3D and 2D topographic correction to estimated geothermal gradient from the base of gas hydrate stability zone in the Andaman Forearc Basin

Methane gas hydrate related bottom-simulating reflectors(BSRs)are imaged based on the in-line and cross-line multi-channel seismic(MCS)data from the Andaman Forearc Basin.The depth of the BSR depends on pressure and temperature and pore water salinity.With these assumptions,the BSR depth can be used to estimate the geothermal gradient(GTG)based on the availability of in-situ temperature measurements.This calculation is done assuming a 1D conductive model based on available in-situ temperature measurement at site NGHP-01-17 in the study area.However,in the presence of seafloor topography,the conductive temperature field in the subsurface is affected by lateral refraction of heat,which focuses heat in topographic lows and away from topographic highs.The 1D estimate of GTG in the Andaman Forearc Basin has been validated by drilling results from the NGHP-01 expedition.2D analytic modeling to estimate the effects of topography is performed earlier along selected seismic profiles in the study area.The study extended to estimate the effect of topography in 3D using a numerical model.The corrected GTG data allow us to determine GTG values free of topographic effect.The difference between the estimated GTG and values corrected for the 3D topographic effect varies up to~5℃/km.These conclude that the topographic correction is relatively small compared to other uncertainties in the 1D model and that apparent GTG determined with the 1D model captures the major features,although the correction is needed prior to interpreting subtle features of the derived GTG maps.

Synergistic Coupling of Sulfide Electrolyte and Integrated 3D FeS_(2)Electrode Toward Long-Cycling All-Solid-State Lithium Batteries

FeS_(2)cathode is promising for all-solid-state lithium batteries due to its ultra-high capacity,low cost,and environmental friendliness.However,the poor performances,induced by limited electrode-electrolyte interface,severe volume expansion,and polysulfide shuttle,hinder the application of FeS_(2)in all-solid-state lithium batteries.Herein,an integrated 3D FeS_(2)electrode with full infiltration of Li6PS5Cl sulfide electrolytes is designed to address these challenges.Such a 3D integrated design not only achieves intimate and maximized interfacial contact between electrode and sulfide electrolytes,but also effectively buffers the inner volume change of FeS_(2)and completely eliminates the polysulfide shuttle through direct solid-solid conversion of Li2S/S.Besides,the vertical 3D arrays guarantee direct electron transport channels and horizontally shortened ion diffusion paths,endowing the integrated electrode with a remarkably reduced interfacial impedance and enhanced reaction kinetics.Benefiting from these synergies,the integrated all-solid-state lithium battery exhibits the largest reversible capacity(667 mAh g^(-1)),best rate performance,and highest capacity retention of 82%over 500 cycles at 0.1 C compared to both a liquid battery and non-integrated all-solid-state lithium battery.The cycling performance is among the best reported for FeS_(2)-based all-solid-state lithium batteries.This work presents an innovative synergistic strategy for designing long-cycling high-energy all-solid-state lithium batteries,which can be readily applied to other battery systems,such as lithium-sulfur batteries.

Drishti Paint 3.2:a new open-source tool for both 2D and 3D segmentation

X-ray computed tomography(CT)has been an important technology in paleontology for several decades.It helps researchers to acquire detailed anatomical structures of fossils non-destructively.Despite its widespread application,developing an efficient and user-friendly method for segmenting CT data continues to be a formidable challenge in the field.Most CT data segmentation software operates on 2D interfaces,which limits flexibility for real-time adjustments in 3D segmentation.Here,we introduce Curves Mode in Drishti Paint 3.2,an open-source tool for CT data segmentation.Drishti Paint 3.2 allows users to manually or semi-automatically segment the CT data in both 2D and 3D environments,providing a novel solution for revisualizing CT data in paleontological studies.

Photocatalytic seawater splitting by 2D heterostructure of ZnIn_(2)S_(4)/WO_(3) decorated with plasmonic Au for hydrogen evolution under visible light

Photocatalytic H_(2) evolution from seawater splitting presents a promising approach to tackle the fossil energy crisis and mitigate carbon emission due to the abundant source of seawater and sunlight on the earth.However,the development of efficient photocatalysts for seawater splitting remains a formidable challenge.Herein,a 2D/2D ZnIn_(2)S_(4)/WO_(3)(ZIS/WO_(3))heterojunction nanostructure is fabricated to efficiently separate the photoinduced carriers by steering electron transfer from the conduction band minimum of WO_(3) to the valence band maximum of ZIS via constructing internal electric field.Subsequently,plasmonic Au nanoparticles(NPs)as a novel photosensitizer and a reduction cocatalyst are anchored on ZIS/WO_(3) surface to further enhance the optical absorption of ZIS/WO_(3) heterojunction and accelerate the catalytic conversion.The obtained Au/ZIS/WO_(3) photocatalyst exhibits an outstanding H_(2) evolution rate of 2610.6 or 3566.3μmol g^(-1)h~(-1)from seawater splitting under visible or full-spectrum light irradiation,respectively.These rates represent an impressive increase of approximately 7.3-and 6,6-fold compared to those of ZIS under the illumination of the same light source.The unique 2D/2D structure,internal electric field,and plasmonic metal modification together boost the photocatalytic H_(2) evolution rate of Au/ZIS/WO_(3),making it even comparable to H_(2) evolution from pure water splitting.The present work sheds light on the development of efficient photocatalysts for seawater splitting.

PVA-regulated construction of 3D rGO-hosted Na_(3)V_(2)(PO_(4))_(2)F_(3) for fast and stable sodium storage

Na_(3)V_(2)(PO_(4))_(2)F_(3)(NVPF) is shown to be an attractive cathode material for sodium storage due to its high theoretical capacity and suitable working voltage.However,its low electronic conductivity and poor cycling stability have to be addressed in order for enhanced high-rate performance and cycle life.Herein,we have prepared a 3D reduced graphene oxide (rGO) host-supported NVPF nanocuboids.We discover that polyvinyl alcohol (PVA) serves as an important structural directing agent that bridges between NVPF and rGO through the hydrogen bonding,and thus regulates the formation of the 3D r GO framework with NVPF nanocuboids embedded inside (NVPF@C@rGO).With such a unique construction,NVPF@C@rGO exhibits excellent cycling stability and rate performance for sodium storage,showing high reversible capacities of 121 m Ah/g and 113 mAh/g at 1C and 10C,respectively,and 103 mAh/g after 700cycles at 50C with 98.3%retention.Even at an extremely high current of 100C,it also delivers a reversible capacity of 64 mAh/g,surpassing the performance of many recently reported NVPF-based electrodes.Cyclic voltammetry (CV) and galvanostatic intermittent titration technique (GITT) data confirm the much better kinetic properties of NVPF@C@rGO electrode than the control samples of NVPF@rGO and pure NVPF.In-situ XRD results reveal that the 3D rGO housing can effectively suppress the lattice variation of NVPF,with a maximum volume change of only 1.84%during cycling.Moreover,the in-situ temperature sensing reveals the more stable working temperature of NVPF@C@rGO compared to phase-pure NVPF,suggesting a higher temperature safety of the electrode.Using NVPF@C@rGO as the positive electrode and commercial hard carbon as the negative electrode,a sodium-ion full battery has been assembled with about 110 m Ah/g at 1C for 300 cycles,corresponding to an energy density of 291 Wh kg^(-1).The construction of 3D r GO housing as a conductive support offers an effective strategy for high-rate,long cycle life and high safety sodium-ion battery cathodes.

活性金属Ni d电荷密度对Ni_(2)P/Al_(2)O_(3)催化剂菲加氢性能的影响

高温煤焦油中菲含量高,将菲深度加氢饱和得到全氢菲,可提升菲利用率,且全氢菲密度大,热值高,可作为喷气燃料理想组分。然而,在菲加氢反应过程中菲与中间加氢产物的竞争吸附不利于菲在催化剂上吸附活化,且对称八氢菲进一步加氢是菲加氢饱和过程的速控步骤,其吸附活化困难不易解决,催化剂活性难以满足加氢需求。根据稠环芳烃与过渡金属间π络合吸附机理,在反应物吸附活化过程中,稠环芳烃分子和活性金属分别充当电子供体和电子受体,故Ni基催化剂中活性金属Ni处于缺电子状态时利于生成全氢菲,但关于Ni缺电子量及其电子结构如何影响催化剂菲、对称八氢菲加氢性能的原因需进一步探究。此外,基于负载型Ni_(2)P催化剂稳定性高、耐硫、耐氮性强等优势,采用次磷酸盐歧化法通过调变P/Ni物质的量比制备具有不同Ni d电荷密度的Ni2P/Al_(2)O_(3)催化剂,考察Ni d电荷密度对菲、对称八氢菲吸附和反应性能的影响规律。结果表明,在320℃、5 MPa、空速1 309 h-1反应条件下,Ni-2.5P/Al_(2)O_(3)催化剂转换频率fTO最高(44.64×10^(-3)s^(-1))。通过吸附活化熵描述菲、对称八氢菲与催化剂表面间相互作用强度,发现菲、对称八氢菲在不同Ni-xP/Al_(2)O_(3)催化剂表面吸附强度不同。通过定量计算Ni d电荷密度,明确了Ni2P/Al_(2)O_(3)催化剂用于菲加氢反应时适宜Ni d电荷密度约-0.24 e,对称八氢菲加氢反应适宜的Ni d电荷密度约-0.05 e。

New 4-imino-4H-Chromeno[2,3-d]Pyrimidin-3(5H)-Amine: Synthesis, Cytotoxic Effects on Tumoral Cell Lines and in Silico ADMET Properties

The synthesis of new 4-imino-4H-chromeno[2,3-d]pyrimidin-3(5H)-amine in four steps including one step under microwave dielectric heating is reported. The structural identity of the synthesized compounds was established according to their spectroscopic analysis, such as FT-IR, NMR and mass spectroscopy. These new compounds were tested for their antiproliferative activities on seven representative human tumoral cell lines (Huh7 D12, Caco2, MDA-MB231, MDA-MB468, HCT116, PC3 and MCF7) and also on fibroblasts. Among them, only the compounds 6c showed micromolar cytotoxic activity on tumor cell lines (1.8 50 50 > 25 μM). Finally, in silico ADMET studies ware performed to investigate the possibility of using of the identified compound 6c as potential anti-tumor compound.

基于FLAC^(3D)-COMSOL耦合的采动覆岩渗流演化及展布仿真实验

采空区CO_(2)矿化充填需完全实现对上覆含水体的渗流隔离。基于FLAC3D-COMSOL有限差分-有限元耦合仿真实验方法,模拟了连采连充CO_(2)矿化充填条件下覆岩渗透性演化规律及展布特征,提出基于渗透率劣化率及渗流速度的覆岩分区阈值确定方法。结果表明:采动覆岩渗透率劣化率呈“蝶形”展布,且在开切眼与停采线呈“类马鞍形”分布。整个开采区域可分为恒定区、恢复区、过渡区、剧增区与紊乱区。基于采动覆岩渗流速度,整个区域可分为:无渗流通道、微渗流通道、弱渗流通道、强渗流通道和渗漏通道。以采-充宽度为30—10 m为例,开采块段回采过程中矿井涌水量分别为280、300、950、1150、1350、1550 m^(3)/d,均小于突水量等级划分标准中规定的最低等级。

3D打印柔性SiO_(2)气凝胶复合材料的研究

SiO_(2)气凝胶因特殊网络结构而存在优异的性质,如高比表面积、高孔隙率、低热导率和低密度,是优异的保温绝热材料。但SiO2气凝胶机械性能脆弱,导致传统制造方法难以制备复杂和微小型构件,极大地阻碍了SiO_(2)气凝胶在隔热领域的发展和应用。本文通过3D打印直写技术制备了柔性SiO_(2)气凝胶复合材料,通过研究不同聚乙烯醇(PVA)溶液和十八酸钠(C_(17)H_(35)COONa)的含量,找到最佳浆料配比,打印的柔性SiO_(2)气凝胶复合材料在100℃下的热导率低至0.026 W/(m·K),同时具有较好的压缩性能、弯曲性能和疏水性。这项研究为SiO_(2)气凝胶的规模化应用提供一种可能。

骨质疏松症患者PINP、25-(OH)VitD_(3)、BMP-2与中医辨证分型的相关性研究

目的:分析骨质疏松症患者血清总I型胶原氨基末端前肽(PINP)、25-羟维生素D3[25-(OH)VitD_(3)]及骨形态发生蛋白2(BMP-2)与其中医辨证分型的相关性。方法:收集我院2020年8月~2023年8月医院收治的157例骨质疏松症患者的一般资料及中医四诊资料进行回顾性分析,并统计骨质疏松症患者中医辨证分型结果,对不同症型患者基本资料、PINP、25-(OH)VitD_(3)、BMP-2水平进行比较。结果:157例骨质疏松症患者中医辨证分型属肾阳虚证34例,脾肾阳虚证43例,肝肾阴虚证49例,血瘀气滞证31例。不同中医辨证分型的骨质疏松患者血清PINP、25-(OH)VitD_(3)及BMP-2水平整体相比,差异有统计学意义(P<0.05);其中,血瘀气滞组PINP水平显著高于肾阳虚组、脾肾阳虚组及肝肾阴虚组患者(P<0.05),而其余3组两两间相比,差异无统计学意义(P>0.05);脾肾阳虚证患者25-(OH)VitD_(3)水平明显低于肾阳虚组、肝肾阴虚组及血瘀气滞组(P<0.05),且肾阳虚组低于肝肾阴虚组及血瘀气滞组(P<0.05),而其余两组相比差异无统计学意义(P>0.05);血瘀气滞组BMP-2水平显著低于肾阳虚组、脾肾阳虚组及肝肾阴虚组患者(P<0.05),而其余3组两两间相比,差异无统计学意义(P>0.05);二分类logistics回归分析结果显示,血瘀气滞与PINP呈正相关(P<0.05),与BMP-2呈负相关(P<0.05);脾肾阳虚与25-(OH)VitD_(3)呈负相关(P<0.05)。结论:骨质疏松症患者的血清PINP、25-(OH)VitD_(3)、BMP-2水平与其中医辨证分型具有一定相关性,可作为评估患者中医辨证分型的参考指标。

血清25羟维生素D_(3)水平与T2DM周围血管病变的相关性研究

目的 研究血清25羟维生素D_(3)[25(OH)D_(3)]水平与2型糖尿病(T2DM)周围血管病变的相关性。方法 选取2022年1月至2023年12月我院收治的213例T2DM患者,按照是否发生周围血管病变分为发生组与未发生组。对比两组性别、年龄、病程、BMI、25(OH)D_(3)、空腹血糖(FPG)、C肽、糖化血红蛋白(HbA1c)、低密度脂蛋白(LDL-C)、高密度脂蛋白(HDL-C)、总胆固醇(TC)、颈动脉超声[颈动脉内膜中层厚度(IMT)、颈动脉收缩期峰值血流速度(PSV)]等资料,采用Pearson相关性检验血清25(OH)D_(3)水平、IMT及PSV与T2DM周围血管病变发生的关系;采用Logistic回归分析影响T2DM周围血管病变发生的因素。结果 213例T2DM患者中并发周围血管病变的有83例(38.97%),未发生的有130例(61.03%)。周围血管病变组的25(OH)D_(3)、C肽、IMT及PSV与非周围血管病变组比较,差异有统计学意义(P<0.05)。Pearson相关性发现,25(OH)D_(3)、C肽、IMT与T2DM周围血管病变呈负相关(r<0,P<0.05),PSV与2DM周围血管病变的发生呈正相关(r>0,P<0.05)。经Logistic回归分析结果显示,25(OH)D_(3)、C肽及PSV是T2DM周围血管病变发生的危险因素(OR>1,P<0.05),而IMT是T2DM周围血管病变发生的保护因素(OR<1,P<0.05)。结论 25(OH)D_(3)与2DM周围血管病变的发生密切相关,其机制可能与C肽、IMT及PSV等影响有关,临床应针对上述因素给予合理的干预以减少周围血管病的发生。

1,25-(OH)_2D_3对肺纤维化大鼠肺泡Ⅱ型上皮细胞中Ca^(2+)浓度和PI3K/AKT/mTOR通路的影响

目的特发性肺纤维化(idiopathic pulmonary fibrosis,IPF)是一种慢性炎症性疾病,病因不明,缺乏有效的治疗方法。文中旨在探讨肺泡Ⅱ型上皮细胞中Ca^(2+)和PI3K/AKT/mTOR通路在大鼠IPF中的作用,以及1,25-(OH)_2D_3对Ca^(2+)浓度和PI3K/AKT/mTOR通路的影响。方法 150只雄性SD大鼠随机分为:预防组(对照组Ⅰ、模型组Ⅰ、给药组Ⅰ,每组20只)和治疗组(对照组Ⅱ、模型组Ⅱ、给药组Ⅱ,每组30只)。对照组Ⅰ/Ⅱ行气管暴露手术,气管内给以200μL/只的无菌等渗盐水,并分别于第2和14天开始腹腔注射等渗盐水(200μL/只);模型组Ⅰ/Ⅱ气管内灌注博来霉素(5 mg/kg),并分别于手术后第2和14天开始腹腔注射维生素D3的溶剂(0.1%乙醇和99.9%的丙二醇,1μL/g体重);给药组Ⅰ/Ⅱ气管内灌注博来霉素(5 mg/kg),并分别于手术后第2和14天开始腹腔注射1,25-(OH)_2D_3(2μg/kg体重)。大鼠气管内注射博来霉素建立IPF模型,给药组腹腔注射1,25-(OH)_2D_3进行预防和治疗。检测各组大鼠肺组织中羟脯氨酸的含量,分离肺泡Ⅱ型上皮细胞并用Fluo-3AM荧光负载,激光共聚焦显微镜检测细胞内Ca^(2+)浓度。RT-PCR方法检测PI3K、AKT、mTOR mRNA的表达水平。结果模型组Ⅰ/Ⅱ和给药组Ⅰ/Ⅱ中大鼠肺组织中羟脯氨酸的含量、肺泡Ⅱ型上皮细胞内Ca^(2+)浓度以及PI3K、AKT、mTOR mRNA表达,在各时间点与相应对照组Ⅰ/Ⅱ相比均明显升高(P<0.05或P<0.01);给药组Ⅰ/Ⅱ与模型组Ⅰ/Ⅱ相比,上述指标均有显著降低(P<0.05或P<0.01)。模型组Ⅰ/Ⅱ和给药组Ⅰ/Ⅱ中Ca^(2+)浓度与PI3K、AKT、mTOR mRNA表达之间具有显著正相关(r=0.598 8、r=0.623 0、r=0.6603,P<0.01;r=0.7012、r=0.6323、r=0.7403,P<0.01)。结论 PI3K-AKT-mTOR通路在大鼠IPF的发生发展中起重要作用,1,25-(OH)_2D_3可以降低肺泡Ⅱ型上皮细胞内Ca^(2+)的浓度,抑制PI3K-AKT-mTOR通路,进而抑制IPF的发生发展。

基于TOUGH2-FLAC^(3D)耦合的三维地面沉降数值模拟及控制策略研究

地下水开采引发的地面沉降是一种多场耦合的复杂问题,土体变形过程中渗流与应力应变相互影响。采用部分耦合原理,通过渗流和变形过程中的相关状态变量来耦合成熟的商业软件TOUGH2和FLAC^(3D)进行三维变参数的地面沉降数值模拟研究,其中TOUGH2模拟渗流,FLAC^(3D)模拟土体变形,并以此为工具探讨地面沉降的控制策略。基于弹性模型承压含水层抽水的理想算例进行了变参数条件下的模拟计算,发现顶底板水平变形未被约束时水平位移不可忽略,其峰值距离抽水井有一定距离,且水平位移峰值大于垂向位移峰值;此外,由于地面沉降过程中渗透系数及孔隙率减小,导致近井区域渗流量增加,变参数模型位移量大于定参数。将以上方法应用于地面沉降控制策略研究,通过控制抽水流量及抽水时间,发现限制开采速率能控制沉降量,缩短抽水时间能控制沉降范围;对比脉冲式抽水及抽水—回灌常用地面沉降控制策略,发现抽水时采取合理的回灌措施能有效控制沉降量及沉降范围,而脉冲式抽水使得近井处弹性沉降量未得到明显控制,沉降影响范围反而更大。

1,25-(OH)_2D_3对肺纤维化大鼠中PI3K、AKT、mTOR表达的影响及其机制研究

目的观察1,25-(OH)_2D_3对特发性肺纤维化(IPF)大鼠中PI3K、AKT、m TOR表达的影响,并探讨其对IPF的作用机制。方法90只雄性SD大鼠随机分为模型组、治疗组及对照组,每组30只。模型组和治疗组按5 mg/kg的剂量气管内注射博来霉素,复制肺纤维化模型,对照组注入无菌生理盐水(200μl/只)。注射后第2天起,治疗组腹腔注射1,25-(OH)_2D_3(2μg/kg),模型组和对照组分别腹腔注射1,25-(OH)_2D_3溶剂(200μl/只)和无菌生理盐水(200μl/只),均隔天1次。各组于第14、21和28天分别处死10只,检测各组大鼠肺组织中羟脯氨酸的含量,实时聚合酶链反应(real-time PCR)和免疫组织化学方法分别从m RNA水平和蛋白质水平检测肺组织中PI3K、AKT、m TOR的表达。结果模型组和治疗组大鼠肺组织羟脯氨酸的含量,PI3K、AKT、m TOR 3种基因的转录表达和蛋白质表达量,在第14、21和28天均高于对照组(P<0.05),且治疗组中的上述指标,在各时间又均低于模型组(P<0.05)。结论IPF的发生发展过程中,PI3K-AKT-m TOR通路具有重要作用,1,25-(OH)_2D_3对IPF有一定的治疗作用,其机制可能是通过抑制PI3K-AKT-m TOR通路发挥其治疗作用。

水稻泛素连接酶D3与抗病相关蛋白VOZ2的互作分析

多蘖矮秆基因dwarf-3(D3)是水稻独脚金内酯信号转导过程中的重要节点基因,拟南芥中的MAX2基因与D3同源,且MAX2参与拟南芥的抗病防卫反应。本研究以水稻泛素连接酶D3为诱饵进行酵母双杂筛库,发现水稻抗病相关蛋白维管植物单锌指蛋白VOZ2与D3存在潜在的相互作用。通过酵母双杂交试验证实,D3与VOZ2存在互作。通过荧光定量PCR证实,接种水稻白叶枯病菌后,VOZ2基因在转录水平上的表达受到显著诱导。利用水稻原生质体开展的亚细胞共定位实验发现,D3与VOZ2共定位于细胞核。双分子荧光互补实验发现,D3与VOZ2在烟草叶肉细胞的细胞核和细胞质均产生较强的荧光,进一步证实了D3与VOZ2的相互作用。研究结果为进一步探究D3和VOZ2在水稻抗病防卫反应中的功能与分子机理奠定了基础。

2D/3D多模态医学图像配准算法研究

2D/3D多模态配准在医学影像导航手术中起着重要作用,主要用于提供术前三维图像和术中二维图像的实时信息,帮助医生精准定位病灶,规划手术路径,从而提高手术的安全性和效率。提出了一种2D/3D多模态医学图像配准算法,首先利用Swin Transformer优秀的特征提取能力,构建了初始姿态估计模型,实现姿态参数的快速预测;接着,为了提升整个配准方法的鲁棒性,引入基于Grangeat关系的粗配准方法;最后设计了基于梯度下降的精配准模块,以提升整个配准过程的精确性,且在该模块将Sobel微分算子与归一化互相关结合,提升了参数优化过程中的灵敏度。实验结果表明,所提配准方法在正位和侧位配准中的误差满足配准要求,配准成功率有显著提升。

基于Lie群表示的保体积2D-3D点集配准算法

2D-3D点集配准的目标是寻找三维原始点集与二维目标投影点集之间的对应关系和最优变换.为了给出配准问题的解析解,避免投影引起的体积退化,提出基于Lie群表示的保体积2D-3D点集配准算法.首先,考虑投影矩阵和旋转矩阵的非交换性,引入Lie群表示,将配准问题形式化为一个Lie群优化问题.利用局部线性化方法,将Lie群优化问题转化为一个可计算的二次规划问题.其次,为了避免体积退化,考虑约束变换后的三维点集的投影与二维目标点集的投影具有相同的体积.为便于计算,引入Jensen-Bregman LogDet散度作为保体积正则项,将计算点集的体积差异转化为计算协方差矩阵之间的差异.然后,通过交替求解对应关系和最优变换,形成完整且可解的迭代策略.最后,在两个经典数据集上进行对比实验和消融实验,验证了该算法的精确性和有效性.

SiO_(2)/g-C_(3)N_(4)复合材料的3D打印制备及对染料废水的处理性能

使用直写型3D打印的方式制备了高比表面积与多孔结构的SiO_(2)/g-C_(3)N_(4)复合气凝胶材料,并对材料的微观形貌、多孔结构进行了表征,测试了其对于模拟溶液中高浓度罗丹明B(RhB)的吸附及催化降解性能。研究结果表明,3D打印SiO_(2)块体气凝胶比表面积达482.1 m^(2)/g,具备孔隙体积为1.195 cm^(3)/g的纳米多孔结构,对RhB具有好的吸附性能。经g-C_(3)N_(4)修饰所得的SiO_(2)/g-C_(3)N_(4)复合气凝胶材料孔结构与比表面积变化不大,除仍保持较高的吸附性能外,在紫外光照下对RhB(100 mg/L)的去除率可达99%以上。经5次循环测试后SiO_(2)/g-C_(3)N_(4)复合气凝胶对RhB的去除率仍达92.98%,相比之下3D打印SiO_(2)气凝胶仅为55.75%。机理分析表明,复合材料中的g-C_(3)N_(4)可吸收光能并生成光生电子空穴对,其与H_(2)O和O_(2)作用产生氧化活性物质超氧自由基,最终均参与光催化氧化还原反应中对RhB大分子的催化氧化降解。3D打印结构具有的高比表面积实现了催化剂与RhB大分子较大的反应接触面积,提高了复合材料的光催化降解效率及循环稳定性。

Al_(2)O_(3)对Ti膜离子注入表面损伤及D滞留量的影响研究

为提高中子管Ti膜的储氢及抗溅射损伤性能,该研究通过在Ti膜表面沉积一层Al_(2)O_(3)保护层,研究了该保护层对Ti膜在D离子注入过程中表面损伤及D滞留量的影响。采用射频磁控溅射技术完成了Ti膜和表面有Al_(2)O_(3)保护层的Ti膜(Al_(2)O_(3)/Ti膜)样品的制备,开展了D离子注入实验,利用扫描电子显微镜(SEM)对D离子注入前后的表面形貌进行分析,并通过热脱附谱(TDS)实验研究保护层对Ti膜中D滞留量的影响。SEM结果表明,注入5×10^(17)个D离子后,Ti膜表面出现开裂和剥离现象,而Al_(2)O_(3)/Ti膜表面无开裂和剥离现象,Al_(2)O_(3)保护层抑制了Ti膜的开裂和剥离,可提高Ti膜使用寿命。TDS实验结果表明,增加Al_(2)O_(3)保护层后,D脱附峰值温度提升4.9%,膜内D滞留量提升10.3%,在D离子注入过程中Al_(2)O_(3)保护层可阻止膜内D原子的释放进而提升Ti膜内D滞留量。该文初步验证了Al_(2)O_(3)有作为中子管Ti膜保护层材料的潜力。

3种3D打印模型辅助治疗RobinsonⅡB2型锁骨骨折

背景:随着3D打印技术在医学中的应用及发展,使得骨科内固定手术迈向精准化、个体化,通过3D打印技术获得的等比例骨折模型进行术前模拟、规划,实现了由传统的2D图像向更加形象、精细的立体实物的跨越,让术者提前了解骨折类型、预演复位顺序,进而实现骨折手术的个体化实施,优化了手术过程,带来更佳的术后恢复效果和更少的手术并发症。目的:比较3种3D打印模型结合计算机虚拟复位技术辅助切开复位接骨板内固定和传统切开复位接骨板内固定治疗RobinsonⅡB2型锁骨骨折的临床疗效。方法:将80例RobinsonⅡB2型锁骨骨折患者随机分为试验组(40例)和对照组(40例),试验组利用3种3D打印模型(患侧锁骨骨折模型、计算机模拟锁骨骨折复位后模型、健侧锁骨镜像模型)结合计算机虚拟复位技术在术前进行体外手术预演,最后利用健侧锁骨镜像模型进行3D打印来提前弯折和选择接骨板进行内固定,对照组直接进行切开复位接骨板内固定。比较两组患者入院至手术时间、术中出血量、手术时间、透视次数、对接骨板的折弯次数、骨折愈合时间、并发症发生情况及两组患者治疗前后目测类比评分、Constant肩关节功能评分。结果与结论:试验组患者入院至手术时间长于对照组(P<0.05);试验组患者手术时间、术中透视次数及对接骨板的折弯次数均小于对照组(P<0.05);试验组患者骨折愈合更快,并发症更少(P<0.05);两组患者术中出血量无统计学差异(P>0.05);两组患者Constant评分均有随时间延长而上升的趋势(F=613.50,P<0.001),但组间比较差异无显著性意义(F=0.08,P=0.78),测量次数与分组无交互效应(F=0.27,P=0.66)。两组患者目测类比评分随时间延长而下降(F=1149.55,P<0.001),但组间比较差异无显著性意义(F=0.02,P=0.88),测量次数与分组无交互效应(F=1.02,P=0.36)。结果表明使用3D打印模型结合计算机虚拟复位技术进行术前预演,可以缩短手术时间、减少术中透视及对接骨板折弯的次数,同时具有骨折愈合更快、并发症更少的优势,并能达到与传统切开复位接骨板内固定相似的功能恢复。