3 research outputs found
A new method of lower extremity immobilization in radiotherapy
We developed a new method for immobilization of the fix lower extremities by using a thermoplastic mask, a carbon fiber base plate, a customized headrest, and an adjustable angle holder. The lower extremities of 11 patients with lower extremity tumors were immobilized by this method. CT simulation was performed for each patient. For all 11 patients, the device fit was suitable and comfortable and had good reproducibility, which was proven in daily radiotherapy
Rational Modulation of Effective Mass Near Band Edge of Li<sub>2</sub>SnO<sub>3</sub> to Increase Photogenerated Carrier Separation Ratio and Photocatalytic Performance
Photogenerated carrier separation is important in photocatalysis.
Doping may offer control over the effective masses of the photogenerated
electrons and holes. Herein, a doping strategy in Li2SnO3 enhanced photogenerated carrier separation, boosting photocatalysis.
Substitution of Ge with Sn increased the effective mass of holes and
reduced that of electrons; hence, the photogenerated electron/hole
lifetime ratio in Li2Sn0.90Ge0.10O3 was approximately 2.8 times as great as that of Li2SnO3. Photocatalytic degradation by Li2Sn0.90Ge0.10O3 reached 100% within
12 min. However, the opposite effect was achieved upon doping with
Pb. Theoretical calculations revealed that the low Ge-4p valence band
orbital reduced hole mobility, while the Ge-4s orbital hybridized
with O-2p near the conduction band minimum increased the electron
mobility. Steady-state and time-resolved photoluminescence spectroscopy,
electron spin resonance, and liquid chromatographyâmass spectrometry
were conducted to explore the photocatalytic mechanism. This study
provides an understanding of structureâactivity relationships
to guide the design of high-performance photocatalysts