Background: This study aimed to compare the Hospital Anxiety and Depression Scale (HADS) and the Zung Self-Rating Anxiety/Depression Scale (SAS/SDS) in evaluating anxiety and depression in psoriatic arthritis (PsA) patients. Methods: A total of 70 PsA patients were enrolled. Demographic and clinical characteristics were collected after enrollment. HADS-A and SAS were used to evaluate the anxiety of PsA patients, while HADS-D and SDS were used to evaluate the depression of PsA patients. Results: Similar results were observed in detecting the rate of anxiety by HADS-A and SAS (27.1 vs. 21.4%, p = 0.424), and there was no difference in classifying the severity of anxiety by HADS-A and SAS (p = 0.347). The Spearman test also disclosed that HADS-A score was positively associated with SAS score (p <0.001). The rates of depression were similar by HADS-D and SDS (27.1 vs. 40.0%; p = 0.108). However, different results were observed in grading the severity of anxiety by HADS-D and SDS (p = 0.009), and no correlation was observed between HADS-D and SDS scores (p = 0.138). The consumption of time for HADS assessment was shorter than that for SAS/SDS assessment (p < 0.001). In addition, a positive correlation of HADS-A score with patients’ global assessment (PGA) (p = 0.022) and fatigue scores (p = 0.028) was discovered, and HADS-D score was positively associated with PGA score (p = 0.019). SAS or SDS score presented less correlation with clinical features of PsA patients, which illuminated that only SAS score was positively associated with duration of psoriasis (p = 0.030). Conclusion: HADS seems to be a better option for anxiety and depression assessment than SAS/SDS in PsA patients.
The self-powered ultraviolet photodetectors (UV PDs) have attracted increasing attention due to their potential applications without consuming any external power. It is important to obtain the high-performance self-powered UV PDs by a simple method for the practical application. Herein, TiO nanorod arrays (NRs) were synthesized by hydrothermal method, which were integrated with p-type NiO nanoflakes to realize a high performance pn heterojunction for the efficient UV photodetection. TiO thin film can improve the morphological and carrier transport properties of TiO NRs and decrease the surface and defect states, resulting in the enhanced photocurrent of the devices. NiO/TiO nanostructural heterojunctions show excellent rectifying characteristics (rectification ratio of 2.52 × 10 and 1.45 × 10 for NiO/TiO NRs and NiO/TiO NRs/TiO , respectively) with a very low reverse saturation current. The PDs based on the heterojunctions exhibit good spectral selectivity, high photoresponsivity, and fast response and recovery speeds without external applied bias under the weak light radiation. The devices demonstrate good stability and repeatability under UV light radiation. The self-powered performance could be attributed to the proper built-in electric field of the heterojunction. TiO NRs and NiO nanoflakes construct the well-aligned energy-band structure. The enhanced responsivity and detectivity for the devices with TiO thin films is related to the increased interfacial charge separation efficiency, reduced carrier recombination, and relatively good electron transport of TiO NRs.
In this paper, spherical carbon dots (CDs) with distinct compositions and surface states have been successfully synthesized by a facile microwave method. From the fluorescence spectra, several characteristic luminescence features have been observed: surface amino groups are dominant in the whole emission spectra centering at 445 nm, and the fingerprint emissions relevant to the impurity levels formed by some groups related to C and N elements, including C-C/C=C (intrinsic C), C-N (graphitic N), N-containing heterocycles (pyridine N) and C=O groups, are located around 305 nm, 355 nm, 410 nm, and 500 nm, respectively. Those fine luminescence features could be ascribed to the electron transition among various trapping states within the band structure caused by different chemical bonds in carbon cores, or functional groups attached to the CDs’ surfaces. According to the theoretical calculations and experimental results, a scheme of the band structure has been proposed to describe the positions of those trapping states within the band gap. Additionally, it has also been observed that the emission of CDs is sensitive to the concentration of Fe3+ ions with a linear relation in the range of Fe3+ concentration from 12.5 to 250 μM.
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