Rapid Detection of Accelerants in Fire Debris Using a Field Portable Mid-Infrared Quantum Cascade Laser Based Analyzer

Arson presents a challenging crime scene for fire investigators worldwide. Key to the investigation of suspected arson cases is the analysis of fire debris for the presence of accelerants or ignitable liquids. This study has investigated the application and method development of vapor phase mid-Infrared (mid-IR) spectroscopy using a field portable quantum cascade laser (QCL) based system for the detection and identification of accelerant residues such as gasoline, diesel, and ethanol in fire debris. A searchable spectral library of various ignitable fluids and fuel components measured in the vapor phase was constructed that allowed for real-time identification of accelerants present in samples using software developed in-house. Measurement of vapors collected from paper material that had been doused with an accelerant followed by controlled burning and then extinguished with water showed that positive identification could be achieved for gasoline, diesel, and ethanol. This vapor phase mid-IR QCL method is rapid, easy to use, and has the sensitivity and discrimination capability that make it well suited for non-destructive crime scene sample analysis. Sampling and measurement can be performed in minutes with this 7.5 kg instrument. This vibrational spectroscopic method required no time-consuming sample pretreatment or complicated solvent extraction procedure. The results of this initial feasibility study demonstrate that this portable fire debris analyzer would greatly benefit arson investigators performing analysis on-site.

LPEO enhanced LAGP composite solid electrolytes for lithium metal batteries

The application of solid electrolyte is expected to realize the commercialization of high energy density lithium metal batteries(LMBs).While the interfacial contact between solid inorganic electrolyte and electrodes has become a stumbling block for achieving stable cycling in LMBs.In this work,a Li-containing polyethylene oxide(LPEO)was introduced between LAGP and electrodes as a buffer layer to regulate the interfacial compatibility and reduce interfacial impedance,inhibiting the side reactions.Moreover,ether-oxygen bond on LPEO chain can coordinate with Li+and guide the transportation of Li+,achieving fast Li+diffusion between Li1+xAlxGe2-x(PO4)3(LAGP)and electrodes.Specifically,the growth of lithium dendrites is effectively suppressed in LAGP with LPEO modification,which would lead to remarkable cycling stability and rate capability.Therefore,the Li|LPEO-LAGP|Li battery can cycle stably for more than 600 h at 0.1 mA cm−2.In addition,long-term performance of Li|LPEO-LAGP|LiFePO4(LFP)battery was achieved at a rate of 0.4 C,and capacity retention is more than 74%after 200 cycles.The Li|LPEO-LAGP|LiNi0.8Co0.1Mn0.1O2 also realized the steady operation in the voltage range of 2.8-4.3 V.

北京市大兴区中小学生近视情况分析

目的:调查分析北京市大兴区中小学生筛查性近视的流行病学分布,并探讨其矫正情况。方法:横断面调查研究。于2022年9月至2023年3月对首都医科大学附属北京同仁医院与北京市大兴区教委合作的20所学校共15031名中小学生进行视力及屈光检查。采用满足GB/T11533-2011的视力表检查视力,并采用符合ISO0342要求的台式电脑验光仪对学生进行非睫状肌麻痹下屈光检查,测量3次,取其平均值。近视增长率取每年级近视患病率计算环比增长率以描述近视的分布特征。不同月份出生、不同性别间、不同学段间学生视力和屈光度差异比较采用卡方检验分析,视力与屈光度随年龄的变化趋势分析采用Pearson相关性分析。结果:共纳入北京市大兴区中小学生15031名(30062眼)进行分析,年龄5~19岁。北京市大兴区中小学生近视患病率为51.25%,其中小学、初中、高中生近视患病率分别为39.02%、79.55%、86.69%。男生近视患病率(49.38%)低于女生近视患病率(53.22%),差异有统计学意义(χ^(2)_(趋势)=22.07,P<0.001)。随学段增高(χ^(2)_(趋势)=75.68,P<0.001)、年龄增长(χ^(2)_(趋势)=54.23,P<0.001),近视患病率呈升高趋势。小学一年级近视增长率达到最高,为72.06%;小学四年级高度近视增长率最高,为135.71%。不同月份出生的中小学生中,3—5月出生的近视比例最高(52.58%)(χ^(2)_(趋势)=28.29,P<0.001),6—8月出生的非近视比例最高(50.87%)(χ^(2)_(趋势)=22.38,P<0.001)。在近视中小学生中,仅47.08%进行了不同类型的视力矫正,其中选择框架眼镜矫正者占多数(93.99%)。近视未进行规范矫正者多为小学生、低度近视学生。结论:北京市大兴区中小学生近视患病率较高,且女生的患病率高于男生。近视患病率与高度近视患病率均随年龄增加、年级升高呈升高趋势,其中近视增长率在小学一年级达到最高值。近视学生仅一半进行视力矫正,选择框架眼镜者多数。

Electronic properties of 2H-stacking bilayer MoS_(2)measured by terahertz time-domain spectroscopy

Bilayer (BL) molybdenum disulfide (MoS_(2)) is one of the most important electronic structures not only in valleytronics but also in realizing twistronic systems on the basis of the topological mosaics in moiré superlattices. In this work, BL MoS_(2) on sapphire substrate with 2H-stacking structure is fabricated. We apply the terahertz (THz) time-domain spectroscopy (TDS) for examining the basic optoelectronic properties of this kind of BL MoS_(2). The optical conductivity of BL MoS_(2) is obtained in temperature regime from 80 K to 280 K. Through fitting the experimental data with the theoretical formula, the key sample parameters of BL MoS_(2) can be determined, such as the electron density, the electronic relaxation time and the electronic localization factor. The temperature dependence of these parameters is examined and analyzed. We find that, similar to monolayer (ML) MoS_(2), BL MoS_(2) with 2H-stacking can respond strongly to THz radiation field and show semiconductor-like optoelectronic features. The theoretical calculations using density functional theory (DFT) can help us to further understand why the THz optoelectronic properties of BL MoS_(2) differ from those observed for ML MoS_(2). The results obtained from this study indicate that the THz TDS can be applied suitably to study the optoelectronic properties of BL MoS_(2) based twistronic systems for novel applications as optical and optoelectronic materials and devices.

Efficient defect-controlled photocatalytic hydrogen generation based on near-infrared Cu-In-Zn-S quantum dots

The development of photocatalysts that can effectively harvest visible light is essential for advances in high-efficiency solar-driven hydrogen generation. Herein, we synthesized water soluble CuInS2 （CIS） and Cu-In-Zn-S （CIZS） quantum dots （QDs） by using one-pot aqueous method. The CIZS QDs are well passivated by glutathione ligands and are highly stable in aqueous conditions. We subsequently applied these QDs as a light harvesting material for photocatalytic hydrogen generation. Unlike most small band gap materials that show extremely low efficienc36 these new QDs display remarkable energy conversion efficiency in the visible and near-infrared regions. The external quantum efficiency at 650 nm is - 1.5%, which, to the best of our knowledge, is the highest value achieved until now in the near-infrared region.

Pertussis toxin–induced inflammatory response exacerbates intracerebral haemorrhage and ischaemic stroke in mice

Background Stroke is a devastating disease,including intracerebral haemorrhage(ICH)and ischaemic stroke.Emerging evidences indicate that systemic inflammatory cascades after stroke contribute to brain damage.However,the direct effects and features of systemic inflammation on brain injury,especially comparing between ischaemic and haemorrhagic stroke,are still obscure.Methods Pertussis toxin(PT)was used to build a pro-inflammatory milieu after ICH and ischaemic stroke in mouse model.The neurodeficits,stroke lesion,immune response and blood–brain barrier(BBB)destruction were assessed.Results In ICH mouse model,PT-induced systemic inflammation exacerbated neurological deficits,and enlarged haemorrhage lesion and perihaematomal oedema.We also found promoted leucocyte infiltration and inflammatory cytokine release into the brain after PT treatment.Moreover,the integrity of the BBB was further disrupted after receiving PT.Furthermore,we demonstrated that PT enhanced brain inflammation and aggravated stroke severity in middle cerebral artery occlusion mouse model.Conclusions Our results suggest that PT increases inflammatory response that exacerbates brain injury after ICH or ischaemic stroke in mouse model.

Cellular and molecular imaging for stem cell tracking in neurological diseases

Stem cells(SCs)are cells with strong proliferation ability,multilineage differentiation potential and self-renewal capacity.SC transplantation represents an important therapeutic advancement for the treatment strategy of neurological diseases,both in the preclinical experimental and clinical settings.Innovative and breakthrough SC labelling and tracking technologies are widely used to monitor the distribution and viability of transplanted cells non-invasively and longitudinally.Here we summarised the research progress of the main tracers,labelling methods and imaging technologies involved in current SC tracking technologies for various neurological diseases.Finally,the applications,challenges and unresolved problems of current SC tracing technologies were discussed.

Comparison between the Roles of Low-Level Jets in Two Heavy Rainfall Events over South China

Two heavy rainfall events occurred over the Pearl River Delta during 20-22 May 2020:the first was a warm-sector event and the second a frontal event.Based on ERA5 reanalysis data and observations from wind profilers and Doppler weather radars,the structures and roles of low-level jets(LLJs)during these two heavy rainfall events were analyzed.The results show that:(1)South China was affected by a low-level vortex and a low-level shear line during the two processes.The two heavy rainfall events were both associated with a synoptic-system-related low-level jet(SLLJ)and a boundary layer jet(BLJ).The coupling of the convergence at the exit of the BLJ and the divergence at the entrance of the SLLJ produced strong lifting for the warm-sector heavy rainfall,and the strong convergence between the LLJs and northerly winds as the cold front moved southwards was the main lifting reason for the frontal heavy rainfall.(2)The BLJ was the main transport of water vapor during the two processes.The coupling of the BLJ and SLLJ caused the water vapor convergence to be concentrated in the boundary layer during the first process,whereas the strong convergence between the LLJs and northerly winds led to the lower and middle troposphere having strong water vapor convergence during the second process.(3)During the period of these two heavy rainfall events,the lower and middle troposphere remained unstable.Further analysis show that the differences in the intensity,location,and direction between the BLJ and SLLJ resulted in the pseudo-equivalent potential temperature advection in the boundary layer being significantly larger than in the lower and middle troposphere,which compensated for the energy loss caused by heavy rainfall and maintained the convective instability.These findings add to our knowledge on the roles of LLJs in the pre-summer rainfall over South China.