Application of Hydrothermal Diamond Anvil Cell to Homogenization Experiments of Silicate Melt Inclusions

The homogenization of silicate melt inclusions （SMIs）,small droplets of silicate melt trapped in magmatic minerals,is an important component of petrogenetic and magmatic research.Conventional homogenization experiments on SMIs use microscope-mounted heating stages capable of producing high temperatures at 1 atm and cold-seal high-pressure vessels.Heating stages are generally used for SMIs with low internal pressures and allow in situ observations of the homogenization processes.In contrast,cold-seal high-pressure vessels are generally used to heat SMIs that have high internal pressures,although the homogenized SMIs can only be observed after quenching in this approach.Here we outline an alternative approach that uses a hydrothermal diamond anvil cell （HDAC） apparatus to homogenize SMIs.This is the only current method wherein phase changes in high-internal-pressure SMIs can be observed in situ during homogenization experiments,which represents an advantage over other conventional methods.Using an HDAC apparatus prevents high-internal-pressure SMIs from decrepitating during heating by elevating their external pressure,in addition to allowing in situ observations of SMIs.The type-V HDAC that is currently being used has a shorter distance between the sample chamber and the observation window than earlier types,potentially enabling continuous observation of the processes involved in heating and SMI homogenization through an objective lens with a long working distance.Homogenization experiments using HDAC require that a number of steps,including HDAC preparation,sample preparation,sample loading,preheating,and formal heating,be carefully followed.Homogenization experiments on SMIs within granite samples from the Jiajika pegmatite deposit （Sichuan,China） are best performed using an HDAC-based approach,because the elevated proper external pressure of these SMIs,combined with a short heating duration,helps to suppress material leakage and any reactions within the SMIs,in addition to allowing in situ observations during homogenization experiments.Furthermore,using the HDAC approach has other benefits：heating rates can be precisely controlled,wafer oxidization can be prevented,and samples can be subjected to in situ microbeam analysis.In summary,homogenization using HDAC provides more reliable results than those obtained using conventional heating equipment.Future developments will include improvements to the quenching method and temperature controls for the HDAC apparatus,thereby improving the utility of this approach for SMI homogenization experiments.

Origin of deep carbonate reservoir in northeastern Sichuan Basin:New insights from in-situ hydrothermal diamond anvil cell experiments

In situ Raman analysis on the segregated near-equilibrium carbonate-fluid interaction at elevated temperatures(room temperature-260 °C) and pressures(13-812 MPa) in a hydrothermal diamond anvil cell(HDAC) reveals the preservation mechanism of porosity in deep carbonate reservoirs in the northeastern Sichuan Basin. The carbonate-fluid interaction was investigated by separately heating carbonate minerals and rocks with four different acid solutions(saturated CO2 and H2 S solutions, HCl, CH3COOH) in a sealed sample chamber. A minor continuous precipitation with increasing temperatures and pressures was observed during the experiments which caused minor sample volume change. The closed system is a preservation of pores and burial dissolution may not be the dominant diagenesis in the origin of porosity. Thin section photomicrographs observations in Changxing and Feixianguan Formations demonstrate that eogenetic pores such as moldic or intragranular pores with late small euhedral minerals, intergranular, intercrystal and biological cavity pores are the main pore types for the reservoirs. Early fast deep burial makes the porous carbonate sediments get into the closed system as soon as possible and preserves the pores created in the early diagenetic stage to make significant contribution to the deep reservoir quality. The anomalous high porosity at a given depth may come from the inheritance of primary pores and eogenetic porosity is fundamental to carbonate reservoir development. The favorable factors for deep reservoir origin include durable meteoric leaching, early fast deep burial, early dolomitization, etc. This deep pores preservation mechanism may be of great importance to the further exploration in deep carbonate reservoirs in the northeastern Sichuan Basin.

Laser-Heated Diamond-Anvil Cell (LHDAC) in Materials Science Research

Laser-heated diamond-anvil cell (LHDAC) is emerging as the most suitable, economical and versatile tool for the measurement of a large spectrum of physical properties of materials under extreme pressure and temperature conditions. In this review, the recent developments in the instrumentation, pressure and temperature measurement techniques, results of experimental investigations from the literature were discussed. Also, the future scope of the technique in various avenues of science was explored.

Hydrothermal synthesis of hexagonal-phase NaYF_4:Er,Yb with different shapes for application as photovoltaic up-converters

Hexagonal β-NaYF4 co-doped with Yb3＋ and Er3＋ is directly synthesized under mild conditions using a hydrothermal method.The variation of the ratio of Ln3＋ to F-and ethylenediaminetetraacetic acid（EDTA） causes the shape of the microcrystal to change from microplate to microcolumn.The NaYF4 powder is mixed with polydimethylsiloxane（PDMS） to create an up-converter for thin film amorphous silicon solar cells so as to evaluate the effectiveness of the synthesized material as an up-converter.In order to overcome the difficulty in measuring the effectiveness of up-conversion material,a new method of using near infrared illumination to measure the short circuit current densities of solar cells both with and without up-converters is developed.An up-converter with pure hexagonal NaYF4：Yb3＋/Er3＋ microcrystal produces a high current output.Emission intensity data obtained by photoluminescence suggest that pure hexagonal NaYF4：Yb3＋/Er3＋ microcrystals are more efficient than nanocrystals when used as up-converting phosphors.

Hydrothermally induced diagenesis: Evidence from shallow marinedeltaic sediments, WilhelmØya, Svalbard

Sedimentary basins containing igneous intrusions within sedimentary reservoir units represent an important risk in petroleum exploration. The Upper Triassic to Lower Jurassic sediments at Wilhelm?ya(Svalbard) contains reservoir heterogeneity as a result of sill emplacement and represent a unique case study to better understand the effect of magmatic intrusions on the general burial diagenesis of siliciclastic sediments. Sills develop contact metamorphic aureoles by conduction as presented in many earlier studies. However, there is significant impact of localized hydrothermal circulation systems affecting reservoir sediments at considerable distance from the sill intrusions. Dolerite sill intrusions in the studied area are of limited vertical extent(～12 m thick), but created localized hydrothermal convection cells affecting sediments at considerable distance(more than five times the thickness of the sill)from the intrusions. We present evidence that the sedimentary sequence can be divided into two units:(1) the bulk poorly lithified sediment with a maximum burial temperature much lower than 60-70 ℃,and(2) thinner intervals outside the contact zone that have experienced hydrothermal temperatures(around 140 ℃). The main diagenetic alteration associated with normal burial diagenesis is minor mechanical plastic deformation of ductile grains such as mica. Mineral grain contacts show no evidence of pressure dissolution and the vitrinite reflectance suggests a maximum temperature of ～40 ℃. Contrary to this, part of the sediment, preferentially along calcite cemented flow baffles, show evidence of hydrothermal alteration. These hydrothermally altered sediment sections are characterized by recrystallized carbonate cemented intervals. Further, the hydrothermal solutions have resulted in localized sericitization(illitization) of feldspars, albitization of both K-feldspar and plagioclase and the formation of fibrous illite nucleated on kaolinite. These observations suggest hydrothermal alteration at T> 120-140 ℃ at distances considerably further away than expected from sill heat dissipation by conduction only, which commonly affect sediments about twice the thickness of the sill intrusion. We propose that carbonate-cemented sections acted as flow baffles already during the hydrothermal fluid mobility and controlled the migration pathways of the buoyant hot fluids. Significant hydrothermally induced diagenetic alterations affecting the porosity and hence reservoir quality was not noted in the noncarbonate-cemented reservoir intervals.

Syntheses of Doped-LaCrO₃Nanopowders by Hydrothermal Method

The effects of additives and precipitants on the syntheses of doped LaCrO3 (lanthanum chromites) were studied by hydrothermal reaction at temperature ranges of 100℃ to 230℃. LaCrO3 nanopowders were synthesized by hydrothermal methods using several types of precipitants such as NaOH, KOH, NH4OH, and NH2CONH2. The influence of Sr, Ca and Co doping on the lanthanum chromites prepared by hydrothermal method were investigated. The synthesized nanopowders were characterized by means of XRD, SEM and densitometer. The electrical conductivity of the doped LaCrO3 was studied at 750℃ in air by a DC four point probe method. The particles size of undoped LaCrO3 nanopowder was approximately 100 nm when using KOH as a precipitant. The relative density of lanthanum chromite doped with calcium and cobalt is over 97%. The highest electrical conductivity of La0.62Ca0.38Co0.18Cr0.82O3 was 32.75 S/cm at 750℃ in air, which is 30 times higher than undoped LaCrO3. The density and electrical conductivity are increased by doping cobalt and calcium on the LaCrO3.

花岗岩类锂矿床中锂辉石和锂云母共生性的实验模拟研究

锂是一种稀有金属元素,锂辉石和锂云母是最重要的硬岩型锂矿矿石矿物,探究二者的共生性及条件,对揭示锂元素在不同锂矿石矿物中的赋存机制以及花岗岩类锂矿床的形成机制具有重要意义。本文应用热液金刚石压腔开展了锂辉石-锂云母-H_(2)O体系的原位观测结晶实验,10组实验产物均为锂辉石和白云母,锂辉石结晶集中在500~780℃、350~1300MPa的温压条件下,白云母结晶集中在440~710℃、180~1100MPa的温压条件下。结合前人实验得到的锂云母结晶条件(500~650℃、100~450MPa),以及实验产物云母的激光拉曼线扫结果,可以得到以下认识:锂辉石与白云母结晶温压条件具有较高的重叠度,与二者可在伟晶岩中广泛共生的现象一致;锂辉石和锂云母的结晶主要受到压力影响,温度和体系F含量的影响居于次要地位;透锂长石和锂云母形成于相似的温压条件,但体系F含量的高低分别促进锂云母和透锂长石的产出;在富Li体系中,随着压力的降低可以发生白云母到锂云母的转化,指示出自然界中白云母的锂云母边可能形成于熔体或热液结晶过程中,不一定是热液蚀变的结果。

Single-step Preparation of Nano-homogeneous NiO/YSZ Composite Anode for Solid Oxide Fuel Cells

Homogeneous co-precipitation and hydrothermal treatment were used to prepare nano- and highly dispersed Ni O/YSZ(yttria-stabilized zirconia) composite powders. Composite powders of size less than 100 nm were successfully prepared. This process did not require separate sintering of the YSZ and Ni O to be used as the raw materials for solid oxide fuel cells. The performance of a cell fabricated using the new powders(max.power density ~0.87 W/cm^2) was higher than that of a cell fabricated using conventional powders(max. power density ~0.73 W/cm^2). Co-precipitation and hydrothermal treatment proved to be very effective processes for reducing cell production costs as well as improving cell performance.

不同品种杂豆子叶细胞体外大肠发酵特性差异及调控机制

该研究以九种不同品种杂豆作为原料,采用蒸煮处理分离完整子叶细胞,比较其品种间的体外大肠发酵特性差异及其调控机制。结果表明,在营养成分方面,九种杂豆子叶细胞内淀粉(51.57%~71.89%)、膳食纤维(11.56%~25.01%)和蛋白质(11.49%~22.21%)含量存在显著差异(P<0.05),在结构层面,不同杂豆子叶细胞粒径大小(85.1~175.0μm)、细胞壁厚度(1.1~2.4μm)及淀粉结晶度(3.4%~8.4%)也存在显著不同(P<0.05)。蒸煮处理后细胞内淀粉基本糊化,经体外大肠发酵后表现出不同的产气量及短链脂肪酸生成量。其中,蛋白质含量较高的蚕豆(22.21%)、红芸豆(21.62%)和绿豆(19.20%)子叶细胞,显示出较慢的发酵速率和更高的支链脂肪酸生成量。淀粉含量差异导致了发酵总产气量及丙酸产量的不同,淀粉结晶度是影响乙酸生成量的主要原因,丁酸生成量则与胞内膳食纤维含量和细胞壁厚度存在正相关。综上,九种杂豆子叶细胞内淀粉、膳食纤维、蛋白质等营养成分及粒径大小、细胞壁厚度、胞内淀粉结晶度等结构的差异导致了发酵速率、短链脂肪酸生成量等体外大肠发酵特性的不同,但均可通过调节短链脂肪酸的生成显示出潜在的改善肠道健康作用。这些发现阐明了食物品种差异如何调节大肠发酵特性,并为针对性开发杂豆资源及以杂豆为基础的功能性膳食配料提供理论指导。

温敏性双发射峰量子点的制备与性能表征

针对目前国内测量细胞温度的方法较少,且大多数方法会对细胞造成损伤的问题,研究介绍了一种双发射峰热敏性量子点(QDs)的合成方法,可以应用于细胞温度的无损测量。该方法合成的量子点对于温度的敏感性较强,量子点的荧光强度与温度呈线性关系,可测温度范围为10~50℃,覆盖了大多数活细胞的温度(35~40℃)。并优化了测量荧光发射光谱的方法,增加了实验的准确性,与热电偶相比,相关系数提高至0.993。本文合成的碳量子点对人永生化表皮细胞(HaCaT)进行了温度检测和荧光成像。结果显示,对细胞基本无损伤且温度测量结果准确。所提方法合成的碳量子点具有良好的稳定性、生物相容性,且对细胞基本无毒性,对于开发无损测量细胞的纳米温度计有重要意义。

原位负载Pt-Co高指数晶面催化剂的制备及其电催化性能

直接乙醇燃料电池(DEFC)具有燃料易得、绿色高效的优点,得到了广泛的研究,但是DEFC催化剂存在催化效率低、稳定性差的问题,制约了其快速发展。本研究采用液相水热合成法,以聚乙烯吡咯烷酮(PVP k-25)为分散剂和还原剂、甘氨酸为表面控制剂和共还原剂,通过调控Pt-Co金属前驱体的摩尔比,一步制备了XC-72R炭黑负载的Pt1Cox/C高指数晶面纳米催化剂,实现了催化剂晶粒在碳载体上的原位生长。Pt_(1)Co_(1/3)/C纳米催化剂暴露的高指数晶面主要包括(410)、(510)和(610)晶面。在晶体生长过程中,Pt_(1)Co_(1/3)/C纳米催化剂晶粒由“类球体”转变立方块,最终得到具有高指数晶面取向的内凹形貌。Pt_(1)Co_(1/3)/C高指数晶面纳米催化剂的电催化活性最高,其电化学活性表面积为18.46 m^(2)/g,对乙醇氧化峰电流密度为48.70 mA/cm^(2),稳态电流密度为8.29 mA/cm^(2),CO氧化峰的电位为0.610 V。这说明具有高指数晶面的催化剂表面存在的台阶、扭结等缺陷原子,可增加活性位点,进而显示出优异的电催化性能。本研究可为高指数晶面催化剂材料的开发及工业化应用提供理论依据。

CdIn_(2)S_(4)光电薄膜材料的制备及光电性能研究

以氯化镉(CdCl_(2)·2.5H_(2)O)、氯化铟(InCl_(3)·4H_(2)O)和硫代乙酰胺(TAA)为原料,利用水热法在FTO导电基底上制备CdIn_(2)S_(4)薄膜材料。利用X射线粉末衍射仪(XRD)、扫描电子显微镜(SEM)、高分辨透射电子显微镜(HRTEM)、紫外-可见漫反射光谱(UV-Vis)等手段对所得薄膜的物相结构、表面形貌、成分及光吸收性能等进行表征。借助瞬态表面光电压(TSPV)技术探究CdIn_(2)S_(4)薄膜的光生载流子的分离、传输及复合过程。结果表明:制备的CdIn_(2)S_(4)薄膜结晶良好、表面均匀平整且具有良好的光吸收性能和光电响应。构建了以CdIn_(2)S_(4)和P3HT为吸收层、TiO_(2)为电子传输层的异质结薄膜太阳能电池器件(FTO/TiO_(2)/CdIn_(2)S_(4)/P3HT/Au)。目前其光电转化效率最高为0.022%,光电性能有待进一步提高。

氮掺杂荧光碳点用于Co^(2+)的超灵敏检测及细胞成像

首次以金银花和乙二胺为原料,通过水热法合成出性能优异的氮掺杂碳点(N-CDs)。制备的N-CDs具有丰富的官能团、良好的水溶性、低细胞毒性、高的荧光稳定性和良好的生物相容性。在最佳条件下,N-CDs能够高选择性地检出Co2+,N-CDs的荧光强度在0.5~3.6 nmol·L^(-1)范围内被Co^(2+)线性猝灭,检出限低至1.38 nmol·L^(-1),其猝灭机制属于内滤效应和静态猝灭。该方法也已成功应用于实际样品的精确分析。此外,N-CDs还可用于细胞成像及细胞内Co^(2+)传感。

Effects of Spin Transition and Cation Substitution on the Optical Properties and Iron Partitioning in Carbonate Minerals

The high-pressure behavior of deep carbonate dictates the state and dynamics of oxidized carbon in the Earth's mantle,playing a vital role in the global carbon cycle and potentially influencing long-term climate change.Optical absorption and Raman spectroscopic measurements were carried out on two natural carbonate samples in diamond-anvil cells up to 60 GPa.Mg-substitution in high-spin siderite FeCO_(3)increases the crystal field absorption band position by approximately 1000 cm^(-1),but such an effect is marginal at>40 GPa when entering the low-spin state.The crystal field absorption band of dolomite cannot be recognized upon compression to 45.8 GPa at room temperature but,in contrast,the high-pressure polymorph of dolomite exhibits a strong absorption band at frequencies higher than(Mg,Fe)CO_(3)in the lowspin state by 2000–2500 cm^(-1).Additionally,these carbonate minerals show more complicated features for the absorption edge,decreasing with pressure and undergoing a dramatic change through the spin crossover.The optical and vibrational properties of carbonate minerals are highly correlated with iron content and spin transition,indicating that iron is preferentially partitioned into low-spin carbonates.These results shed new light on how carbonate minerals evolve in the mantle,which is crucial to decode the deep carbon cycle.

介孔SnO_(2)的水热法制备及其在钙钛矿太阳能电池中的应用

自2009年钙钛矿太阳能电池问世以来,经过十几年的发展,电池效率从最初的3.8%提高到了25.7%。钙钛矿太阳能电池主要有平面结构和介孔结构两类,介孔结构的钙钛矿太阳能电池相对于平面结构多了一层介孔层。介孔层可以增大钙钛矿层和电子传输层的接触面积,有利于电子的提取和传输,从而减小电池的迟滞效应。采用水热法制备SnO_(2)介孔层,并将此介孔层应用于钙钛矿太阳能电池的电子传输层。主要研究了水热时间对介孔SnO_(2)电子传输层及钙钛矿太阳能电池的性能影响。通过XPS、SEM、UV-Vis、J-V和IPCE对样品的成分、形貌、光学性能和光电性能等进行了研究。结果表明:当水热时间从3 h增加到9 h时,SnO_(2)纳米片的直径从80 nm增加到了270 nm,介孔SnO_(2)层的厚度从70 nm增加到了350 nm。当水热时间为7 h时,电池的光电性能最佳,其光电转换效率为14.53%,开路电压为1.04 V,短路电流密度为19.29 mA·cm^(-2),填充因子为72.57%。

Effects of organic strength on performance of microbial electrolysis cell fed with hydrothermal liquefied wastewater

Microbial electrochemical technology has drawn increasing attention for the treatment of recalcitrant wastewater as well as production of energy or value-added chemicals recently.However,the study on the treatment of hydrothermal liquefied wastewater(HTL-WW)using microbial electrolysis cell(MEC)is still in its infancy.This study focused on the effects of organic loading rates(OLRs)on the treatment efficiency of recalcitrant HTL-WW and hydrogen production via the MEC.In general,the chemical oxygen demand(COD)removal rate was more than 71.74%at different initial OLRs.Specially,up to 83.84%of COD removal rate was achieved and the volatile fatty acids were almost degraded at the initial OLR of 2 g COD/L·d in the anode of MEC.The maximum hydrogen production rate was 3.92 mL/L·d in MEC cathode,corresponding to a hydrogen content of 7.10%at the initial OLR of 2 g COD/L·d.And in the anode,the maximum methane production rate of 826.87 mL/L·d was reached with its content of 54.75%at the initial OLR of 10 g COD/L·d.Analysis of electrochemical properties showed that the highest open circuit voltage of 0.48 V was obtained at the initial OLR of 10 g COD/L·d,and the maximum power density(1546.22 mW/m3)as well as the maximum coulombic efficiency(6.01%)were obtained at the initial OLR of 8 g COD/L·d.GC-MS analysis revealed the existence of phenols and heterocyclic matters in the HTL-WW,such as 1-acetoxynonadecane and 2,4-bis(1-phenylethyl)-phenol.These recalcitrant compounds in HTL-WW were efficiently removed via MEC,which was probably due to the combination effect of microbial community and electrochemistry in MEC anode.

Controllable hydrothermal synthesis of nanocrystal TiO_2 particles and their use in dye-sensitized solar cells

A simple method for the controllable hydrothermal synthesis of nanocrystalline anatase TiO2(nc-TiO2) particles involving the selection of suitable organic alkali peptizing agents is reported.A dye-sensitized solar cell(DSSC) with square-like nc-TiO2 particles with side lengths about 8-13 nm-prepared using tetraethylammonium hydroxide(TEAOH)-in the photoelectrode showed higher photovoltaic performance than two other DSSCs with square-like nc-TiO2 particles with side lengths about 7-10 nm-prepared using tetrabutylammonium hydroxide-or elongated nc-TiO2 particles with lengths about 18-35 nm and width about 10 18 nm-prepared using tetramethylammonium hydroxide(TMAOH)-in the photoelectrodes.When a scattering layer prepared from sub-micron size spheres or cone-like nc-TiO2 particles-synthesized using a higher concentration of TMAOH-was added on top of the photoelectrode fabricated from nc-TiO2 synthesized with TEAOH,the energy conversion efficiency of the DSSC was markedly increased from 6.77% to 8.18%.

应用LADRC的车用质子交换膜燃料电池温湿度控制优化研究

针对质子交换膜燃料电池在功率发生变化时水热管理系统不稳定和电堆进出口冷却液温差大等问题,通过LMS AMESim仿真平台建立了考虑整车功率变化以及驾驶员需求等影响因素的质子交换膜燃料电池水热管理系统模型。使用Matlab-Simulink搭建了线性自抗扰(LADRC)控制算法与比例积分微分(PID)控制算法,对冷却水泵以及湿度调节器进行控制,稳定电堆的温湿度,并进行联合仿真分析,比较了两者在新欧洲驾驶循环(NEDC)工况下的控制效果。结果表明:水热管理系统可以在NEDC工况下保持燃料电池电堆温湿度均在适宜工作区间,且LADRC性能相较PID更为优秀,电堆进出口处冷却液最大温差约为5℃,电堆的输出电压平均提高2.08%,可为质子交换膜燃料电池水热管理研究试验提供一定的依据和指导。

Ni/Carbon Hybrid Prepared by Hydrothermal Carbonization and Thermal Treatment as Support for PtRu Nanoparticles for Direct Methanol Fuel Cell

Ni/Carbon was prepared in two steps： initially cellulose as carbon source and NiCl2·6H2O as catalyst of the carbonization process were submitted to hydrothermal treatment at 200 ℃ and further to thermal treatment at 900 ℃ under argon atmosphere. The obtained material contains Ni nanoparticles with face-centered cubic （fcc） structure dispersed on amorphous carbon with graphitic domains. PtRu/C electrocatalysts （carbon- supported PtRu nanoparticles） were prepared by an alcohol-reduction process using Ni/Carbon as support. The materials were characterized by thermogravimetric analysis, energy-dispersive X-ray spectroscopy, Fourier transform infrared spectroscopy, X-ray diffraction, transmission electron microscopy and tested as anodes in single direct methanol fuel cell （DMFC）. The performances of PtRu/C electrocatalysts using Ni/Carbon as support were superior to those obtained for PtRu/C using commercial carbon black Vulcan XC72 as support.

多堆燃料电池系统分级冷起动策略研究

本文针对燃料电池系统低温冷起动现行国家标准中的测试方法与要求,结合多堆燃料电池系统新型结构,研究其冷起动控制策略,并加以有效性验证。