Amorphous Sb/C composite with isotropic expansion property as an ultra-stable and high-rate anode for lithium-ion batteries

Antimony(Sb)is an intriguing anode material for Li-ion batteries(LIBs)owing to its high theoretical capacity of 660 m Ah·g^(-1)and appropriate working potential of~0.8 V(vs.Li^(+)/Li).However,just like all alloying materials,the Sb anode suffers from huge volume expansion(230%)during repeated insertion/extraction of Li+ions,resulting in structural deterioration and rapid capacity decay.In this work,a novel amorphous Sb/C composite with atomically dispersed Sb particles in carbon matrix is prepared via a straightforward high-energy ball milling approach.The intimate intermixing of amorphous Sb with C provides homogeneous element distribution and isotropic volume expansion during cycling,resulting in persistent structural stability.Meanwhile,the disordered structure of amorphous material shortens the diffusion distance of lithium ions/electrons,promoting fast reaction kinetics and rate capability.Benefiting from the aforementioned effects,the amorphous Sb/C exhibits a high reversible capacity of537.4 m Ah·g^(-1)at 0.1 A·g^(-1)and retains 201.0 m Ah·g^(-1)at an ultrahigh current rate of 10.0 A·g^(-1).Even after 1500deep cycles at 2.0 A·g^(-1),the amorphous Sb/C electrode still maintains 86.3%of its initial capacity,which outperforms all existing Sb-based anodes reported so far.Postmortem analysis further reveals a greatly reduced volume variation of merely 34.6%for the amorphous Sb/C electrode,much lower than that of 223.1%for crystalline Sb materials.This study presents a new approach to stabilizing Sb-based alloy anodes and contributes to the construction of high-performance amorphous anode materials for LIBs,enabling advanced energy storage.

免疫组化MYB和Notch1在乳腺腺样囊性癌中的应用

目的 探讨MYB、Notch1免疫组化染色在经典型乳腺腺样囊性癌(classic adenoid cystic carcinoma of the breast, C-AdCC)、具有基底细胞样特征的实体型乳腺腺样囊性癌(solid-basaloid adenoid cystic carcinoma of the breast, SB-AdCC)鉴别诊断中的应用价值。方法 收集病理科存档的20例C-AdCC、6例SB-AdCC及65例其他乳腺病变组织,分别行MYB、Notch1免疫组化染色,并对26例AdCC行FISH检测,6例SB-AdCC行NGS检测。结果 (1)MYB免疫组化染色显示:C-AdCC(20/20)弥漫中等或强阳性,SB-AdCC(4/6)弥漫中等或强阳性;胶原小体病(5/5)局灶或弥漫弱阳性;恶性腺肌上皮瘤(3/3)局灶中等或强阳性;8例产基质的癌、9例分泌性癌及40例非特殊型三阴型乳腺癌均阴性。(2)Notch1免疫组化显示:SB-AdCC(3/6)弥漫中等阳性,C-AdCC(20/20)均阴性;3例恶性腺肌上皮瘤、5例胶原小体病、8例产基质的癌、9例分泌性癌及40例非特殊型三阴型乳腺癌均阴性。(3)FISH检测显示C-AdCC(12/19)MYB基因断裂,NGS检测显示SB-AdCC(3/6)Notch1突变。结论 免疫组化MYB、Notch1中等或强的弥漫性表达,可辅助鉴别C-AdCC、SB-AdCC的分型;与恶性腺肌上皮瘤鉴别困难时,可借助分子检测进一步明确。

桉树遗态Fe2O3/Fe3O4/C复合材料吸附Sb(Ⅲ)的动力学和热力学研究

以制备获得的桉树遗态Fe2O3/Fe3O4/C复合材料为吸附剂,研究了Sb(Ⅲ )不同初始质量浓度和不同温度下,其对模拟废水中Sb(Ⅲ)的静态吸附特征。结果表明,初始质量浓度为5、10和50 mg/L Sb(Ⅲ)的吸附动力学曲线有相同的变化趋势,但吸附平衡时间随初始浓度的增大而提高;4种动力学模型的拟合和回归分析显示,遗态材料对Sb(Ⅲ)的吸附动力学特征很好地遵循准2级动力学模型(R2>0.99);在25、35、45℃试验条件下,遗态材料对Sb(Ⅲ)的吸附量均随着溶液平衡浓度的增加而增加,但随温度升高呈下降趋势,遗态材料对Sb(Ⅲ)的等温吸附更适合用Freundlich等温模型拟合(R2>0.97)。

用^(119)Sn、^(121)Sb及^(13)C NMR研究无水SnCl_4、SbCl_5与Lewis碱的相互作用

无水SnCl_4及SbCl_5是典型的Lewis酸,是有机反应中常用的催化剂。它们的溶剂化热效应早已受到人们的关注,然而用NMR方法来研究它们的溶剂化作用至今未见报道。本工作用^(119)Sn、^(121)Sb及(13)C NMR考察了典型Lewis酸无水SnCl_4、SnCl_5与二十几种Lewis碱的相互作用,直接证实了Lewis酸碱反应为电子的授受过程。

Sb/MoS_2/C复合材料的制备及其电化学性能研究

结合水热法和冷冻干燥法制备了高容量锂离子电池负极材料Sb/Mo S2/C,利用X射线衍射、扫描电镜、透射电镜和X射线光电子能谱等手段对样品的结构和形貌进行了表征。结果表明,合成的Sb/Mo S2/C复合材料的形貌结构为纳米片状。通过恒流充放电对样品进行电化学性能测试,结果表明,该材料具有杰出的电化学性能,在0.2 A/g电流密度下,循环200次后容量保持率为99%。

Activities of liquid Fe-As and Fe-Sb alloys saturated with carbon

A solid iron base alloy of the so-called furnace residue is often formed as a by-product in reduction smelting of lead sinter and scraps with high contents of arsenic and antimony. The use of phase separation into a liquid iron-rich alloy and a liquid lead-rich alloy in lead-iron-arsenic and lead-iron-antimony systems saturated with carbon at relatively low temperatures of about 1200~C was proposed in a new process for treating the fumace residue to recover valuable elements into the lead-rich alloy and fLx toxic arsenic into the iron-rich alloy. As a fundamental study for the proposed process, the activity coefficients and interaction parameters of the Fe-As and Fe-Sb systems saturated with carbon at 1200℃ were derived in this study, based on the determined phase relations in the Fe-Pb-As and Fe-Pb-Sb systems saturated with carbon.

Anodic oxidation of formic acid on PdAuIr /C-Sb2O5·SnO2 electrocatalysts prepared by borohydride reduction

PdAuIr/C-Sb2O5·SnO2electrocatalysts with Pd∶Au∶Ir molar ratios of 90∶5∶5,70∶20∶10 and 50∶45∶5 were prepared by borohydride reduction method.These electrocatalysts were characterized by EDX,X-ray diffraction,transmission electron microscopy and the catalytic activity toward formic acid electro-oxidation in acid medium investigated by cyclic voltammetry(CV),chroamperometry(CA)and tests on direct formic acid fuel cell(DFAFC)at 100℃.X-ray diffractograms of PdAuIr/C-Sb2O5·SnO2electrocatalysts showed the presence of Pd fcc phase,Pd-Au fcc alloys,carbon and ATO phases,while Ir phases were not observed.TEM micrographs and histograms indicated that the nanoparticles were not well dispersed on the support and some agglomerates.The cyclic voltammetry and chroamperometry studies showed that PdAuIr/C-Sb2O5·SnO2(50∶45∶5)had superior performance toward formic acid electro-oxidation at 25℃compared to PdAuIr/C-Sb2O5·SnO2(70∶20∶10),PdAuIr/C-Sb2O5·SnO2(90∶5∶5)and Pd/C-Sb2O5·SnO2electrocatalysts.The experiments in a single DFAFC also showed that all PdAuIr/C-Sb2O5·SnO2electrocatalysts exhibited higher performance for formic acid oxidation in comparison with Pd/C-Sb2O5·SnO2electrocatalysts,however PdAuIr/C-Sb2O5·SnO2(90∶5∶5)had superior performance.These results indicated that the addition of Au and Ir to Pd favor the electro-oxidation of formic acid,which could be attributed to the bifunctional mechanism(the presence of ATO,Au and Ir oxides species)associated to the electronic effect(Pd-Au fcc alloys).

INTERACTION BETWEEN C AND Sb IN Fe-C-Sb LIQUID SOLUTION

The influence of Sb on the C solubility in liquid Fe was measured under 1300,1400 and 1500℃.The C solubility decreases with the increase of Sb content in liquid Fe.The tem- perature dependences of the first order interaction coefficients in C-saturated liquid Fe were determined as follows: *e_C^(Sb)=11.309/T+0.0025 *e_(Sb)~C=128.023/T-0.0219 The temperature dependences of interaction coefficients between Sb and C in dilute liquid Fe were given to be: e_C^(Sb)=14.204/T+0.025 e_(Sb)~C=120.541/T+0.227 ε_C^(Sb)=ε_(Sb)~C=6026.75/T+11.958 The interaction coefficients at 1600℃ are *e_C^(Sb)=0.0085,e_C^(Sb)=0.033,*e_(Sb)~C=0.295, ε_C^(Sb)=ε_(Sb)~C=15.36.The first order interaction coefficients vary slightly with the temperature.

锂离子电池负极用Sb-活性炭复合材料的制备及其性能表征

以Sb2O3和活性炭为原料,采用碳热还原法制备Sb-活性炭复合材料.通过XRD及SEM、恒流充放电循环、慢速扫描循环伏安等方法对其结构形貌和电化学嵌脱锂性能进行了研究.结果表明,Sb2O3碳热还原成金属Sb,还原剂比例越大,得到的Sb金属颗粒越小,材料颗粒分布越均匀.在原料摩尔比Sb2O3:C(活性炭)=1:4条件下,产物的性能最优,首次放电比容量为893mA·h/g,循环8次后,充电比容量为548mA·h/g,比容量保持率为88%.

桉树遗态Fe_2O_3-Fe_3O_4/C复合材料的制备及其对水中锑(Ⅲ)的吸附研究

以桉树为植物模板,通过氨水浸提、硝酸铁浸渍和马弗炉有氧焙烧等处理制备获取桉树遗态Fe2O3-Fe3O4/C复合材料,借助扫描电镜和X射线衍射分析仪等手段对其进行了结构和性质分析;通过吸附试验研究了初始Sb(Ⅲ)含量、pH、吸附剂投加量以及吸附剂粒径对吸附效果的影响。结果表明,获取的复合材料很好地保留了桉树自身固有的植物本征结构,且Fe2O3和Fe3O4是其主要组成部分,呈现出其对水中Sb(Ⅲ)的良好吸附性能;随着Sb(Ⅲ)初始含量的增加,桉树遗态Fe2O3-Fe3O4/C复合材料对Sb(Ⅲ)的吸附量增大;温度对吸附除Sb(Ⅲ)没有明显影响;初始溶液pH为8时,Sb(Ⅲ)的去除效果最好;适宜吸附剂投加量为0.5 g/50 mL;吸附剂粒径小利于吸附率的提高,但块状材料也显示出良好的吸附性能。

毛竹遗态Fe_2O_3/Fe_3O_4/C复合材料对水中锑(Ⅲ)的吸附研究

以毛竹遗态Fe_2O_3/Fe_3O_4/C复合材料为吸附剂,锑(III)初始含量、溶液初始pH值、吸附剂投加量以及吸附剂粒径为影响因素开展吸附影响研究。结果表明,随着锑(III)初始浓度的升高,毛竹遗态Fe_2O_3/Fe_3O_4/C复合材料对锑(III)的吸附量逐渐增加;初始溶液pH为7时,对锑(III)的吸附效果最好,吸附量为4.782 1 mg/g;块状吸附剂对水中锑(III)的去除率和吸附量与粉末状吸附剂吸附效果相当。

基于C/S和B/S输电管理系统的研究与设计

针对我国输电管理信息系统的分层控制特点,利用C/S对数据共享的安全性和B/S对信息传输的实时性,研究设计出基于客户机/服务器(C/S)和浏览器/Web服务器(B/S)模式的输电管理系统。

C-V2X通信中资源分配与功率控制联合优化

在C-V2X通信中,Mode 4资源分配方式使用基于感知的半持续调度(SB-SPS)算法进行资源分配,但该算法以最大功率传输安全消息,在高密度交通流状态下会导致系统的可靠性下降。为对SB-SPS算法进行优化,提出一种基于深度强化学习的联合资源分配与功率控制算法。车辆在感知到信道后,为安全消息选择干扰最小的子信道,并根据信道状态自适应调整传输功率,通过与环境交互学习的方式求解最优的子信道选择方案和功率控制方案。仿真结果表明,与SB-SPS优化算法相比,该算法在高密度公路场景下分组接收率提高5%,有效提升了车间通信的可靠性。

不同曝气控制方式对SBR短程硝化特性的影响

分别采用恒定鼓风量[0.4m_(空气)~3/(m_水~3·h)]和恒定DO(0.5mg/L)的连续曝气控制方式,通过控制温度为30±1℃、pH值为7.9~8.2,研究两种曝气控制方式对于低C/N城市污水短程硝化的特性。结果表明:恒定曝气量[0.4m_(空气)~3/(m_水~3·h)]实现稳定短程硝化的时间明显快于恒定DO(0.5 mg/L)的曝气控制方式,而且恒定曝气量实现稳定的亚硝酸盐积累率达95%以上,明显地高于恒定DO(0.5 mg/L)的曝气控制方式的NO_2-N积累率85%,恒定曝气量[0.4 m_(空气)~3/(m_水~3·h)]的控制方式短程硝化的曝气控制时间宜控制为4 h,而恒定DO(0.5 mg/L)的控制方式短程硝化的曝气控制时间宜控制为3 h。

含砷、锑、碳难处理金精矿焙烧氰化提金工艺研究

镇沅含砷、锑、碳难处理金精矿直接氰化金浸出率小于 10 % ,采用常规焙烧 -焙砂氰化提金工艺金浸出率仅达到 73 2 % ,而采用先行除锑 ,再焙烧脱除硫、碳、砷的提金工艺方案 ,金氰化浸出率达到90 4 % ,同时锑可作为锑精矿外售 ,经济效益明显。

滇黔桂地区汞锑金砷等低温矿床组合碳、氢、氧、硫同位素地球化学

滇黔桂地区分布着众多大中型Hg、Sb、Au矿床。通过对碳、氢、氧、硫等同位素的分析表明：大厂锑矿的硫来自地幔，木利、马雄锑矿的硫主要来自海水硫酸盐。各金矿的硫主要来自围岩，但碳大部分来自围岩。氢氧同位素数据表明，本区锑、金、汞等矿床的成矿流体来源相似，其主要来源为与围岩进行了氢氧同位素交换的大气降水。

Ti/Si系催化剂催化聚酯缩聚反应动力学研究

研究了Sb2 O3 和C 94两种催化剂对于PET缩聚反应的动力学。结果表明 ,在相同条件下C 94的催化活性明显高于常规的Sb2 O3 催化剂 ;C 4的表观活化能明显高于Sb2 O3 催化剂 ;在有效搅拌条件下 ,两种催化剂在高真空阶段仍有较高的催化活性 ,过程是化学反应控制的。

五氯吡啶的合成工艺研究

以Sb-La-Zr/C为催化剂,固定床为反应器,采用吡啶与氯气反应合成五氯吡啶。系统地考查了金属含量、催化剂用量、原材料摩尔比、反应温度的影响,筛选出最优的反应条件:Sb含量为0.5%,La含量为2.5%,Zr含量为5%,反应温度为280℃,催化剂用量为6%,吡啶∶氯气=1∶6.2,此时五氯吡啶的收率达99%以上。该工艺操作简单,安全性高,收率高,适合工业化生产。

国产岩沥青与TB胶粉复合沥青性能及改性机理研究

采用室内针入度和PG分级双指标控制体系研究了青川岩沥青、TB胶粉掺量对Terminal Blend胶粉改性沥青性能的影响,采用荧光显微镜研究了天然沥青对TB沥青的增强作用和改性机理。基于车辙、MMLS1/3、低温弯曲、冻融劈裂和浸水马歇尔及四分点加载疲劳试验试验系统研究了青川岩沥青与TB复合改性沥青混合料的路用性能。试验结果表明,掺加青川岩沥青与SBS显著提高了TB沥青及其混合料的高温性能,同时在一定程度上保留了TB胶粉改性沥青低温性能突出的特点;掺加青川岩沥青后显著提高了TB胶粉改性沥青的PG高温分级,15%NES+15%TB+2.0%SBS、15%NES+20%TB+2.0%SBS、20%NES+15%TB+2.0%SBS三种改性沥青PG分级可达到PG88-28、PG82-28、PG88-28。SBS与TB岩沥青改性沥青高温性能和抗疲劳耐久性可达到甚至超过4.5%SBS改性沥青混合料,TB岩沥青复合改性沥青混合料可在夏炎热区和季节性冰冻区推广应用,将SBS与TB岩沥青复配可有效降低SBS掺量。综合考虑青川岩沥青与TB胶粉掺量对复合改性沥青高低温性能的影响,兼顾沥青混合料的高低温性能和抗疲劳性能,可优化出15%青川岩沥青+20%TB胶粉、20%青川岩沥青+20%TB胶粉、25%青川岩沥青+15%TB胶粉3种SBS与TB青川岩沥青复配方案。

正极活性物质软化过程研究

采用扫描电子显微镜(SEM)、X射线衍射仪(XRD)、差热分析仪(TG/DTA)等仪器,对不同充放电循环阶段的正极活性物质(PAM)进行分析,探讨PAM的软化进程,分析掺杂Sb元素对PAM软化进程的影响。结果表明,PAM软化与骨架间孔结构的不断扩大和骨架内部晶体结构不断变化两个进程有关,而且掺杂Sb元素能改变骨架内部晶体的变化进程,提高PAM的抗软化能力。