By designing and fabricating a series of dual-interferometer coupled silicon microrings, the coupling condition of the pump, signal, and idler beams can be engineered independently and then we carried out both the con...By designing and fabricating a series of dual-interferometer coupled silicon microrings, the coupling condition of the pump, signal, and idler beams can be engineered independently and then we carried out both the continuous-wave and pulse pumped four-wave mixing experiments to verify the dependence of conversion efficiency on the coupling conditions of the four interacting beams, respectively. Under the continuous-wave pump, the four-wave mixing efficiency gets maximized when both the pump and signal/idler beams are closely operated at the critical coupling point, while for the pulse pump case, the efficiency can be enhanced greatly when the pump and converted idler beams are all overcoupled. These experiment results agree well with our theoretical calculations. Our design provides a platform for explicitly characterizing the four-wave mixing under different pumping conditions, and offers a method to optimize the four-wave mixing, which will facilitate the development of on-chip all-optical signal processing with a higher efficiency or reduced pump power.展开更多
Achieving high-quality perovskite films with uniform morphology and homogeneous crystallinity is challenging owing to the coffee ring effect(CRE) in the spray-coating technologies. In this study, an evaporation/spray-...Achieving high-quality perovskite films with uniform morphology and homogeneous crystallinity is challenging owing to the coffee ring effect(CRE) in the spray-coating technologies. In this study, an evaporation/spray-coating two-step deposition method is used to fabricate Cs_(0.19)FA_(0.81)PbI_(2.5)Br_(0.5)light harvesters for perovskite solar cells(PSCs). Considering the solid–liquid reaction, we establish a reaction-dependent regulating strategy that inhibits CRE successfully and prepare a high-quality perovskite layer, wherein the solvent for the FAI/Br solution during the spraying process is changed from isopropanol to n-butyl alcohol(NBA). The retarded-drying-enhanced spreading of the NBA solution inhibits contact line pinning to suppress the capillary flows and increases the reaction between metal halides(CsI/PbI_(2)) and organic salts(FAI/Br), which result in a reduction in the accumulation of solutes in the periphery effectively inhibiting CRE. Consequently, we obtain a high performance Cs_(0.19)FA_(0.81)PbI_(2.5)Br_(0.5) PSC with a power conversion efficiency(PCE) of 19.17%. An enlarged perovskite film(10 × 10 cm^(2)) containing 40 sub-cells is prepared. The average PCE of these devices is 18.33 ± 0.56%, proving the reliability of the "coffee ring" regulating strategy. This study provides an effective approach for CRE controlment in spraying technology to achieve high repeatability devices with good performance.展开更多
To investigate the clinical characteristics,auxiliary examination and treatment of Wilson’s disease(WD).The clinical data of a child with WD were summarized and analyzed comprehensively in conjunction with the litera...To investigate the clinical characteristics,auxiliary examination and treatment of Wilson’s disease(WD).The clinical data of a child with WD were summarized and analyzed comprehensively in conjunction with the literature reference.WD is a hereditary disease with a large age span,diverse early symptoms,high misdiagnosis rate,abnormal liver function,decreased ceruloplasmin,increased urinary copper,K-F rings,ATP7B gene mutation,ATP7B gene mutations,and abnormalities in abdominal and cranial brain imaging,which can be clearly diagnosed and require lifelong treatment.WD can be diagnosed according to the clinical manifestations and auxiliary examination to reduce misdiagnosis.The timely diagnosis and treatment will improve the prognosis the quality of life.展开更多
In recent years,the importance of science and technology,as the first productive force,has been gradually highlighted.China pays great attention to high-tech enterprises and strongly supports them in fiscal and taxati...In recent years,the importance of science and technology,as the first productive force,has been gradually highlighted.China pays great attention to high-tech enterprises and strongly supports them in fiscal and taxation policies to promote their development effectively.In responding to national policies,high-tech enterprises also continue to improve their efficiency,so the accounting and tax planning work of enterprises is mandatory.However,combined with the status quo of accounting and tax planning of high-tech enterprises,there is something to be improved in both aspects,which makes the enterprises’financial and taxation risks higher and is not conducive to their normal operation.Based on this,the article will focus on the accounting and tax planning of high-tech enterprises as the main object of research.展开更多
Background:Pneumonia-like primary pulmonary lymphoma(PPL)was commonly misdiagnosed as infectious pneumonia,leading to delayed treatment.The purpose of this study was to establish a computed tomography(CT)-based radiom...Background:Pneumonia-like primary pulmonary lymphoma(PPL)was commonly misdiagnosed as infectious pneumonia,leading to delayed treatment.The purpose of this study was to establish a computed tomography(CT)-based radiomics model to differentiate pneumonia-like PPL from infectious pneumonia.Methods:In this retrospective study,79 patients with pneumonia-like PPL and 176 patients with infectious pneumonia from 12 medical centers were enrolled.Patients from center 1 to center 7 were assigned to the training or validation cohort,and the remaining patients from other centers were used as the external test cohort.Radiomics features were extracted from CT images.A three-step procedure was applied for radiomics feature selection and radiomics signature building,including the inter-and intra-class correlation coefficients(ICCs),a one-way analysis of variance(ANOVA),and least absolute shrinkage and selection operator(LASSO).Univariate and multivariate analyses were used to identify the significant clinicoradiological variables and construct a clinical factor model.Two radiologists reviewed the CT images for the external test set.Performance of the radiomics model,clinical factor model,and each radiologist were assessed by receiver operating characteristic,and area under the curve(AUC)was compared.Results:A total of 144 patients(44 with pneumonia-like PPL and 100 infectious pneumonia)were in the training cohort,38 patients(12 with pneumonia-like PPL and 26 infectious pneumonia)were in the validation cohort,and 73 patients(23 with pneumonia-like PPL and 50 infectious pneumonia)were in the external test cohort.Twenty-three radiomics features were selected to build the radiomics model,which yielded AUCs of 0.95(95%confidence interval[CI]:0.94-0.99),0.93(95%CI:0.85-0.98),and 0.94(95%CI:0.87-0.99)in the training,validation,and external test cohort,respectively.The AUCs for the two readers and clinical factor model were 0.74(95%CI:0.63-0.83),0.72(95%CI:0.62-0.82),and 0.73(95%CI:0.62-0.84)in the external test cohort,respectively.The radiomics model outperformed both the readers’interpretation and clinical factor model(P<0.05).Conclusions:The CT-based radiomics model may provide an effective and non-invasive tool to differentiate pneumonia-like PPL from infectious pneumonia,which might provide assistance for clinicians in tailoring precise therapy.展开更多
Single photons and photon pairs are typically generated by spontaneous parametric down conversion or quantum dots;however,spontaneous four-wave mixing(SFWM)in silicon microring resonators[1]is also an appealing source...Single photons and photon pairs are typically generated by spontaneous parametric down conversion or quantum dots;however,spontaneous four-wave mixing(SFWM)in silicon microring resonators[1]is also an appealing source of entangled photons,offering a strong cavity-enhanced nonlinear interactions while maintaining features,such as compact,simple to fabricate,and allowing for thermal tuning.However,silicon ring-resonators usually suffer from a trade-off between providing a high pair generation rate(PGR)and high extraction efficiency.To achieve high PGR,devices are generally operated with the signal and idler photons in the undercoupling regime and pump photons at the critical coupling point,while high extraction rates require the converted photons to be overcoupled.Therefore,the optimal conditions for achieving maximal output photon pair flux are critical coupling for the pump photons and overcoupling for the converted photons[2,3].展开更多
Summary What is already known about this topic?There were a total of 4 and 3 human plague cases that occurred in the Inner Mongolia Autonomous Region in 2019 and 2020,respectively,with 1 and 2 deaths in 2019 and 2020 ...Summary What is already known about this topic?There were a total of 4 and 3 human plague cases that occurred in the Inner Mongolia Autonomous Region in 2019 and 2020,respectively,with 1 and 2 deaths in 2019 and 2020 respectively,which indicated that plague still poses a significant threat to human health especially for farmers,shepherds,or residents living in native plague foci.What is added by this report?On August 14,2021,1 patient from the Otog Qi(County)in the Inner Mongolia sought treatment in Yinchuan City(the capital of Ningxia Hui Autonomous Region).展开更多
Tin oxide has made a major breakthrough in high-efficiency perovskite solar cells(PSCs)as an efficient electron transport layer by the low-temperature chemical bath deposition method.However,tin oxide often contains p...Tin oxide has made a major breakthrough in high-efficiency perovskite solar cells(PSCs)as an efficient electron transport layer by the low-temperature chemical bath deposition method.However,tin oxide often contains pernicious defects,resulting in unsatisfactory performance.Herein,we develop high-quality tin oxide films via a nitrogen-doping strategy for high-efficiency and stable planar PSCs.The aligned energy level at the interface of doped SnO_(2)/perovskite,more excellent charge extraction and reduced nonradiative recombination contribute to the enhanced efficiency and stability.Correspondingly,the power conversion efficiency of the devices based on N‐SnO_(2) film increases to 23.41% from 20.55% of the devices based on the pristine SnO_(2).The N-SnO_(2) devices show an outstanding stability retaining 97.8% of the initial efficiency after steady-state output at a maximum power point for 600s under standard AM1.5G continuous illumination without encapsulation,while less than 50% efficiency remains for the devices based on pristine SnO_(2).This simple scalable strategy has shown great promise toward highly efficient and stable PSCs.展开更多
Owing to their low flexibility,poor processability and a lack of responsiveness,inorganic materials are usually non-ideal for constructing a living organism.Hence,to date,lifelike materials with structural hierarchies...Owing to their low flexibility,poor processability and a lack of responsiveness,inorganic materials are usually non-ideal for constructing a living organism.Hence,to date,lifelike materials with structural hierarchies and adaptive properties usually rely on light and soft organic molecules,although few exceptions have been acquired using two-dimensional(2D)inorganic nanosheets.Herein,with a systematic study on the gelation behavior of carbon-based 0D quantum dots,1D nanotubes,and 3D fullerenes,we find that acidified 1D carbon nanotubes(CNTs)can serve as an alternative building block for fabricating purely inorganic biomimetic soft materials.The as-prepared CNT gels exhibit not only a pH-or photothermal-triggered mechanical and tribological adaptivity,which allows them to simulate the behavior of sea cucumbers,peacock mantis shrimps,and mammalian muscles or cortical bones,but also a unique damping property that is similar to spider’s cuticular pad.Their high elasticity,effective lubrication,excellent biocompatibility,and controllable friction and wear also allow them to function as a new type of smart lubricants,whose tribological properties can be regulated either by its internal pH changes or spatiotemporally by near-infrared(NIR)light irradiations,free of any toxic and flammable base oils or additives.展开更多
基金Project supported by the National Key Research and Development Program of China(Grant No.2017YFA0303700)the National Natural Science Foundation of China(Grant Nos.61632021,11627810,11690031,and 11621091)Open Funds from the State Key Laboratory of High Performance Computing of China(HPCL,National University of Defense Technology)
文摘By designing and fabricating a series of dual-interferometer coupled silicon microrings, the coupling condition of the pump, signal, and idler beams can be engineered independently and then we carried out both the continuous-wave and pulse pumped four-wave mixing experiments to verify the dependence of conversion efficiency on the coupling conditions of the four interacting beams, respectively. Under the continuous-wave pump, the four-wave mixing efficiency gets maximized when both the pump and signal/idler beams are closely operated at the critical coupling point, while for the pulse pump case, the efficiency can be enhanced greatly when the pump and converted idler beams are all overcoupled. These experiment results agree well with our theoretical calculations. Our design provides a platform for explicitly characterizing the four-wave mixing under different pumping conditions, and offers a method to optimize the four-wave mixing, which will facilitate the development of on-chip all-optical signal processing with a higher efficiency or reduced pump power.
基金supported by the National Key Research and Development Program of China(2018YFB1500104)the Technological Innovation Key Project of Guangdong Province(skjtdzxrwqd2018005)the National Natural Science Foundation of China(U20A20245)。
文摘Achieving high-quality perovskite films with uniform morphology and homogeneous crystallinity is challenging owing to the coffee ring effect(CRE) in the spray-coating technologies. In this study, an evaporation/spray-coating two-step deposition method is used to fabricate Cs_(0.19)FA_(0.81)PbI_(2.5)Br_(0.5)light harvesters for perovskite solar cells(PSCs). Considering the solid–liquid reaction, we establish a reaction-dependent regulating strategy that inhibits CRE successfully and prepare a high-quality perovskite layer, wherein the solvent for the FAI/Br solution during the spraying process is changed from isopropanol to n-butyl alcohol(NBA). The retarded-drying-enhanced spreading of the NBA solution inhibits contact line pinning to suppress the capillary flows and increases the reaction between metal halides(CsI/PbI_(2)) and organic salts(FAI/Br), which result in a reduction in the accumulation of solutes in the periphery effectively inhibiting CRE. Consequently, we obtain a high performance Cs_(0.19)FA_(0.81)PbI_(2.5)Br_(0.5) PSC with a power conversion efficiency(PCE) of 19.17%. An enlarged perovskite film(10 × 10 cm^(2)) containing 40 sub-cells is prepared. The average PCE of these devices is 18.33 ± 0.56%, proving the reliability of the "coffee ring" regulating strategy. This study provides an effective approach for CRE controlment in spraying technology to achieve high repeatability devices with good performance.
文摘To investigate the clinical characteristics,auxiliary examination and treatment of Wilson’s disease(WD).The clinical data of a child with WD were summarized and analyzed comprehensively in conjunction with the literature reference.WD is a hereditary disease with a large age span,diverse early symptoms,high misdiagnosis rate,abnormal liver function,decreased ceruloplasmin,increased urinary copper,K-F rings,ATP7B gene mutation,ATP7B gene mutations,and abnormalities in abdominal and cranial brain imaging,which can be clearly diagnosed and require lifelong treatment.WD can be diagnosed according to the clinical manifestations and auxiliary examination to reduce misdiagnosis.The timely diagnosis and treatment will improve the prognosis the quality of life.
文摘In recent years,the importance of science and technology,as the first productive force,has been gradually highlighted.China pays great attention to high-tech enterprises and strongly supports them in fiscal and taxation policies to promote their development effectively.In responding to national policies,high-tech enterprises also continue to improve their efficiency,so the accounting and tax planning work of enterprises is mandatory.However,combined with the status quo of accounting and tax planning of high-tech enterprises,there is something to be improved in both aspects,which makes the enterprises’financial and taxation risks higher and is not conducive to their normal operation.Based on this,the article will focus on the accounting and tax planning of high-tech enterprises as the main object of research.
基金National Natural Science Foundation of China(Nos.81871354 and 81571672)Academic Promotion Program of Shandong First Medical University(No.2019QL023)
文摘Background:Pneumonia-like primary pulmonary lymphoma(PPL)was commonly misdiagnosed as infectious pneumonia,leading to delayed treatment.The purpose of this study was to establish a computed tomography(CT)-based radiomics model to differentiate pneumonia-like PPL from infectious pneumonia.Methods:In this retrospective study,79 patients with pneumonia-like PPL and 176 patients with infectious pneumonia from 12 medical centers were enrolled.Patients from center 1 to center 7 were assigned to the training or validation cohort,and the remaining patients from other centers were used as the external test cohort.Radiomics features were extracted from CT images.A three-step procedure was applied for radiomics feature selection and radiomics signature building,including the inter-and intra-class correlation coefficients(ICCs),a one-way analysis of variance(ANOVA),and least absolute shrinkage and selection operator(LASSO).Univariate and multivariate analyses were used to identify the significant clinicoradiological variables and construct a clinical factor model.Two radiologists reviewed the CT images for the external test set.Performance of the radiomics model,clinical factor model,and each radiologist were assessed by receiver operating characteristic,and area under the curve(AUC)was compared.Results:A total of 144 patients(44 with pneumonia-like PPL and 100 infectious pneumonia)were in the training cohort,38 patients(12 with pneumonia-like PPL and 26 infectious pneumonia)were in the validation cohort,and 73 patients(23 with pneumonia-like PPL and 50 infectious pneumonia)were in the external test cohort.Twenty-three radiomics features were selected to build the radiomics model,which yielded AUCs of 0.95(95%confidence interval[CI]:0.94-0.99),0.93(95%CI:0.85-0.98),and 0.94(95%CI:0.87-0.99)in the training,validation,and external test cohort,respectively.The AUCs for the two readers and clinical factor model were 0.74(95%CI:0.63-0.83),0.72(95%CI:0.62-0.82),and 0.73(95%CI:0.62-0.84)in the external test cohort,respectively.The radiomics model outperformed both the readers’interpretation and clinical factor model(P<0.05).Conclusions:The CT-based radiomics model may provide an effective and non-invasive tool to differentiate pneumonia-like PPL from infectious pneumonia,which might provide assistance for clinicians in tailoring precise therapy.
基金supported by the National Key Research and Development Program of China(Grant No.2017YFA0303700)the National Natural Science Foundation of China(Grant Nos.61632021,11627810,11690031,and 11621091)Open Funds from the State Key Laboratory of High Performance Computing of China(HPCL,National University of Defense Technology)
文摘Single photons and photon pairs are typically generated by spontaneous parametric down conversion or quantum dots;however,spontaneous four-wave mixing(SFWM)in silicon microring resonators[1]is also an appealing source of entangled photons,offering a strong cavity-enhanced nonlinear interactions while maintaining features,such as compact,simple to fabricate,and allowing for thermal tuning.However,silicon ring-resonators usually suffer from a trade-off between providing a high pair generation rate(PGR)and high extraction efficiency.To achieve high PGR,devices are generally operated with the signal and idler photons in the undercoupling regime and pump photons at the critical coupling point,while high extraction rates require the converted photons to be overcoupled.Therefore,the optimal conditions for achieving maximal output photon pair flux are critical coupling for the pump photons and overcoupling for the converted photons[2,3].
基金The Key Bio-safety Research and Development Technology Project(2021YFC1200200)The Key Scientific and Technology Project of Inner Mongolia Autonomous Region(2021ZD0006).
文摘Summary What is already known about this topic?There were a total of 4 and 3 human plague cases that occurred in the Inner Mongolia Autonomous Region in 2019 and 2020,respectively,with 1 and 2 deaths in 2019 and 2020 respectively,which indicated that plague still poses a significant threat to human health especially for farmers,shepherds,or residents living in native plague foci.What is added by this report?On August 14,2021,1 patient from the Otog Qi(County)in the Inner Mongolia sought treatment in Yinchuan City(the capital of Ningxia Hui Autonomous Region).
基金This study is financially supported by the National Key Research and Development Plan(2019YFE0107200,2017YFE0131900)National Natural Science Foundation of China(21875178,52172230,91963209)+1 种基金Fundamental Research Funds for the Central Universities(WUT:202443004)Foshan Xianhu Laboratory of the Advanced Energy Science and Technology Guangdong Laboratory(XDT2020-001,XHT2020-005).
文摘Tin oxide has made a major breakthrough in high-efficiency perovskite solar cells(PSCs)as an efficient electron transport layer by the low-temperature chemical bath deposition method.However,tin oxide often contains pernicious defects,resulting in unsatisfactory performance.Herein,we develop high-quality tin oxide films via a nitrogen-doping strategy for high-efficiency and stable planar PSCs.The aligned energy level at the interface of doped SnO_(2)/perovskite,more excellent charge extraction and reduced nonradiative recombination contribute to the enhanced efficiency and stability.Correspondingly,the power conversion efficiency of the devices based on N‐SnO_(2) film increases to 23.41% from 20.55% of the devices based on the pristine SnO_(2).The N-SnO_(2) devices show an outstanding stability retaining 97.8% of the initial efficiency after steady-state output at a maximum power point for 600s under standard AM1.5G continuous illumination without encapsulation,while less than 50% efficiency remains for the devices based on pristine SnO_(2).This simple scalable strategy has shown great promise toward highly efficient and stable PSCs.
基金supported by the Hundred Talents Program of Chinese Academy of Sciences(No.E30247YB)Special Talents Program of Lanzhou Institute of Chemical Physics(No.E0SX0282)+1 种基金the National Natural Science Foundation of Shandong Province(No.ZR2022QB190)the Innovative Research Funds of Shandong Laboratory of Yantai Advanced Materials and Green Manufacturing(Nos.E1R06SXM07,E2R06SXM14).
文摘Owing to their low flexibility,poor processability and a lack of responsiveness,inorganic materials are usually non-ideal for constructing a living organism.Hence,to date,lifelike materials with structural hierarchies and adaptive properties usually rely on light and soft organic molecules,although few exceptions have been acquired using two-dimensional(2D)inorganic nanosheets.Herein,with a systematic study on the gelation behavior of carbon-based 0D quantum dots,1D nanotubes,and 3D fullerenes,we find that acidified 1D carbon nanotubes(CNTs)can serve as an alternative building block for fabricating purely inorganic biomimetic soft materials.The as-prepared CNT gels exhibit not only a pH-or photothermal-triggered mechanical and tribological adaptivity,which allows them to simulate the behavior of sea cucumbers,peacock mantis shrimps,and mammalian muscles or cortical bones,but also a unique damping property that is similar to spider’s cuticular pad.Their high elasticity,effective lubrication,excellent biocompatibility,and controllable friction and wear also allow them to function as a new type of smart lubricants,whose tribological properties can be regulated either by its internal pH changes or spatiotemporally by near-infrared(NIR)light irradiations,free of any toxic and flammable base oils or additives.