17O solid-state NMR study on exposed facets of ZnO nanorods with different aspect ratios.

The physical and chemical properties of metal oxide nanocrystals are closely related to their exposed facets, so the study on facet structures is helpful to develop facet/morphology-property relationships and rationally design nanostructures with desired properties. In this study, wurtzite ZnO nanorods with different aspect ratios were prepared by controlling the Zn2+/OH- ratio, temperature and time in hydrothermal processes. An 17O solid-state NMR study was performed on these nanorods, after surface 17O labeling, to explore the relationship of the 17O NMR signals with the local surface structure of different exposed facets, i.e., nonpolar (101̄0) and polar (0002) facets. It is observed that, one of the signals, the sharp component of a peak at -18.8 ppm, comprises the contribution from the oxygen ions on the polar (0002) facets, in addition to that from nonpolar (101̄0) facets, which is confirmed by 17O NMR spectra of ZnO nanorods with controlled aspect ratios and different thermal treatment conditions. This is important for accurately interpreting the 17O NMR signal of ZnO-containing materials, especially when studying the facet-related mechanisms. The method applied here can also be extended to study the facet-dependent properties of other faceted oxide nanocrystals.

Unveiling the Surface Structure of ZnO Nanorods and H2 Activation Mechanisms with 17O NMR Spectroscopy.

ZnO plays a very important role in many catalytic processes involving H2, yet the details on their interactions and H2 activation mechanism are still missing, owing to the lack of a characterization method that provides resolution at the atomic scale and follows the fate of oxide surface species. Here, we apply 17O solid-state NMR spectroscopy in combination with DFT calculations to unravel the surface structure of ZnO nanorods and explore the H2 activation process. We show that six different types of oxygen ions in the surface and subsurface of ZnO can be distinguished. H2 undergoes heterolytic dissociation on three-coordinated surface zinc and oxygen ions, while the formed hydride species migrate to nearby oxygen species, generating a second hydroxyl site. When oxygen vacancies are present, homolytic dissociation of H2 occurs and zinc hydride species form from the vacancies. Reaction mechanisms on oxide surfaces can be explored in a similar manner.

Evaluation of histopathological response to neoadjuvant therapy in rectal cancer using slide-free, stain-free multimodal multiphoton microscopy.

Neoadjuvant therapy has become a standard treatment for patients with locally advanced rectal cancer to achieve better prognostic outcomes. The response to treatment has been shown to correlate closely with the prognosis. However, current evaluation systems only provide coarse assessment on limited information, due to the lack of accurate and reproducible approach for quantitation of different types of responses. In this study, a novel stain-free, slide-free multimodal multiphoton microscopy imaging technique was applied to image rectal cancer tissues after neoadjuvant therapies with high resolution and contrast. Qualitative and quantitative evaluation of tumor, stromal, and inflammatory responses were demonstrated which are consistent with current tumor regression grading system using American Joint Committee on Cancer criteria, showing the great potential of such approach to build a more informative grading system for accurate and standardizable assessment of neoadjuvant therapy in rectal cancer.

A highway crash risk assessment method based on traffic safety state division.

In order to quantitatively analyze the influence of different traffic conditions on highway crash risk, a method of crash risk assessment based on traffic safety state division is proposed in this paper. Firstly, the highway crash data and corresponding traffic data of upstream and downstream are extracted and processed by using the matched case-control method to exclude the influence of other factors on the model. Secondly, considering the weight of traffic volume, speed and occupancy, a multi-parameter fusion cluster method is applied to divide traffic safety state. In addition, the quantitative relationship between different traffic states and highway crash risk is analyzed by using Bayesian conditional logistic regression model. Finally, the results of case study show that different traffic safety conditions are in different crash risk levels. The highway traffic management department can improve the safety risk management level by focusing on the prevention and control of high-risk traffic safety conditions.

[Effect of electroacupuncture on ultrastructural changes of facial nerve in rabbits with facial nerve injury].

OBJECTIVE: To observe the effect of electroacupuncture (EA) on ultrastructure of facial nerve and Schwann cells in facial nerve injury rabbits so as to explore its mechanism underlying improving facial palsy. METHODS: A total of 60 Japanese white rabbits were randomly assigned to normal control (normal, n = 6), sham-operation (sham, n = 18), model (n = 18) and EA (n = 18) groups. The facial nerve injury model was established by clamping the right facial nerve for 5 min by using a pair of forceps. EA (1.5 V, 3 Hz/60 Hz) was applied to "Yifeng" (TE 17)-"Hegu" (LI 4), and "Dicang" (ST4)-"Jiache" (ST6) on the affected side for 30 min, respectively, once daily for 3 weeks. Morphologic changes of the myelin sheath and Schwann cells of the facial nerve were observed by using electron microscope after 1, 2 and 3 weeks' treatment. RESULTS: Compared with the normal control group, the number of the myelin sheaths and the thickness values of the facial nerve after treatment of 1, 2 and 3 weeks in the model group were decreased significantly (P < 0.01, P < 0.05). While in comparison with the model group, the thickness value of the facial nerve 2 weeks after modeling in EA group was increased considerably (P < 0.01). In the model group, there were many vacuoles in the cytoplasm of Schwann cells instead of organells in the facial nerve. In the sham group, the demyelination was milder than that of the model group, and majority of myelin sheaths showed integral structure after 2 and 3 weeks, being similar to the normal group. Compared with the model group, the extent of demyelination was less distinct, with relatively more abundant organells in the facial nerve of the EA group, especially after 1 week of treatment. Among the three time points in the EA group, demyelination was milder in the 1st week not in the other time points. In contrast, along with the continuous EA treatment, the situation became worse after 3 weeks of treatment in the EA group. CONCLUSION: In the acute stage of facial nerve injury, EA intervention can play a positive effect on the repair of the nerve and Schwann cells. However, continuous 3- weeks' EA intervention may worsen the facial nerve injury.