ZnIn_(2)S_(4)修饰TiO_(2)的分级S型异质结用于促进光催化析氢

利用半导体光催化裂解水制氢被认为是解决日益严重的环境污染和能源短缺问题的有效途径之一,然而半导体光吸收范围窄、光生载流子复合率高以及光催化剂氧化还原能力差等问题限制了该技术的发展.为克服这些难题,构建能带结构匹配的S型异质结成为提高光催化活性的有效策略.该结构能实现光生载流子的空间分离和转移,有效地抑制其复合,同时保留了光催化体系的强氧化还原能力.本文利用原位化学浴沉积法成功地将ZnIn_(2)S_(4)纳米片修饰在花状TiO_(2)微球表面,制备了具有独特分级结构的TiO_(2)/ZnIn_(2)S_(4) S型异质结光催化材料,并研究了其光催化析氢活性.Zeta电位结果表明,TiO_(2)带有正电荷,可以率先吸附溶液中的S2-并与后续加入的In3+和Zn2+原位反应生成ZnIn_(2)S_(4),进而构建稳定的TiO_(2)/ZnIn_(2)S_(4)异质结光催化剂.X射线粉末衍射、扫描电镜和透射电镜等结果证实了TiO_(2)/ZnIn_(2)S_(4)异质结光催化剂的成功制备.紫外-可见漫反射结果表明,ZnIn_(2)S_(4)的引入明显增强了TiO_(2)的光吸收能力.结合莫特-肖特基曲线、X射线光电子能价带谱和紫外光电子能谱等表征结果,确定了TiO_(2)和ZnIn_(2)S_(4)的能带结构及费米能级位置.光电流密度、电化学阻抗、表面光电压、荧光光谱和时间分辨荧光光谱等测试结果表明,TiO_(2)/ZnIn_(2)S_(4)异质结具有较好的光生载流子分离和转移效率以及更长的光生载流子寿命.线性扫描伏安和接触角测试证明了TiO_(2)/ZnIn_(2)S_(4)异质结具有更低的过电势和良好的亲水性,更有利于析氢反应发生.通过阿伦尼乌斯方程对反应温度和析氢速率之间的关系进行拟合,结果发现,TiO_(2)/ZnIn_(2)S_(4)异质结具有更低的析氢反应表观活化能,从而更有利于光催化析氢反应发生.非原位和原位X射线光电子能谱以及电子自旋共振光谱等结果表明,TiO_(2)/ZnIn_(2)S_(4)异质结遵循S型电子转移机理.在模拟太阳光照射下,最佳配比的TiO_(2)/ZnIn_(2)S_(4)异质结的光催化析氢速率达6.85 mmol g^(-1) h^(-1),分别约为纯TiO_(2)和ZnIn_(2)S_(4)的171.2倍和3.9倍.此外,经六次循环后催化材料仍保持良好的光催化析氢活性,表明具有紧密界面接触的分级结构异质结可以有效地抑制ZnIn_(2)S_(4)的光腐蚀,且保持良好的结构稳定性.综上,本文构建了TiO_(2)/ZnIn_(2)S_(4) S型异质结,有效促进了光生载流子的空间分离和转移,同时保留了其强氧化还原能力,从而提高光催化析氢活性.本研究为设计和合成高效的异质结光催化剂提供了参考.

增材制造形状记忆合金的最新进展

增材制造(AM)作为一项革命性技术,能够以前所未有的自由度制造复杂的形状记忆合金(SMA)部件,从而为现代制造业的发展以及传统制造业的转型提供巨大契机。本篇综述从微观结构、性能和前景的角度阐明增材制造形状记忆合金的研究进展,为制备具有高性能和多功能性的理想材料拓宽思路。改变扫描参数能够有效调控打印过程中独特的微观组织——外延凝固形成的柱状晶粒。在析出相、位错、孪晶与层错等微观结构的综合影响下可获得优异且稳定的形状记忆效应与超弹性。最后,仍需要在材料、技术、性能和方法等方面取得进一步突破,以促进增材制造形状记忆合金在各行业 中的应用。

基于d电子理论的Ti-Nb-Cu三元形状记忆合金性能优化

基于d电子理论设计Ti-Nb-Cu形状记忆合金的相组成,以优化其性能。XRD分析和TEM观察表明,Cu添加导致键级(Bo)和金属d轨道能级(Md)值减小,从而使相组成发生演变。随着Cu含量的增加,相组成的变化可以总结如下:β+α"→β+ω→β+α"+ω→β。随着Cu含量的增加,Ti-Nb-Cu形状记忆合金的屈服强度、极限抗拉强度和伸长率均呈先增大后减小的趋势。通过优化Cu合金元素含量,Ti-Nb-Cu形状记忆合金具有优异的力学性能,其屈服强度为528 MPa,极限抗拉强度为742 MPa,这主要归因于固溶强化、晶粒细化以及析出强化的综合作用。

Vacancy engineering mediated hollow structured ZnO/ZnS S-scheme heterojunction for highly efficient photocatalytic H_(2) production

Designing a step-scheme(S-scheme)heterojunction photocatalyst with vacancy engineering is a reliable approach to achieve highly efficient photocatalytic H_(2)production activity.Herein,a hollow ZnO/ZnS S-scheme heterojunction with O and Zn vacancies(VO,Zn-ZnO/ZnS)is rationally constructed via ion-exchange and calcination treatments.In such a photocatalytic system,the hollow structure combined with the introduction of dual vacancies endows the adequate light absorption.Moreover,the O and Zn vacancies serve as the trapping sites for photo-induced electrons and holes,respectively,which are beneficial for promoting the photo-induced carrier separation.Meanwhile,the S-scheme charge transfer mechanism can not only improve the separation and transfer efficiencies of photo-induced carrier but also retain the strong redox capacity.As expected,the optimized VO,Zn-ZnO/ZnS heterojunction exhibits a superior photocatalytic H_(2) production rate of 160.91 mmol g^(-1)h^(-1),approximately 643.6 times and 214.5 times with respect to that obtained on pure ZnO and ZnS,respectively.Simultaneously,the experimental results and density functional theory calculations disclose that the photo-induced carrier transfer pathway follows the S-scheme heterojunction mechanism and the introduction of O and Zn vacancies reduces the surface reaction barrier.This work provides an innovative strategy of vacancy engineering in S-scheme heterojunction for solar-to-fuel energy conversion.

On-chip ultrafast stackable dielectric laser positron accelerator

We present a first on-chip positron accelerator based on dielectric laser acceleration.This innovative approach significantly reduces the physical dimensions of the positron acceleration apparatus,enhancing its feasibility for diverse applications.By utilizing a stacked acceleration structure and far-infrared laser technology,we are able to achieve a seven-stage acceleration structure that surpasses the distance and energy gain of using the previous dielectric laser acceleration methods.Additionally,we are able to compress the positron beam to an ultrafast sub-femtosecond scale during the acceleration process,compared with the traditional methods,the positron beam is compressed to a greater extent.We also demonstrate the robustness of the stacked acceleration structure through the successful acceleration of the positron beam.

Diabetic retinopathy identification based on multi-sourcefree domain adaptation

AIM:To address the challenges of data labeling difficulties,data privacy,and necessary large amount of labeled data for deep learning methods in diabetic retinopathy(DR)identification,the aim of this study is to develop a source-free domain adaptation(SFDA)method for efficient and effective DR identification from unlabeled data.METHODS:A multi-SFDA method was proposed for DR identification.This method integrates multiple source models,which are trained from the same source domain,to generate synthetic pseudo labels for the unlabeled target domain.Besides,a softmax-consistence minimization term is utilized to minimize the intra-class distances between the source and target domains and maximize the inter-class distances.Validation is performed using three color fundus photograph datasets(APTOS2019,DDR,and EyePACS).RESULTS:The proposed model was evaluated and provided promising results with respectively 0.8917 and 0.9795 F1-scores on referable and normal/abnormal DR identification tasks.It demonstrated effective DR identification through minimizing intra-class distances and maximizing inter-class distances between source and target domains.CONCLUSION:The multi-SFDA method provides an effective approach to overcome the challenges in DR identification.The method not only addresses difficulties in data labeling and privacy issues,but also reduces the need for large amounts of labeled data required by deep learning methods,making it a practical tool for early detection and preservation of vision in diabetic patients.

双助催化剂Ag/Ti_(3)C_(2)/TiO_(2)分层花状微球用于增强光催化产氢活性

在“碳达峰、碳中和”背景下,太阳能驱动的半导体光催化技术被认为是解决能源危机和环境问题的有效方法之一.开发高效的半导体光催化材料是半导体光催化技术发展的重中之重.在众多半导体光催化材料中,TiO_(2)因其无毒性、光化学稳定性良好和价格低廉等优点,在光催化领域备受关注.然而,单一TiO_(2)较低的光生载流子的分离和转移效率是制约其进一步应用的关键问题.通过负载助催化剂可以提供更多的活性位点、增强光吸收以及提高光生载流子的分离和转移效率,被认为是提高光催化活性的有效策略.本文利用静电自组装策略和光还原法成功地将双助催化剂Ti_(3)C_(2)纳米片和Ag纳米颗粒修饰在分层花状TiO_(2)微球表面,构筑了Ag/Ti_(3)C_(2)/TiO_(2)复合光催化材料,并考察其光催化产氢性能.Zeta电位测试结果表明,带有相反表面电荷的分层花状TiO_(2)微球和Ti_(3)C_(2)纳米片可以通过静电作用构筑稳定的Ti_(3)C_(2)/TiO_(2)复合光催化材料.同时,基于Ti_(3)C_(2)/TiO_(2)复合材料的光催化性能,在光照条件下Ag+可被还原为Ag而被固定在Ti_(3)C_(2)/TiO_(2)复合材料表面.通过X射线粉末衍射、拉曼光谱、扫描电子显微镜和透射电子显微镜等证明成功制备了Ag/Ti_(3)C_(2)/TiO_(2)复合光催化材料.此外,X射线光电子能谱也证明了复合材料中存在光生电子的分离和转移过程.接触角测试结果表明,构筑的Ag/Ti_(3)C_(2)/TiO_(2)复合材料具有较好的亲水性,可以更好地吸附水分子以保证还原反应的进行.紫外-可见漫反射光谱测试结果表明,Ti_(3)C_(2)和Ag助催化剂的引入提高了材料的光吸收能力.荧光光谱、时间分辨荧光光谱、光电流密度和电化学阻抗等测试结果表明,Ag/Ti_(3)C_(2)/TiO_(2)复合材料具有较好的光生载流子分离和转移效率以及更长的光生载流子寿命.另外,线性扫描伏安测试证明了Ag/Ti_(3)C_(2)/TiO_(2)复合材料具有低的过电势,更加有利于析氢反应.在模拟太阳光照射下,最佳Ti_(3)C_(2)(3 wt%)和Ag(2.5 wt%)含量的Ag/Ti_(3)C_(2)/TiO_(2)复合材料的光催化产氢速率为1024.72μmol g^(–1)h^(–1),分别约为单一TiO_(2),Ti_(3)C_(2)/TiO_(2)复合材料和Ag/TiO_(2)复合材料的40,2.3和1.8倍,且三次循环利用后仍保持较好的光催化产氢活性.光催化产氢活性的提高主要归因于Ti_(3)C_(2)和Ag双助催化剂的引入增强了光吸收能力和提高了光生载流子的分离和转移效率,从而增强了TiO_(2)的光催化活性.综上,本文揭示了构建双助催化剂的复合光催化材料更加有利于促进光催化材料的光生电子-空穴对的分离和转移,对高活性和高稳定性光催化剂的设计和性能调控有一定参考价值.

Pt-Te alloy nanowires towards formic acid electrooxidation reaction

The high-performance anodic electrocatalysts is pivotal for realizing the commercial application of the direct formic acid fuel cells.In this work,a simple polyethyleneimine-assisted galvanic replacement reaction is applied to synthesize the high-quality PtTe alloy nanowires(PtTe NW)by using Te NW as an efficient sacrificial template.The existence of Te atoms separates the continuous Pt atoms,triggering a direct reaction pathway of formic acid electrooxidation reaction(FAEOR)at PtTe NW.The one-dimensional architecture and highly active sites have enabled PtTe NW to reveal outstanding electrocatalytic activity towards FAEOR with the mass/specific activities of 1091.25 mA mg^(-1)/45.34 A m^(-2)at 0.643 V potential,which are 44.72/23.16 and 20.26/11.75 times bigger than those of the commercial Pt and Pd nanoparticles,respectively.Density functional theory calculations reveal that Te atoms optimize the electronic structure of Pt atoms,which decreases the adsorption capacity of CO intermediate and simultaneously improves the durability of PtTe NW towards FAEOR.This work provides the valuable insights into the synthesis and design of efficient Pt-based alloy FAEOR electrocatalysts.

Observation and mitigation of image distortion in high-energy electron radiography

Image distortion caused by the angular misalignment of quadrupole magnets in high-energy electron radiography has been studied systematically.We propose that the distortion originates from the coupling of the electron motions in the transverse directions,based on a theoretical analysis and the transfer-matrix method.The relative angular rotation between the second and third magnetic quadrupoles was identified as the main contributor to image distortion.This was verified by both a beam-dynamics simulation and experiments.Different strategies to mitigate this image distortion are also explored,including magnets online tuning,higher beam energy and larger magnification factor.This study provides criteria for designing experiments and paves the way for achieving higher image precision.

Structure and material study of dielectric laser accelerators based on the inverse Cherenkov effect

Dielectric laser accelerators(DLAs)are considered promising candidates for on-chip particle accelerators that can achieve high acceleration gradients.This study explores various combinations of dielectric materials and accelerated structures based on the inverse Cherenkov effect.The designs utilize conventional processing methods and laser parameters currently in use.We optimize the structural model to enhance the gradient of acceleration and the electron energy gain.To achieve higher acceleration gradients and energy gains,the selection of materials and structures should be based on the initial electron energy.Furthermore,we observed that the variation of the acceleration gradient of the material is different at different initial electron energies.These findings suggest that on-chip accelerators are feasible with the help of these structures and materials.

Research on a 3.7-year Quasi-periodic Oscillation for FSRQ J0351-1153

From the Owens Valley Radio Observatory 40 m radio telescope,we have collected the light curves of the 15 GHz radio band for FSRQ J0153-1153,spanning from 2009 February to 2018 February.The Lomb-Scargle Periodogram method and the Weighted Wavelet Z-transform method are employed to search for the quasi-periodic oscillation(QPO)signal of these data,and the simulation method for the light curve is utilized to estimate the significance level of this QPO signal;thus through these techniques,the QPO signal of 3.7±0.5 yr with a significance level of 3.68σis revealed for the first time.It is most likely an explanation for the QPO signal that a binary black hole system gives rise to a Newtonian-driven the precession of jet.Based on this assumption,we find that the mass of the secondary black hole in this system may be larger than the mass of the primary black hole;and we estimate the intrinsic QPO of jet precession and the QPO of companion star orbit.

Synthesis and Properties of Rosin-Based Composite Acrylamide Hydrogels

Hydrogels have been widely applied in agricultural drought-resistance,pollution regulation,drug delivery and so on.Acrylamide(AM)is usually used as raw material to synthesize acrylamide hydrogels.However,inherently low mechanical strength greatly limits their applications in some special areas.Therefore,it is necessary to choose suitable functional monomers to optimize acrylamide hydrogels and improve their mechanical performances.In this paper,a novel acrylamide monomer modified by rosin was synthesized,and then polyacrylamide/rosinbased acrylamide(RAM)composite hydrogels were prepared via free radical polymerization using potassium persulfate as initiator,N,N′-methylene-bisacrylamide(MBA)as a crosslinker.The influence of RAM monomer was investigated in detail.The chemical structure,pore structure,swelling properties,thermal performances and mechanical properties of composite hydrogels were characterized by Fourier Transform Infrared spectrometer(FT-IR),thermogravimetric analysis(TG),scanning electron microscope(SEM),and universal testing,respectively.The results showed that the thermal stability and mechanical property of RAM hydrogels were improved significantly.The compressive strength of RAM hydrogels was increased to 3.5 times than that of AM hydrogels,and the tensile strength was 5.1 times compared with AM hydrogels as well.Moreover,RAM hydrogels exhibited a faster initial swelling rate due to the new pore structure formed after introducing the RAM monomer.

Structure study of a dielectric laser accelerator with discrete translational symmetry

The dielectric laser accelerator(DLA) is a promising technology for achieving high-gradient acceleration in a compact design. Its advantages include ease of cascading and an energy gain per unit distance which can exceed that of conventional accelerators by two orders of magnitude. This paper establishes rules for efficient particle acceleration using dielectric structures based on basic equations, proposes a design principle for DLA structures with clear physical images and verifies the accuracy of the corresponding formula for energy gain. DLA structures with different specifications, materials and geometric shapes are constructed, and the achievable acceleration gradient is calculated. Our results demonstrate that effective acceleration can be achieved when the electric field sensed by particles in the acceleration cavity has zero frequency,which provides a powerful method for designing such devices. Furthermore, we demonstrate that the simplified formula for calculating energy gain presented in this paper can accurately determine the energy gain of particles during the design of acceleration structures using a dielectric accelerator.

On-chip stackable dielectric laser accelerator

In this paper,we propose a novel stacked laser dielectric acceleration structure.This structure is based on the inverse Cherenkov effect and represented by a parametric design formulation.Compared to existing dielectric laser accelerators relying on the inverse Smith–Purcell effect,the proposed structure provides an extended-duration synchronous acceleration field without requiring the pulse front tilting technique.This advantage significantly reduces the required pulse duration.In addition,the easy to integrate layered structure facilitates cascade acceleration,and simulations have shown that low-energy electron beams can be cascaded through high gradients over extended distances.These practical advantages demonstrate the potential of this new structure for future chip accelerators.

Computation-aided novel epitope prediction by targeting spike protein's functional dynamics in Omicron

1 The ever-growing crisis imposed by Omicron The global corona virus disease 2019(COVID-19)pandemic caused by the severe acute respiratory syndrome coronavirus 2(SARS-CoV-2)has lasted for more than 3 years and resulted in about 657 million infections and 6.6 million deaths as of date 05 January,2023(https://covid19.who.int/).The latest variant of concern(VoC),Omicron,is leading a new wave of infections globally[1].Although small molecule inhibitors are emerging to show antiviral activities for SARS-CoV-2[2-3],only limited drugs have been approved(e.g.,remdesivir and baricitinib).Vaccination remains the preferred protection method,however,extra vaccine dose is often required to effectively neutralize Omicron[4];especially for the continuous evolution SARS-CoV-2 variants by constant mutations,escape from neutralizing antibodies is still a major concern that challenges the effectiveness of existing vaccines[5].This global public health crisis urgently demands developing effective antibodies against the Omicron.

Managing facial infiltrating lipomatosis associated with PIK3CA mutation:From surgery to targeted therapy

Facial infiltrating lipomatosis(FIL)is a congenital asymmetrical deformity of the maxillofacial region that can significantly affect a patient’s facial appearance and function.With the development of sequencing technologies,PIK3CA mutations are considered among the potential etiologies of FIL.The management and treatment of FIL involves plastic surgery;more recently,an improved understanding of its pathogenesis has given rise to new treatment options,including targeted therapy.Here we report the clinical data of two patients diagnosed with FIL and present current curative concepts.

基于GLCT和FPO的时变工况行星齿轮箱故障特征提取

时变转速下行星齿轮箱故障诊断存在两个问题,一是由于空间和经济条件的限制,转速传感器无法安装就无法获得设备的实时转速,二是常用的短时傅里叶变换方法时频分辨率低,难以提取到反映设备健康状态的有价值特征信息。为了克服这两个问题,提出基于广义线性调频小波变换(General Linear Chirplet Transform,GLCT)与快速路径最优(Fast Path Optimization,FPO)的无转速阶次分析故障特征提取方法。首先,使用GLCT对振动信号进行时频表征,从而提高时频分辨率,能够清晰地反映齿轮箱的时变运行状态;然后,利用FPO算法从GLCT时频表示中精确提取转频趋势线,进而采用转频曲线对原始振动信号等角度重采样将其映射到平稳的角域中;最后,从角域信号的包络阶次谱中准确地提取行星齿轮箱故障特征信息。数值仿真和应用实例的分析结果表明该方法具有较高的时频分辨率和噪声鲁棒性,能够在无转速计的情况下有效地实现时变转速行星齿轮箱齿轮故障诊断。

Neuroprotective effects of autophagy inhibition on hippocampal glutamate receptor subunits after hypoxia-ischemia-induced brain damage in newborn rats

Autophagy has been suggested to participate in the pathology of hypoxic-ischemic brain damage（HIBD）.However,its regulatory role in HIBD remains unclear and was thus examined here using a rat model.To induce HIBD,the left common carotid artery was ligated in neonatal rats,and the rats were subjected to hypoxia for 2 hours.Some of these rats were intraperitoneally pretreated with the autophagy inhibitor 3-methyladenine（10 m M in 10 μL） or the autophagy stimulator rapamycin（1 g/kg） 1 hour before artery ligation.Our findings demonstrated that hypoxia-ischemia-induced hippocampal injury in neonatal rats was accompanied by increased expression levels of the autophagy-related proteins light chain 3 and Beclin-1 as well as of the AMPA receptor subunit GluR 1,but by reduced expression of GluR 2.Pretreatment with the autophagy inhibitor 3-methyladenine blocked hypoxia-ischemia-induced hippocampal injury,whereas pretreatment with the autophagy stimulator rapamycin significantly augmented hippocampal injury.Additionally,3-methyladenine pretreatment blocked the hypoxia-ischemia-induced upregulation of Glu R1 and downregulation of GluR2 in the hippocampus.By contrast,rapamycin further elevated hippocampal Glu R1 levels and exacerbated decreased GluR2 expression levels in neonates with HIBD.Our results indicate that autophagy inhibition favors the prevention of HIBD in neonatal rats,at least in part,through normalizing Glu R1 and GluR2 expression.

TP53-induced glycolysis and apoptosis regulator alleviates hypoxia/ischemia-induced microglial pyroptosis and ischemic brain damage

Our previous studies have demonstrated that TP53-induced glycolysis and apoptosis regulator(TIGAR)can protect neurons after cerebral ischemia/reperfusion.However,the role of TIGAR in neonatal hypoxic-ischemic brain damage(HIBD)remains unknown.In the present study,7-day-old Sprague-Dawley rat models of HIBD were established by permanent occlusion of the left common carotid artery followed by 2-hour hypoxia.At 6 days before induction of HIBD,a lentiviral vector containing short hairpin RNA of either TIGAR or gasdermin D(LV-sh_TIGAR or LV-sh_GSDMD)was injected into the left lateral ventricle and striatum.Highly aggressively proliferating immortalized(HAPI)microglial cell models of in vitro HIBD were established by 2-hour oxygen/glucose deprivation followed by 24-hour reoxygenation.Three days before in vitro HIBD induction,HAPI microglial cells were transfected with LV-sh_TIGAR or LV-sh_GSDMD.Our results showed that TIGAR expression was increased in the neonatal rat cortex after HIBD and in HAPI microglial cells after oxygen/glucose deprivation/reoxygenation.Lentivirusmediated TIGAR knockdown in rats markedly worsened pyroptosis and brain damage after hypoxia/ischemia in vivo and in vitro.Application of exogenous nicotinamide adenine dinucleotide phosphate(NADPH)increased the NADPH level and the glutathione/oxidized glutathione ratio and decreased reactive oxygen species levels in HAPI microglial cells after oxygen/glucose deprivation/reoxygenation.Additionally,exogenous NADPH blocked the effects of TIGAR knockdown in neonatal HIBD in vivo and in vitro.These findings show that TIGAR can inhibit microglial pyroptosis and play a protective role in neonatal HIBD.The study was approved by the Animal Ethics Committee of Soochow University of China(approval No.2017LW003)in 2017.

Improved method increases sensitivity for circulating hepatocellular carcinoma cells

AIM:To improve an asialoglycoprotein receptor(ASGPR)-based enrichment method for detection of circulating tumor cells(CTCs)of hepatocellular carcinoma(HCC).METHODS:Peripheral blood samples were collected from healthy subjects,patients with HCC or various other cancers,and patients with hepatic lesions or hepatitis.CTCs were enriched from whole blood by extracting CD45-expressing leukocytes with monoclonal antibody coated-beads following density gradient centrifugation.The remaining cells were cytocentrifuged on polylysine-coated slides.Isolated cells were treated by triple immunofluorescence staining with CD45antibody and a combination of antibodies against ASGPR and carbamoyl phosphate synthetase 1(CPS1),used as liver-specific markers,and costained with DAPI.The cell slide was imaged and stained tumor cells that met preset criteria were counted.Recovery,sensitivity and specificity of the detection methods were determined and compared by spiking experiments with various types of cultured human tumor cell lines.Expression of ASGPR and CPS1 in cultured tumor cells and tumor tissue specimens was analyzed by flow cytometry and triple immunofluorescence staining,respectively.RESULTS:CD45 depletion of leukocytes resulted in a significantly greater recovery of multiple amounts of spiked HCC cells than the ASGPR+selection(P s<0.05).The expression rates of either ASGPR or CPS1were different in various liver cancer cell lines,ranging between 18%and 99%for ASGPR and between 9%and 98%for CPS1.In both human HCC tissues and liver cancer cell lines,there were a few HCC cells that did not stain positive for ASGPR or CPS1.The mixture of monoclonal antibodies against ASGPR and CPS1identified more HCC cells than either antibody alone.However,these antibodies did not detect any tumor cells in blood samples spiked with the human breastcancer cell line MCF-7 and the human renal cancer cell line A498.ASGPR+or/and CPS1+CTCs were detected in 29/32(91%)patients with HCC,but not in patients with any other kind of cancer or any of the other test subjects.Furthermore,the improved method detected a higher CTC count in all patients examined than did the previous method(P=0.001),and consistently achieved 12%-21%higher sensitivity of CTC detection in all seven HCC patients with more than 40 CTCs.CONCLUSION:Negative depletion enrichment combined with identification using a mixture of antibodies against ASGPR and CPS1 improves sensitivity and specificity for detecting circulating HCC cells.