601 research outputs found
AgBiS\u3csub\u3e2\u3c/sub\u3e as a low-cost and eco-friendly all-inorganic photovoltaic material: nanoscale morphologyâ property relationshipâ
Solar cells made of low-cost solution-processed all-inorganic materials are a promising alternative to conventional solar cells made of high-temperature processed inorganic materials, especially because many high-temperature processed inorganic materials contain toxic element(s) such as lead or cadmium (e.g., CsPbI3 perovskite, PbS, CdTe and CdS(Se)). AgBiS2 nanocrystals, consisting of earth-abundant elements but without lead and cadmium, have already emerged as a promising candidate in highperformance solar cells. However, the nanoscale morphologyâoptoelectronic property relationship for AgBiS2 nanocrystals is still largely unknown. Herein, we investigate the electronic properties of various AgBiS2 nanocrystals by using first-principles computation. We show that the optoelectronic properties of bulk AgBiS2 are highly dependent on the MâSâMâSâ (M: Ag or Bi) orderings. Moreover, because AgâSâ AgâSâ and BiâSâBiâSâ in AgBiS2 bulk crystals contribute respectively to the valence band maximum and conduction band minimum, these unique chemical orderings actually benefit easy separation of mobile electrons and holes for photovoltaic application. More importantly, we find that AgBiS2 nanocrystals (NCs) can exhibit markedly different optoelectronic properties, depending on their stoichiometry. NCs with minor off-stoichiometry give rise to mid-gap states, whereas NCs with substantial off-stoichiometry give rise to many deep defect states in the band gap, and some NCs even show metallic-like electronic behavior. We also find that the deep-defect states can be removed through ligand passivation with optimal coverage. The new insights into the nanoscale morphologyâ optoelectronic property relationship offer a rational design strategy to engineer the band alignment of AgBiS2 NC layers while addressing some known challenging issues inherent in all-inorganic photovoltaic materials
Nodeless superconductivity in the presence of spin-density wave in pnictide superconductors: The case of BaFeNiAs
The characteristics of Fe-based superconductors are manifested in their
electronic, magnetic properties, and pairing symmetry of the Cooper pair, but
the latter remain to be explored. Usually in these materials, superconductivity
coexists and competes with magnetic order, giving unconventional pairing
mechanisms. We report on the results of the bulk magnetization measurements in
the superconducting state and the low-temperature specific heat down to 0.4 K
for BaFeNiAs single crystals. The {electronic} specific
heat displays a pronounced anomaly at the superconducting transition
temperature and a small residual part {at low temperatures in the
superconducting state}. The normal-state Sommerfeld coefficient increases with
Ni doping for = 0.092, 0.096, and 0.10, which illustrates the competition
between magnetism and superconductivity. Our analysis of the temperature
dependence of the superconducting-state specific heat and the London
penetration depth provides strong evidence for a two-band -wave order
parameter. Further, the data of the London penetration depth calculated from
the lower critical field follow an exponential temperature dependence,
characteristic of a fully gapped superconductor. These observations clearly
show that the superconducting gap in the nearly optimally doped compounds is
nodeless.Comment: 11 pages, 5 figure
Pulmonary alveolar type I cell population consists of two distinct subtypes that differ in cell fate.
Pulmonary alveolar type I (AT1) cells cover more than 95% of alveolar surface and are essential for the air-blood barrier function of lungs. AT1 cells have been shown to retain developmental plasticity during alveolar regeneration. However, the development and heterogeneity of AT1 cells remain largely unknown. Here, we conducted a single-cell RNA-seq analysis to characterize postnatal AT1 cell development and identified insulin-like growth factor-binding protein 2 (Igfbp2) as a genetic marker specifically expressed in postnatal AT1 cells. The portion of AT1 cells expressing Igfbp2 increases during alveologenesis and in post pneumonectomy (PNX) newly formed alveoli. We found that the adult AT1 cell population contains both Hopx+Igfbp2+ and Hopx+Igfbp2- AT1 cells, which have distinct cell fates during alveolar regeneration. Using an Igfbp2-CreER mouse model, we demonstrate that Hopx+Igfbp2+ AT1 cells represent terminally differentiated AT1 cells that are not able to transdifferentiate into AT2 cells during post-PNX alveolar regeneration. Our study provides tools and insights that will guide future investigations into the molecular and cellular mechanism or mechanisms underlying AT1 cell fate during lung development and regeneration
Anthocyanins: Novel Antioxidants in Diseases Prevention and Human Health
Anthocyanins are a category of water-soluble natural pigments that exist widely in all kinds of vegetables, fruits, and seeds. In fact, the chemical nature of anthocyanins is a group of compounds, and possesses antioxidant capacity like flavonoids. Anthocyanins show antioxidant activity by scavenging free radicals, activating antioxidant enzyme, and chelating metal ions. Anthocyanins, therefore, are recognized as one of the most effective natural antioxidant in the human body. Anthocyanins for a variety of disease prevention and health care are closely related to their strong antioxidant activity and scavenging free radical ability. The present chapter reviewed anthocyanins eliminating free radicals for preventing neoplasm, modulating antioxidant enzyme for preventing Alzheimerâs disease, losing weight for preventing diabetes, regulating lipid metabolism for preventing cardiovascular disease, and inhibiting photoreceptor apoptosis for treating xerophthalmia and for other diseases treated. In addition, some healthy food added of anthocyanins was used as precaution for some diseases, else, there are some cosmetics added with anthocyanins, including sunscreen, creams, mouthwash, and shampoo. Specific creams for characteristics of Chinese old people skin in Chinese Company were developed and achieved anti-wrinkle and moisturizing efficacy. Simultaneously, anthocyanins can also be as a food additive to lactic acid milk, cakes, and other food
MAFW: A Large-scale, Multi-modal, Compound Affective Database for Dynamic Facial Expression Recognition in the Wild
Dynamic facial expression recognition (FER) databases provide important data
support for affective computing and applications. However, most FER databases
are annotated with several basic mutually exclusive emotional categories and
contain only one modality, e.g., videos. The monotonous labels and modality
cannot accurately imitate human emotions and fulfill applications in the real
world. In this paper, we propose MAFW, a large-scale multi-modal compound
affective database with 10,045 video-audio clips in the wild. Each clip is
annotated with a compound emotional category and a couple of sentences that
describe the subjects' affective behaviors in the clip. For the compound
emotion annotation, each clip is categorized into one or more of the 11
widely-used emotions, i.e., anger, disgust, fear, happiness, neutral, sadness,
surprise, contempt, anxiety, helplessness, and disappointment. To ensure high
quality of the labels, we filter out the unreliable annotations by an
Expectation Maximization (EM) algorithm, and then obtain 11 single-label
emotion categories and 32 multi-label emotion categories. To the best of our
knowledge, MAFW is the first in-the-wild multi-modal database annotated with
compound emotion annotations and emotion-related captions. Additionally, we
also propose a novel Transformer-based expression snippet feature learning
method to recognize the compound emotions leveraging the expression-change
relations among different emotions and modalities. Extensive experiments on
MAFW database show the advantages of the proposed method over other
state-of-the-art methods for both uni- and multi-modal FER. Our MAFW database
is publicly available from https://mafw-database.github.io/MAFW.Comment: This paper has been accepted by ACM MM'2
Pharmacist-led olaparib follow-up service for ambulatory ovarian cancer patients: A prospective study in a tertiary specialized cancer hospital in China
Purpose: To establish a pharmacist-led olaparib follow-up program for ovarian cancer patients, provide patient education, get information on adverse drug reactions (ADRs), and identify and manage drug-related problems.Methods: Ambulatory adult patients with ovarian cancer receiving olaparib were enrolled. At least one follow-up session was conducted by clinical pharmacists. Pharmacists collected data on the type and grade of ADRs, drug adherence, olaparib dosing, concomitant medications, and pharmacistsâ suggestions.Results: 83 patients were enrolled with the median age of 58. The average number of the follow-up sessions provided to each patient was 1.31, and the average duration of each follow-up was 17.78Â min. The olaparib starting dose for most patients (97.59%) was 600Â mg/d. 36.14% of the patients had missed olaparib doses and 27.71% of the patients had dose adjustments due to ADRs. The most common ADRs (incidenceâ„10%) were: fatigue (40.96%), anemia (36.14%), leukopenia (36.14%), nausea (28.92%), thrombocytopenia (16.87%), anorexia (16.87%), dyspepsia (15.66%). The tolerability profiles were generally similar between patients treated for âfirst-line maintenanceâ and those treated for ârecurrence maintenanceâ (p > .05). There were 42% of the patients who were concomitantly taking medications without exact chemical contents (such as formulated Chinese medicines and Chinese decoctions), and common types of concomitant medications with exact drug names were antihypertensive, anti-hyperglycemic, and anti-hyperlipidemic medications. The pharmacists identified 4 clinically significant drug-drug interactions (DDIs) in two patients. Pharmacists made 196 suggestions mainly related to rational use of the medications and management of ADRs.Conclusion: The study provides the first report about pharmacist-led follow-up service for olaparib. The types of ADRs were similar to those previously observed in clinical trials, and the profiles of ADRs in different types of patients (first-line maintenance vs. recurrence maintenance) were also similar. Pharmacists identified drug-related problems (such as adherence, DDIs and management of ADRs) and offer suggestions for the patients
Heterogeneous Vancomycin-Intermediate Staphylococcus aureus Uses the VraSR Regulatory System to Modulate Autophagy for Increased Intracellular Survival in Macrophage-Like Cell Line RAW264.7
The VraSR two-component system is a vancomycin resistance-associated sensor/regulator that is upregulated in vancomycin-intermediate Staphylococcus aureus (VISA) and heterogeneous VISA (hVISA) strains. VISA/hVISA show reduced susceptibility to vancomycin and an increased ability to evade host immune responses, resulting in enhanced clinical persistence. However, the underlying mechanism remains unclear. Recent studies have reported that S. aureus strains have developed some strategies to survive within the host cell by using autophagy processes. In this study, we confirmed that clinical isolates with high vraR expression showed increased survival in murine macrophage-like RAW264.7 cells. We constructed isogenic vraSR deletion strain Mu3ÎvraSR and vraSR-complemented strain Mu3ÎvraSR-C to ascertain whether S. aureus uses the VraSR system to modulate autophagy for increasing intracellular survival in RAW264.7. Overall, the survival of Mu3ÎvraSR in RAW264.7 cells was reduced at all infection time points compared with that of the Mu3 wild-type strain. Mu3ÎvraSR-infected RAW264.7 cells also showed decreased transcription of autophagy-related genes Becn1 and Atg5, decreased LC3-II turnover and increased p62 degradation, and fewer visible punctate LC3 structures. In addition, we found that inhibition of autophagic flux significantly increased the survival of Mu3ÎvraSR in RAW264.7 cells. Together, these results demonstrate that S. aureus uses the VraSR system to modulate host-cell autophagy processes for increasing its own survival within macrophages. Our study provides novel insights into the impact of VraSR on bacterial infection and will help to further elucidate the relationship between bacteria and the host immune response. Moreover, understanding the autophagic pathway in vraSR associated immunity has potentially important implications for preventing or treating VISA/hVISA infection
ĂttekintĂ©s a mƱfajkutatĂĄs tendenciĂĄirĂłl Ă©s lehetĆsĂ©geirĆl. Ătban egy kognitĂv szemlĂ©letƱ mƱfajelmĂ©let felĂ©
<p>Delta, theta, alpha and beta band power at different locations during the walking test (ÎŒV<sup>2</sup>).</p
Active compensation of extrinsic polarization errors using adaptive optics
We present a scheme for active compensation of complex extrinsic polarization
perturbations introduced into an optical system. Imaging polarimeter is used to
measure the polarization state across a beam profile and a liquid crystal
spatial light modulator controls the polarization of the input beam. A sequence
of measurements permits determination of the birefringence properties of a
perturbing specimen. The necessary correction is calculated and fed back to the
polarization modulator to compensate for the polarization perturbation. The
system capabilities are demonstrated on a range of birefringent specimens
- âŠ