Metal-to-insulator transition in platinum group compounds

The metal-to-insulator transition(MIT) as usually achieved in 3d-orbital transitional metal(TM) compounds opens up a new paradigm in correlated electronics via triggering abrupt variations in their transportation properties.Compared to such 3d-orbital TM compounds,the MIT within the platinum group(Pg) element compounds based on the 4d-and 5d-orbital configurations is more complicated,owing to their elevation in the spinorbit coupling and meanwhile weakened intra-atomic Coulomb repulsions.This brings in a new freedom to regulate the balance in their metallic or semiconductive orbital configurations,while their MIT properties can be potentially combined with their spintronic properties to enable new electronic applications.Herein,we review the electronic transport and MIT behaviors within the existing family of Pg-containing compounds,particularly those showing first-order MIT behaviors that can be useful in correlated electronics.It is also hoped that summarizing the presently reported Pg-containing MIT compounds will lead to the discovery of more new material families and/or new mechanisms associated with the Pg-containing compounds showing MIT properties.

Adsorption kinetics of platinum group elements onto macromolecular organic matter in seawater

Adsorption kinetics of the interaction between Pt, Pd and Rh(defined here as platinum group elements, PGEs)ions and macromolecular organic compounds(MOCs,>10 kDa), including humic acid, carrageenan and bovine serum albumin, and different cutoff fractions of natural organic matter(>1 kDa and >3 kDa) obtained from seawater using centrifugal ultrafiltration devices were investigated. For a given element, all the adsorption kinetics did not reach equilibrium except the interaction between Pt and >1 kDa cutoff, and between Pd and humic acid.For all the tested MOCs, the adsorption kinetics could be divided into two stages, a rapid adsorption process in the first 8 h and the desorption stage after the first 8 h until the equilibrium. The change trend of partition coefficient(log10Kd) values with experiment time was consistent with that of the kinetic curves. However, in the interaction between PGE ions and natural dissolved organic matter(NDOM), an obvious difference in the change trends of log10Kd and kinetic curves was observed. It indicated that the partition behavior of PGE ions interacting with NDOM in seawater was a combined effect of different organic constituents. The adsorption and log10Kd of PGEs in the >1 kDa NDOM fraction were higher and more stable than those in the >3 kDa NDOM fraction. The results also indicated that the 1–3 kDa NDOM may dominate the interaction between PGEs ions and NDOM. Moreover, no kinetic model could perfectly simulate the adsorption process. It indicated that the colloidal struction and morphology of MOCs or NDOM in seawater might be inhomogeneous. Hence, the interaction between PGE ions and organic matter in seawater was a complicated process and needs further research.

从铂化合物制备尾液中回收超细铂粉的研究

将不同的铂化合物制备尾液经过氯化铵沉淀,实现与其他杂质元素的分离,将铂转化为氯铂酸铵中间体,经液相化学还原得到超细铂粉。研究了中间体形态、(NH_(4))2PtCl6溶液浓度、分散剂种类及加入量对铂粉粒度、比表面积、形貌的影响。结果表明,铂化合物尾液种类不影响超细铂粉的形貌及颗粒尺寸,以PVP为分散剂,硼氢化钠为还原剂,在优化条件下制备的铂粉平均粒度约150nm,纯度99.99%,直收率97.8%,颗粒形貌均匀、分散程度高、比表面积及颗粒尺寸均符合超细铂粉国家标准,方法可用于从多种铂类化合物制备尾液直接制备超细铂粉。

Syntheses，Structures and Properties of Some New Composition Perovskite Compounds：Sr0．6Bi0．4FeO2．7，Sr1－xBixFeO3－y and Ba1．5Pt0．5Mn2O6

New composition perovskite-type compounds with formula Sr0.6Bi0.4FeO2.7,Sr1-xBixFeO3-y(x=0.1 to 0. 9 in interveral of 0.1),and Ba1.5Pt0.5Mn2O6 have been synthsized and structurally characterized.The crystal structure of Sr0.6Bi0.4FeO2.7has been determined by X-ray single crystal diffraction,and the data of neutron powder diffraction collected at both room temperature and elevated temperature(380℃).The compound Sr0.6Bi0.4FeO2.7 crystallizes in the cubic space group of Pm3m with Z=1,a=3.9330(6) at room temperature,a=3.9498(6)A at 380℃.The magnetic structure from the neutron powder diffraction data collected at room temperature is consistent with a simple G-type antiferromagnetism and has a magnetic moment of 4.98 μB per Fe atom.The structures of Sr1-xBixFeO3-y with x other than 0.4 were also refined from the X-ray powder diffraction data.The data were consistent with a tetragonal cell when x=0.1,a rhombohedral cell when x= 0.9,and a cubic cell for x=0.2～0.8.From single crystal X-ray diffraction data,Ba1.5Pt0.5Mn2O6 crystallizes in hexagonal space group of P63mc with a= 5.7722 (6),c=4.4504(9),V=128.42(2),Z=1.The Sr(1-x)BixFeO(3-y)are found to be a good electronic and ionic conductor.

大气中气相和颗粒相羰基化合物的AD-FP系统采集和GC-MS分析

建立了涂布固体吸附剂XAD-4和衍生剂五氟苄基羟胺（pentafluorobenzyl hydroxylamine hydrochloride,PFBHA）的环形溶蚀器-滤膜（annular denuder-filter pack,AD-FP）系统,联合气相色谱-质谱（gas chromatography-mass spectrometer,GC-MS）同时采集和检测大气中气相和颗粒相羰基化合物的方法.PFBHA涂布在环形溶蚀器内壁和滤膜上,当大气样品经过环形溶蚀器时,气相羰基化合物被吸附,颗粒相则被采集到滤膜上,样品用正己烷洗脱和氮吹浓缩后再进行GC-MS分析.研究结果表明：当PFBHA涂布量为15μmol（气相）和0.8μmol（颗粒相）,采样流速为5 L/min,采样时间5 h时,对单羰基和二羰基化合物的采集效率达到最佳,为84%-95%;上海市宝山区大气中羰基化合物浓度水平呈现出季节性变化（夏季〈冬季）,且颗粒相羰基化合物浓度与PM2.5浓度呈正相关,羰基化合物的气粒分配系数与温度呈负相关.

铂及其化合物的制备与应用

铂是一种贵金属,具有诸多优良的理化性质,主要化合物以氧化物、硫化物、卤族化合物及配合物、有机物等形式存在。目前,铂及其化合物的应用主要涉及4个方面,即汽车尾气净化催化剂、燃料电池催化剂、含铂药物与医疗材料以及化工用铂催化剂。综述铂的主要化合物理化特性和制备方法,分析铂及其化合物的应用,对其发展前景进行展望,以更好地推进新兴产业的发展,助力实现碳达峰碳中和。

UPLC-Q-TOF-MS法测定化妆品和消毒产品中108种非法添加化合物

建立了超高效液相色谱-四极杆-飞行时间质谱(UPLC-Q-TOF-MS)进行筛查和确证化妆品和消毒产品中108种非法添加化合物的方法。样品采用饱和氯化钠溶液涡旋分散后,加入含0.05%(体积分数)甲酸的乙腈溶液超声提取,冷冻离心,X-Bridge C_(18)色谱柱(4.6 mm×100 mm,3.5μm)分离。在电喷雾离子源、正负离子扫描模式下,通过宽谱碰撞诱导解离(bbCID)模式采集待测物的质谱信息,构建108种非法添加化合物的筛查数据库。实验比较了提取溶剂的影响,优化了色谱条件和质谱条件,考察了凝胶剂、膏霜剂和粉剂的基质效应和回收率。结果表明,108种化合物的检出限为0.05~2.25 mg/kg,定量限为0.15~7.50 mg/kg,线性关系良好,相关系数(R^(2))均不低于0.99,3个浓度水平的加标回收率为60.0%~122.1%、相对标准偏差(RSD)为1.2%~23.3%。应用该方法对83份化妆品和50份消字号抑菌制剂进行分析,最终从两份消毒产品中确证检出林可霉素和利多卡因,其含量分别为5024.4和2.2 mg/kg。该方法操作简便,准确性好,适用于化妆品和消毒产品中多类非法添加化合物的筛查确证和定量分析,具有较强的应用价值。

铂基纳米制剂平台在医学多模态成像中的应用

铂基纳米制剂平台由于铂的高原子序数存在,能够增强对X线的吸收,应用于CT成像。同时铂基纳米材料具有良好的近红外光吸收特性和光热转换效应,使其具有光热成像和光声成像能力。另外,通过减少横向和纵向弛豫时间,铂基纳米制剂平台可以介导MRI。本文对基于铂基纳米制剂平台的多模态成像系统引导癌症治疗诊疗平台开发和医学应用研究进行综述,分析利用铂基纳米制剂平台的多模态成像技术在癌症诊断和治疗中的应用前景,总结基于铂基纳米制剂平台在改善医学图像的对比度和提高癌症治疗效果方面的研究进展。

富岛增值复合肥在辣椒生产中的应用效果研究

针对海南省辣椒生产中不合理施肥现象突出,导致肥料利用率低、经济效益不理想等情况,开展了不同配方的富岛增值复合肥对辣椒农艺性状、产量、氮素利用率、经济效益影响的田间小区试验。结果表明:不同富岛增值复合肥处理的辣椒农艺性状、产量、氮素利用率、经济效益均优于常规施肥处理的;基施富岛增值复合肥(17-17-17)30 kg/亩(1亩=667 m^(2))和硫酸镁15 kg/亩、追施富岛增值复合肥(14-6-24)130 kg/亩的处理效果较理想,可以满足提质增产的要求。

葡萄渣副产物利用研究综述

阐述了葡萄渣的综合利用,通过瞬时控制压降、真菌处理和加压液体萃取等技术,对葡萄渣中膳食纤维、酚类物质、蛋白质和脂质等物质进行增值。总结了葡萄渣在食品、药物、化妆品、能源、材料和饲料等多个领域的应用,以期提升葡萄酒产业的附加值和为环保及资源节约提供有效途径。

复方苁蓉益智胶囊联合奥氮平治疗AD患者精神行为症状及临床分析

目的研究复方苁蓉益智胶囊联合奥氮平治疗阿尔茨海默病(AD)患者精神行为症状及临床效果。方法选取2017年2月至2018年2月的100例AD患者。按照随机数表法分为观察组(n=52)和对照组(n=48),对照组采用奥氮平治疗,观察组采用复方苁蓉益智胶囊联合奥氮平治疗。观察两组治疗疗效情况,中医证候评分(运动能力、智能、言语能力),日常生活量表(ADL)、简易智能量表(MMSE)评分,不良反应发生率。结果治疗后,观察组总有效率显著高于对照组[94.23%(49/52)vs 75.00%(36/48)](P<0.05);运动能力、智能、言语能力评分均显著高于对照组[(92.03±15.75)分vs(81.34±13.09)分,(85.31±15.72)分vs(73.58±13.08)分,(82.13±16.20)分vs(72.18±13.42)分](P<0.05);ADL、MMSE评分均显著高于对照组[(56.13±4.21)分vs(50.76±2.82)分,(24.07±6.20)分vs(19.64±5.18)分](P<0.05);不良反应发生率显著低于对照组[9.62%(5/52)vs 25.00%(12/48)](P<0.05)。结论复方苁蓉益智胶囊联合奥氮平治疗AD患者疗效显著,可改善患者的精神行为症状,提高认知功能,改善患者的生活质量,安全可靠。

SYNTHESIS AND CHARACTERIZATION OF A SILICA-SUPPORTED CARBOXYMETHYLCELLULOSE PLATINUM COMPLEX AND ITS CATALYTIC BEHAVIORS FOR HYDROGENATI0N OF AR0MATICS

A silica-supported carboxymethylcellulose platinum complex (abbreviated as SiO_2-CMC-Pt) has been prepared and characterized by XPS. Its catalytic properties for hydro-genation of aromatic compounds were studied. The results showed that this catalystcould catalyze the hydrogenation of phenol, anisol, p-cresol, benzene and toluene to cyclo-hexanol, cyclohexyl methyl ether, p-methyl cyclohexanol, cyclohexane and methylcyclo-hexane, respectively in 100% yield at 30℃ and 1 atm. In the hydrogenation of phenol,COO/Pt ratio in SiO_2-CMC-Pt has much influence on the initial hydrogenation rate andthe selectivity for the intermediate product, cyclohexanone. The highest initial rate andthe highest yield of cyclohexanone both occur at COO/Pt ratio of 6. The complex is stableduring the reaction and can be used repeatedly.

花岗岩废渣资源化利用研究进展

花岗岩石材开采和加工过程中会产生大量废渣,处理不当将造成石材资源的浪费,并对废渣堆场周围的土壤、水源和空气造成污染。花岗岩废渣主要成分是石英、长石,另有少量黑云母,由于其具有质地坚硬致密、强度高、耐腐蚀、耐磨损等特点,将其用于建筑材料、复合材料、精细陶瓷等能有效改善材料的力学性能和耐久性。采用浮选工艺,可从花岗岩废渣中分选出钾长石、钠长石等高附加值产品。花岗岩废渣在改良土壤和污水处理等方面也具有应用潜力。总结了花岗岩废渣在绿色建材、复合材料、精细陶瓷和微晶玻璃、回收长石矿物、环保等领域的应用现状,指出未来应着力于花岗岩废渣的规模化和高附加值应用,可尝试将其作为切割磨料、钠钙玻璃原料以及用于矿井回填等,以促进花岗岩废渣的规模化利用。

3554例复方曲肽注射液临床应用合理性分析

目的分析复方曲肽注射液的使用情况,并进行合理性与安全性评价,为规范其临床应用提供参考。方法回顾性分析我院2018年至2020年3554例复方曲肽注射液的病例,对患者基本情况、科室分布、临床诊断、用法用量、以及上报国家不良反应监测中心的不良反应/不良事件(ADR/ADE)病例进行统计分析。结果3554例复方曲肽注射液的病例中,适应证不适宜占2.78%,给药剂量不适宜占45.02%,溶媒用量不适宜占9.98%。5例患者出现ADR/ADE,临床表现为水肿、瘙痒、皮疹、心悸和发热。性别是发生不良反应的风险因素。结论临床存在不合理使用复方曲肽注射液的现象,需规范管理,在合理用药情况下其安全性较好。

基于高效浮选法的中低变质烟煤深度脱灰技术研究

以神府东胜煤田中低变质程度烟煤为研究对象,首先分析了物理化学性质,据此采用物理-化学法中的高效浮选法对其进行深度脱灰制备超纯煤,采用单一变量法探究细粒级含量、矿浆浓度、药剂制度等几个关键因素对浮选效果的影响,最终通过复配捕收剂与高效浮选法实现原煤的深度脱灰,将原煤的灰分由6%降低至1.9%,且产率为35%,约为普通捕收剂的2倍。该研究对煤炭的高附加值利用走向大规模工业化生产提供了一定的基础,对煤炭企业升级转型及煤炭清洁高效利用具有重要的现实意义。

溶剂萃取分离煤焦油中高附加值化合物研究进展

综述了近年来液-液萃取、酸/碱萃取、超临界流体萃取、离子液体萃取、低共融溶剂萃取在分离煤焦油中高附加值化合物中的应用新进展。探讨了不同萃取方法的分离效果和分离机理。最后对溶剂萃取分离煤焦油中高附加值化合物目前所面临的问题和未来研究方向进行了展望。

不同剂量阿托品对急性有机磷农药中毒患者短期预后的影响

【目的】探讨不同剂量阿托品对急性有机磷农药中毒(AOPP)患者短期预后的影响。【方法】120例AOPP患者,随机分为大剂量组和小剂量组,每组60例。大剂量组给予阿托品首次剂量5~10 mg,根据患者反应10~30 min静脉推注2~5 mg,直至患者阿托品化;小剂量组给予阿托品首次剂量2~5 mg,根据患者反应10~30 min静脉推注1~2 mg,直至患者阿托品化。比较两组临床疗效、治疗前后血细胞参数[白细胞计数(WBC)、中性粒细胞计数(NC)、淋巴细胞计数(LC)以及中性粒细胞/淋巴细胞比值(NLR)]变化、治疗前后C反应蛋白(CRP)、嗜酸性粒细胞(EOS)变化、乙酰胆碱酯酶(AchE)、超氧化物歧化酶(SOD)、丙二醛(MDA)水平以及用药安全性。【结果】大剂量组治愈率为85.00%(51/60),显著优于小剂量组的68.33%(41/60)(P<0.05)。大剂量组阿托品用量显著高于小剂量组(P<0.05),两组机械通气、ICU留住时间和住院时间比较,差异无统计学意义(P>0.05)。治疗后,两组患者WBC、NC以及NLR均低于治疗前,LC高于治疗前(P<0.05);CRP、EOS低于治疗前(P<0.05);AchE、SOD高于治疗前,MDA低于治疗前(P<0.05);且大剂量组上述指标均优于小剂量组(P<0.05)。大剂量组不良事件发生率略高于小剂量组,但两组比较,差异无统计学意义(P>0.05)。【结论】大剂量阿托品治疗AOPP效果明显优于小剂量,可明显改善患者血细胞参数,调节炎症因子与氧化应激水平且用药安全性良好。

灰质源岩储层复合加砂酸压工艺的应用

渝西大安区块茅口组茅一段储层是非常规的富含有机质灰质源岩,具有自生自储、源储一体的成储成藏特点,以DB1井为例,其茅一段储层岩性致密,缝洞不发育,且含滑石,为基质孔隙型储层,常规的酸压改造不能满足增产需求。以多级交替注入为核心的深度酸压工艺酸蚀作用距离有限,加砂压裂工艺虽有利于形成较长的、具有一定导流能力的支撑裂缝,但人工裂缝方位单一,针对以上难点,探索了“高温胶凝酸+变黏滑溜水携砂”多级酸化加砂交替注入的复合加砂酸压工艺,通过软件模拟优选用液规模和交替级数,采用多簇射孔、控制总射孔数以实现限流压裂。在DB1井应用后,通过基于高频压力连续监测的倒谱分析技术验证了体积压裂的网状复杂缝的形成。现场试验表明,复合加砂酸压工艺技术适用于大安区块非常规致密性碳酸盐岩基质孔隙型储层,为进一步评价四川盆地茅一段灰质源岩储层特征及含气性、优化大安探区储层改造工艺提供了依据。

Nafion-Induced Metal-Metal Interactions in a Platinum(II) Terpyridyl Acetylide Complex:a Luminescent Sensor for Detection of Volatile Organic Compounds

The platinum(II) terpyridyl acetylide complex [Pt(terpy)(C≡CR)]ClO4 (terpy=2,2'∶6'2''-terpyridine, R=CH2CH2CH3) (1) was incorporated into Nafion membranes. At high loading the dry membranes exhibit intense photoluminescence with max at 707 nm from the 3MMLCT state, which was not observed in fluid solution. Upon exposure to the vapor of polar volatile organic compounds (VOC), this photoluminescence was significantly red-shifed. This process was fully reversible when the VOC-incorporated membrane was dried in air. The dramatic and reversible changes in the emission spectra made the Nafion-supported complex as an interesting sensor candi-date for polar VOC.