix CPs can lead to a gradual decrease in interchain π–π interactions but an increase in the steric hindrance and subsequently exert a significant influence on the apparent mechanical properties and thermosalient behaviors.…”

Side-Chain Engineering for Modulating the Mechanical and Thermosalient Behavior of Elastic Crystals of Triple-Helix Coordination Polymers by Shu-Wen An (7450172)

“…Potential energy surface analysis and variable-temperature single-crystal X-ray diffraction analysis are used to figure out the effect of side-chain groups on their mechanically responsive and thermosalient properties, which demonstrate that the regulation of side-chain groups from <b>phen</b> to <b>bpy</b> and then to <b>dmbpy</b> in these triple-helix CPs can lead to a gradual decrease in interchain π–π interactions but an increase in the steric hindrance and subsequently exert a significant influence on the apparent mechanical properties and thermosalient behaviors.…”

Side-Chain Engineering for Modulating the Mechanical and Thermosalient Behavior of Elastic Crystals of Triple-Helix Coordination Polymers by Shu-Wen An (7450172)

“…Potential energy surface analysis and variable-temperature single-crystal X-ray diffraction analysis are used to figure out the effect of side-chain groups on their mechanically responsive and thermosalient properties, which demonstrate that the regulation of side-chain groups from <b>phen</b> to <b>bpy</b> and then to <b>dmbpy</b> in these triple-helix CPs can lead to a gradual decrease in interchain π–π interactions but an increase in the steric hindrance and subsequently exert a significant influence on the apparent mechanical properties and thermosalient behaviors.…”

Side-Chain Engineering for Modulating the Mechanical and Thermosalient Behavior of Elastic Crystals of Triple-Helix Coordination Polymers by Shu-Wen An (7450172)

“…Potential energy surface analysis and variable-temperature single-crystal X-ray diffraction analysis are used to figure out the effect of side-chain groups on their mechanically responsive and thermosalient properties, which demonstrate that the regulation of side-chain groups from <b>phen</b> to <b>bpy</b> and then to <b>dmbpy</b> in these triple-helix CPs can lead to a gradual decrease in interchain π–π interactions but an increase in the steric hindrance and subsequently exert a significant influence on the apparent mechanical properties and thermosalient behaviors.…”