Publications by authors named "Tengteng Lyu"
Article Synopsis
- Researchers propose that nonsymmetrical oxygen-bridged binuclear copper centers are important in C─H oxidation pathways due to their unique structure enhancing reactivity.
- A new metastable dicopper-μ-oxo compound was successfully synthesized under high pressure, showing high reactivity with aliphatic C─H bonds.
- The study reveals that the uneven coordination of copper in this compound boosts the activity of bridging oxygen, allowing for effective hydroxylation of methane at room temperature.
The development of external stimuli-controlled payload systems has been sought after with increasing interest toward magnetothermally-triggered drug release (MTDR) carriers due to their non-invasive features. However, current MTDR carriers present several limitations, such as poor heating efficiency caused by the aggregation of iron oxide nanoparticles (IONPs) or the presence of antiferromagnetic phases which affect their efficiency. Herein, a novel MTDR carrier is developed using a controlled encapsulation method that fully fixes and confines IONPs of various sizes within the metal-organic frameworks (MOFs).
View Article and Find Full Text PDFControlling diamond structures with nanometer precision is fundamentally challenging owing to their extreme and far-from-equilibrium synthetic conditions. State-of-the-art techniques, including detonation, chemical vapor deposition, mechanical grinding, and high-pressure-high-temperature synthesis, yield nanodiamond particles with a broad distribution of sizes. Despite many efforts, the direct synthesis of nanodiamonds with precisely controlled diameters remains elusive.
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