Interfacial built-in electric field and crosslinking pathways enabling WS_(2)/Ti_(3)C_(2)T_(x) heterojunction with robust sodium storage at low temperature

Developing efficient energy storage for sodium-ion batteries(SIBs)by creating high-performance heterojunctions and understanding their interfacial interaction at the atomic/molecular level holds promise but is also challenging.Besides,sluggish reaction kinetics at low temperatures restrict the operation of SIBs in cold climates.Herein,cross-linking nanoarchitectonics of WS_(2)/Ti_(3)C_(2)T_(x) heterojunction,featuring built-in electric field(BIEF),have been developed,employing as a model to reveal the positive effect of heterojunction design and BIEF for modifying the reaction kinetics and electrochemical activity.Particularly,the theoretical analysis manifests the discrepancy in work functions leads to the electronic flow from the electron-rich Ti_(3)C_(2)T_(x) to layered WS_(2),spontaneously forming the BIEF and“ion reservoir”at the heterogeneous interface.Besides,the generation of cross-linking pathways further promotes the transportation of electrons/ions,which guarantees rapid diffusion kinetics and excellent structure coupling.Consequently,superior sodium storage performance is obtained for the WS_(2)/Ti_(3)C_(2)T_(x) heterojunction,with only 0.2%decay per cycle at 5.0 A g^(-1)(25℃)up to 1000 cycles and a high capacity of 293.5 mA h g^(-1)(0.1A g^(-1)after 100 cycles)even at-20℃.Importantly,the spontaneously formed BIEF,accompanied by“ion reservoir”,in heterojunction provides deep understandings of the correlation between structure fabricated and performance obtained.

MoS_(2)/Ti_(3)C_(2)T_(x)对磷酸盐涂层宽温域摩擦学性能的影响

目的以MoS_(2)/Ti_(3)C_(2)T_(x)为固体润滑剂,在25(室温)~400℃下制备具有优异摩擦学性能的MoS_(2)/Ti_(3)C_(2)T_(x)磷酸盐涂层,并研究它在不同温度下的减摩抗磨机制。方法以氢氟酸为MAX相(Ti_(3)AlC_(2))粉体的蚀刻剂,制备具有“手风琴”形貌的Ti3C2TxMXene。以硫脲、钼酸铵、MXene为原料,制备MoS_(2)/Ti_(3)C_(2)T_(x)复合材料。以Al(H2PO4)3为黏结剂,以Cu O为固化剂,分别以Ti_(3)C_(2)T_(x)和MoS_(2)/Ti_(3)C_(2)T_(x)为固体润滑剂,制备Ti3C2Tx磷酸盐涂层和MoS_(2)/Ti_(3)C_(2)T_(x)磷酸盐涂层。通过高温摩擦磨损试验机和光学数码显微镜测试涂层在25~400℃时的摩擦因数和磨损率,采用扫描电子显微镜和显微共焦激光拉曼光谱仪分析磨痕表面形貌、物相,进而探讨磨损机理。结果当Ti_(3)C_(2)T_(x)与Al(H_(2)PO_(4))_(3)的质量比为2∶1时,Ti3C2Tx磷酸盐涂层在室温(25℃)下的摩擦因数和磨损率均最低,分别为0.38和2.75×10-4mm3/(N·m)。在Ti_(3)C_(2)T_(x)表面负载MoS2,将MoS_(2)/Ti_(3)C_(2)T_(x)作为固体润滑剂,能够显著降低磷酸盐涂层在25~400℃下的摩擦因数,同时磨损率也有所降低。MoS_(2)/Ti_(3)C_(2)T_(x)磷酸盐涂层在室温下的摩擦因数低至0.11,相较于Ti3C2Tx磷酸盐涂层降低了71.1%,其磨损率相较于Ti3C2Tx磷酸盐涂层降低了1个数量级。在25~400℃范围内,MoS_(2)/Ti_(3)C_(2)T_(x)磷酸盐涂层的摩擦因数均低于0.21。随着温度的升高,摩擦因数呈先减小后增大的趋势,磨损率整体上呈增大趋势。结论相较于Ti_(3)C_(2)T_(x)磷酸盐涂层,MoS_(2)/Ti_(3)C_(2)T_(x)磷酸盐涂层在25~400℃下的摩擦学性能均得到显著提升。

Spatiotemporal variation of land surface temperature and its driving factors in Xinjiang,China

Land surface temperature(LST) directly affects the energy balance of terrestrial surface systems and impacts regional resources, ecosystem evolution, and ecosystem structures. Xinjiang Uygur Autonomous Region is located at the arid Northwest China and is extremely sensitive to climate change. There is an urgent need to understand the distribution patterns of LST in this area and quantitatively measure the nature and intensity of the impacts of the major driving factors from a spatial perspective, as well as elucidate the formation mechanisms. In this study, we used the MOD11C3 LST product developed on the basis of Moderate Resolution Imaging Spectroradiometer(MODIS) to conduct regression analysis and determine the spatiotemporal variation and differentiation pattern of LST in Xinjiang from 2000 to 2020. We analyzed the driving mechanisms of spatial heterogeneity of LST in Xinjiang and the six geomorphic zones(the Altay Mountains, Junggar Basin, Tianshan Mountains, Tarim Basin, Turpan-Hami(Tuha) Basin, and Pakakuna Mountain Group) using geographical detector(Geodetector) and geographically weighted regression(GWR) models. The warming rate of LST in Xinjiang during the study period was 0.24℃/10a, and the spatial distribution pattern of LST had obvious topographic imprints, with 87.20% of the warming zone located in the Gobi desert and areas with frequent human activities, and the cooling zone mainly located in the mountainous areas. The seasonal LST in Xinjiang was at a cooling rate of 0.09℃/10a in autumn, and showed a warming trend in other seasons. Digital elevation model(DEM), latitude, wind speed, precipitation, normalized difference vegetation index(NDVI), and sunshine duration in the single-factor and interactive detections were the key factors driving the LST changes. The direction and intensity of each major driving factor on the spatial variations of LST in the study area were heterogeneous. The negative feedback effect of DEM on the spatial differentiation of LST was the strongest. Lower latitudes, lower vegetation coverage, lower levels of precipitation, and longer sunshine duration increased LST. Unused land was the main heat source landscape, water body was the most important heat sink landscape, grassland and forest land were the land use and land cover(LULC) types with the most prominent heat sink effect, and there were significant differences in different geomorphic zones due to the influences of their vegetation types, climatic conditions, soil types, and human activities. The findings will help to facilitate sustainable climate change management, analyze local climate and environmental patterns, and improve land management strategies in Xinjiang and other arid areas.

用于NO_(2)室温检测的ZnO/Ti_(3)C_(2)T_(x)纳米复合材料气体传感器

通过种子层诱导自组装的方式合成了ZnO/Ti_(3)C_(2)T_(x)纳米复合材料,并对其结构和微观形貌进行分析。结果显示,与ZnO气体传感器相比,ZnO/Ti_(3)C_(2)T_(x)气体传感器在对10^(-5)NO_(2)响应度变化不大的情况下,工作温度大幅度降低,实现了室温检测;并对其可能的气敏机理进行了深入分析。实验工作表明了ZnO/Ti_(3)C_(2)T_(x)气体传感器在NO_(2)的室温检测中具有潜在的应用价值。

T_(1b)声门型喉癌的治疗现状

声门型喉癌治疗方式的选择决定着患者的生存质量和预后,T_(1b)声门型喉癌有多种治疗方式,各方式有不同的优势与不足,本文综述T_(1b)声门型喉癌的治疗现状。

TiB_(2)/B_(4)C复相陶瓷自蔓延热爆炸烧结与性能表征

为了探究高硬度复相陶瓷高效且低成本的制备方法,利用自蔓延高温合成结合爆炸烧结技术,开展制备二硼化钛/碳化硼(TiB_(2)/B_(4)C)复相陶瓷的研究,成功制备厚度约为1 cm、直径约为5 cm的TiB_(2)/B_(4)C复相陶瓷块体。烧结样品物相和微观结构分析表征结果表明:烧结样品中TiB_(2)相和B_(4)C相分布均匀,截面观察到致密的微米级颗粒。该方法制备的样品致密度和硬度较高,随冲击压力不同,致密度范围在90%~93%之间,相应平均维氏硬度为16.64~17.35 GPa;根据不同条件下回收样品的微结构、致密度等分析,冲击压力和起爆时刻生坯温度对TiB_(2)/B_(4)C复相陶瓷烧结质量有重要影响;冲击压力为40 GPa,生坯温度为1800 K时,烧结致密度为93%;为进一步提高烧结质量,应提高冲击压力或冲击波作用时间。研究表明自蔓延热爆炸烧结技术是一种高效且低成本的高硬度复相陶瓷的制备方法。

低温条件下UCT-MBR处理工艺同步脱氮除磷优化研究

随着地表水准Ⅳ类处理标准的全面推广,北方地区低COD/TN(C/N)、冬季低温严重影响污水处理厂出水稳定达标。本研究构建了UCT-MBR在冬季开展中试,通过调整C/N、回流比,系统考察了该工艺脱氮除磷效果。运行结果表明,在低温时,C/N为6.0、无需投加除磷药剂、缺氧池至厌氧池回流比100%、好氧池至缺氧池回流比260%、膜池至好氧池回流比200%,系统脱氮除磷效果优异,出水COD平均为20 mg/L、NH_(4)^(+)-N、TN、TP平均质量浓度分别为0.4、8.5、0.2 mg/L,稳定达到地表准Ⅳ类出水标准。厌氧和缺氧池ORP与系统脱氮除磷效果呈现负相关性,厌氧和缺氧池ORP分别在(-283±51) mV和(-144±42) mV,同步脱氮除磷效果最佳,在工程应用可根据ORP值预测处理效果,并指导生产运行。提高C/N,有助于反硝化聚磷菌(DPAOs)富集,C/N为6.0时,缺氧池除磷率达到73.5%,TP平均去除率93.5%。高通量测序结果表明,系统中属于DPAOs的Dechloromonas和Candidatus Accumulibacter富集效果显著,两者丰度之和是普通聚磷菌的2倍。

B_(4)C陶瓷电火花工艺温度场仿真及试验研究

B_(4)C陶瓷具有硬度高、密度低等特性,在军工装甲等领域应用前景广阔,但由于硬度高、脆性大,传统加工方法难以胜任孔、槽等加工。考虑半导电特性,拟采用电火花方法对其进行孔加工技术研究。利用ANSYS软件对电火花放电过程中的单脉冲温度场进行仿真建模,输出凹坑半径、深度及温度场数值,并引入锥角物理量进行仿真和试验比对。结果表明:凹坑半径、深度随峰值电流、脉冲宽度增加而增加,温度场特点满足高斯热源正态分布;随着峰值电流、脉冲宽度的增加,仿真锥角和试验锥角数值更贴合。

^(99)T_(c)^(m)亚甲基二磷酸盐联合甲氨蝶呤及艾拉莫德治疗活动性类风湿关节炎的有效性及安全性评价

目的观察^(99)T_(c)^(m)亚甲基二磷酸盐注射液(^(99)T_(c)^(m)-MDP)联合甲氨蝶呤及艾拉莫德对活动性类风湿性关节炎(RA)的临床疗效及安全性。方法临床收集54例活动性RA患者分为对照组(26例)和观察组(28例),对照组口服甲氨蝶呤、艾拉莫德片;观察组患者在此治疗方案的基础上加用^(99)T_(c)^(m)-MDP,于第0、12、24周观察2组患者临床疗效及实验室指标,记录不良反应。结果观察组的疗效缓解(ACR)20/50/70缓解率均在第12或24周高于对照组(P<0.05);经24周规律治疗后,对照组与观察组患者的关节肿胀数(SJC)、关节压痛数(TJC)、晨僵时间、DAS28、患者对疾病的总体评估(PtGA)、医生总体评价(PhGA)、C反应蛋白(CRP)、血红细胞沉降率(ESR)、类风湿因子(RF)及抗环瓜氨酸多肽抗体(CCP)均显著下降,且观察组的疾病活动相关指标较基线值下降且低于同期对照组,差异有统计学意义(P<0.05);2组均无严重不良反应发生,其不良反应发生率比较差异无统计学意义(P>0.05)。结论甲氨蝶呤与艾拉莫德治疗联合^(99)T_(c)^(m)-MDP注射液后可更为有效地减轻活动性RA患者的疾病活动,且安全可靠。

向高T_c挑战——配合物型分子磁体的设计与合成

分子性铁磁体的研究是自然界向物理学家和化学家的挑战，设计及合成配合物型分子铁磁体，并增加其维数是目前提高相转变温度Ｔｃ的有效途径。

C-H-N-O多硝基芳香族化合物分解热(Q_(dec))与绝热温升(T_(ad))、爆热(Q_(CO_2))、热温商(Q_(dec)/T_p)及Q_(CO_2)与Q_(CO_2)/T_(ad)之间的关系(英文)

用最小二乘法建立了C-H-N-O多硝基芳香族化合物分解热(Qdec)与绝热温升(Tad)、爆热(QCO2)、热温商(Qdec/Tp),及QCO2与QCO2/Tad之间的4个关系式。

全膝关节置换术后患膝皮温、C反应蛋白和红细胞沉降率变化规律及相关性分析

目的分析无并发症全膝关节置换术患者术后患膝皮温、C反应蛋白(CRP)和红细胞沉降率(ESR)的变化规律及相关性,探讨其在术后感染和非感染炎症反应鉴别诊断中的意义。方法选取2021年1月至2022年1月于河北大学附属医院行单侧全膝关节置换术的36名患者为研究对象,分别于术前1天、术后1天、4天、7天、10天、14天、1月、2月、3月、6月测量双膝皮温、CRP和ESR,比较双膝皮温变化,分析双膝皮温差、CRP、ESR的变化规律,采用Spearman和Pearson法分析CRP、ESR与双膝皮温差变化的相关性。结果术后患膝皮温高于健膝皮温(P<0.05)。双膝皮温差、CRP、ESR均表现为先快速升高后缓慢降低的变化趋势,双膝皮温差于术后4天达到最大值,术后6月恢复至术前水平;CRP于术后4天达到最大值,术后1月基本恢复至正常水平;ESR于术后7天达到最大值,术后3月基本恢复至正常水平。CRP、ESR与双膝皮温差变化均呈正相关(ρ=0.979,P<0.001;r=0.773,P=0.009)。结论全膝关节置换术后双膝皮温差、CRP、ESR均较术前一定程度升高,这可能是非感染性炎症反应造成的结果。

基于CNN-GRU组合神经网络的数控机床进给系统热误差研究

热变形引起的误差是影响数控机床精度的主要因素之一。为了减小热误差对数控机床精度的影响,提出一种基于CNN-GRU组合神经网络的热误差预测方法。通过热误差实验,采集螺旋曲面专用数控机床直线进给系统的温升数据和热误差数据;利用模糊C均值聚类和灰色关联度分析筛选进给系统温度敏感点;以温度敏感点的温升数据和进给系统热误差为数据样本,建立CNN-GRU热误差预测模型。为验证模型的准确性和实用性,与基于CNN-LSTM和基于LSTM的传统热误差预测模型进行预测对比分析,结果表明CNN-GRU模型预测结果的平均绝对误差、均方根误差和决定系数均优于CNN-LSTM模型和LSTM模型,具有较高的预测精度和鲁棒性。提供的热误差模型可为后续误差补偿奠定基础,为数控机床的热误差预测提供思路。

神经网络用于精确预言含F铋系高温超导的T_(c)

本工作通过选取适当的拓朴结构，特别是对零电阻转变温度Ｔｃ的数据采用压缩与还原的技术处理，建立了一个基于误差反向传播（简记为Ｂ－Ｐ）算法的人工神经网络。该网络可根据制备含Ｆ铋系高温超导材料的几个主要实验参数，相当精确地预言此类超导体的Ｔｃ。本方法显然具有一般意义，从而有力地促进了材料的计算机辅助设计的研究工作，使之进一步趋于成熟。

亚裔人群T_(1c)期乳腺癌特征分析及预后预测模型建立

目的探讨影响亚裔人群T_(1c)期乳腺癌患者生存的预后因素,并构建列线图预测模型。方法收集监测、流行病学和最终结果(SEER)数据库2010年至2015年T_(1c)期亚裔乳腺癌患者的临床数据作为建模组。对建模组进行Cox单因素和多因素分析,使用R软件构建列线图。采用一致性指数及受试者工作特征(ROC)曲线评估模型的可信度。收集山西医科大学第二医院2015年1月至2020年12月诊断为T_(1c)期的乳腺癌患者作为验证组,对模型进行验证。绘制生存校正曲线,检测两组的一致性。结果共纳入T_(1c)期乳腺癌患者5328例,其中建模组4968例,验证组360例。中位随访时间分别为53个月和43个月,建模组死亡170例,验证组死亡13例。Cox多因素分析显示,年龄、组织学分级、ER和PR表达、HER-2状态、分子分型、N分期、M分期、手术和放化疗均为影响T_(1c)期乳腺癌患者总生存时间的独立因素(P<0.01)。构建列线图预测模型。建模组C指数为0.701(95%CI:0.693~0.709),验证组C指数为0.686(95%CI:0.657~0.715)。3、5年生存率ROC曲线显示,曲线下面积(AUC)分别为0.769、0.694。3年生存率校正曲线显示,验证组校正曲线与建模组结果高度拟合。结论成功构建了预后预测模型,对亚裔T_(1c)期乳腺癌患者的3年生存率作出预测,可为临床医师做治疗决策时提供参考。

3D C/C复合材料超高温剪切性能试验研究

C/C复合材料同时结合了纤维增强复合材料高性能、可设计性和碳素材料优异的高温性能和化学稳定性等优点,广泛地应用于固体火箭发动机喷管、高速飞行器头部与翼前缘等热端部件。怎样正确评价C/C复合材料的超高温力学性能,成为了其能否合理使用的关键因素之一。本文将基于C/C复合材料良好导电特性的试样直接通电加热技术与复合材料双切口压缩剪切试验技术(DNS)相结合,提出了一种可用于温度达3000℃的材料超高温剪切性能试验方法。利用该方法完成了3D C/C复合材料室温~2800℃温度范围的剪切性能试验研究,红外热像仪测试结果显示在试样标距区内温度场分布较均匀,全场应变测试系统测试结果显示在试样标距区内应变分布较均匀,室温下双边切口压缩试验方法与Iosipescu试验方法测试剪切强度具有好的一致性,该方法适用于C/C复合材料超高温剪切性能试验研究。3DC/C复合材料具有显著的剪切非线性,剪切强度在一定温度范围内随温度的升高而增加,在2400℃左右达到最大值,而后随温度增高而降低;材料的主要破坏模式为薄弱面的宏观裂纹扩展、纤维束剪切破坏与拔出。

磁性FeNi@C/Cu纳米颗粒制备及除油应用

为了处理港口码头薄油膜污染,在氩/氢气氛下利用电弧法制备Fe0.64Ni0.36为主相的合金纳米产物,采用水热法和高温碳化法制备碳包覆的核壳磁性FeNi@C/Cu复合纳米颗粒.对合金粒子以及碳包覆后的复合纳米颗粒进行表征及性能检测.结果表明:FeNi合金纳米粒子呈球状,500℃下制得的粒子饱和磁化强度最高,可以达到101.09 A·m2/kg,比常温下制备的粒子提升16.0%.利用FeNi@C/Cu复合纳米颗粒对煤油、柴油与机油的除油能力分别为3.18、3.43和3.46 g/g,表明FeNi@C/Cu复合纳米颗粒具有良好除油性能.

表面接枝C—S—H的岩沥青对高温油井水泥石力学性能的影响

研究了表面接枝C—S—H的岩沥青对高温油井水泥石力学性能和微观结构的影响,采用压力试验机及XRD、TG、SEM和EDS对油井水泥石的力学性能和微观结构进行了测试和表征。研究结果表明,与纯水泥石相比,掺入1%未改性岩沥青的水泥石3 d抗压强度下降了2.98%,而掺入1%表面接枝C—S—H岩沥青的水泥石3 d抗压强度提高了4.26%。物相分析和热重实验表明,表面接枝C—S—H岩沥青的加入不会引起水化产物类型的变化,而掺量为3%表面接枝C—S—H的岩沥青水泥石养护3 d的失重量比纯水泥石高1.01%,说明表面接枝C—S—H的岩沥青可以促进水泥的水化。水泥石的微观形貌和元素分析表明,未改性岩沥青在180℃下热解导致沥青颗粒破碎,而接枝C—S—H的岩沥青表面形成的富Si层可以避免沥青颗粒因气孔而引起破碎,使得未改性岩沥青水泥石界面处的C元素含量较接枝C—S—H的岩沥青水泥石高29.14%,未改性岩沥青水泥石基体中C元素含量较接枝C—S—H的岩沥青水泥石高13.76%。

Ti_(3)C_(2)T_(x)/SnO_(2)P–N heterostructure construction boosts room-temperature detecting formaldehyde

Formaldehyde is a common atmospheric pollutant produced in industrial production and daily life.However,the traditional semiconductor formaldehyde gas sensor cannot work at room temperature,which limits its practical application.Therefore,developing high-performance gas sensors for rapidly and accurately detecting formaldehyde at room temperature is an important topic.In this study,Ti_(3)C_(2)Tx/SnO_(2)heterostructures were constructed,which could selectively detect formaldehyde at room temperature with a response value of 29.16%(10×10^(-6)).In addition,the sensor shows a remarkable theoretical detection limit of 5.09×10^(-9)and good longterm stability.Density functional theory(DFT)simulations reveal that SnO_(2)nano spheres provide the majority of adsorption sites that strongly interact with formaldehyde.Meanwhile,Ti_(3)C_(2)T_(x)acting as a conductive layer facilitates the transfer of charge carriers so that they show a sensing response to formaldehyde at room temperature.Moreover,the formation of p-n heterostructures between SnO_(2)and Ti_(3)C_(2)T_(x)boosts the Schottky barrier at the interface,which is the critical factor in enhancing the sensing properties by turning the Schottky barrier upon introducing formaldehyde gas.This perspective is expected to provide instructive guidance for utilizing MXene/metal oxide nanocomposites to improve the gas sensing performance at room temperature.

SELF- PROPAGATING HIGH TEMPERATURE SYNTHESIS OF (W,Ti)C POWDERS

The effects of preheating temperature and W powder size on the Self propagating High temperature Synthesis(SHS) of Ti W C system were studied. Preheated mixtures and the decrease of W powder size can accelerate the formation of (W,Ti)C powders. The uniphase (W,Ti)C (WC∶TiC=5∶5) powders with 0.32% free carbon were synthesized from Ti, W, C powders by SHS. The powder size of the product was 3～5 μm.