Experimental investigation on using CO_(2)/H_(2)O emulsion with high water cut in enhanced oil recovery

CO_(2) emulsions used for EOR have received a lot of interest because of its good performance on CO_(2)mobility reduction.However,most of them have been focusing on the high quality CO_(2) emulsion(high CO_(2) fraction),while CO_(2) emulsion with high water cut has been rarely researched.In this paper,we carried out a comprehensive experimental study of using high water cut CO_(2)/H_(2)O emulsion for enhancing oil recovery.Firstly,a nonionic surfactant,alkyl glycosides(APG),was selected to stabilize CO_(2)/H_(2)O emulsion,and the corresponding morphology and stability were evaluated with a transparent PVT cell.Subsequently,plugging capacity and apparent viscosity of CO_(2)/H_(2)O emulsion were measured systematically by a sand pack displacement apparatus connected with a 1.95-m long capillary tube.Furthermore,a high water cut(40 vol%) CO_(2)/H_(2)O emulsion was selected for flooding experiments in a long sand pack and a core sample,and the oil recovery,the rate of oil recovery,and the pressure gradients were analyzed.The results indicated that APG had a good performance on emulsifying and stabilizing CO_(2) emulsion.An inversion from H_(2)O/CO_(2) emulsion to CO_(2)/H_(2)O emulsion with the increase in water cut was confirmed.CO_(2)/H_(2)O emulsions with lower water cuts presented higher apparent viscosity,while the optimal plugging capacity of CO_(2)/H_(2)O emulsion occurred at a certain water cut.Eventually,the displacement using CO_(2)/H_(2)O emulsion provided 18.98% and 13.36% additional oil recovery than that using pure CO_(2) in long sand pack and core tests,respectively.This work may provide guidelines for EOR using CO_(2) emulsions with high water cut.

NH_(3)SO_(3)改性稀土尾矿催化剂NH_(3)-SCR脱硝活性及SO_(2)/H_(2)O耐受性能研究

采用球磨、微波焙烧方法制备了不同质量分数NH_(3)SO_(3)改性稀土尾矿NH_(3)-SCR脱硝催化剂。通过BET、SEM-EDS、XRD、NH_(3)-TPD、H_(2)-TPR分析了催化剂脱硝活性及SO_(2)/H_(2)O耐受性能。结果表明:NH_(3)SO_(3)改性使催化剂脱硝活性得到了显著提高,10%NH_(3)SO_(3)改性催化剂在300~350℃脱硝活性可达90%左右。SO_(2)/H_(2)O共同作用可将10%NH_(3)SO_(3)改性催化剂脱硝活性提高至97%,其促进作用保持了良好的稳定性,且具有可逆性。NH_(3)SO_(3)改性稀土尾矿后,催化剂比表面积、酸性位点及强度增加,表面活性物质分散度更高,弱化了尾矿矿物晶型,提高了催化剂吸附能力和氧化还原能力,从而提高催化脱硝活性,同时具备优良的SO_(2)/H_(2)O耐受性。

生物炭及其老化对农田NH_(3)挥发及N_(2)O排放的影响

生物炭具有减缓农田NH_(3)挥发和N_(2)O排放的重要潜力,但在施入环境后常常存在“老化”现象,这为其缓解全球变暖的长期有效性带来了不确定性。为了探明生物炭的长期效应,人工加速模拟了自然界中水分、温度、氧气、土壤矿物质及微生物多种老化因素,结合多元表征手段对比不同老化方式对生物炭性质的影响,利用主成分分析法建立新的生物炭性质综合指标来反映老化强度。再通过大田控制试验,采用原位通气法和静态箱-气相色谱法监测夏玉米生长周期内老化前后生物炭施用对农田NH_(3)挥发和N_(2)O排放的影响,为生物炭的可持续应用提供科学依据。结果表明,老化过程增加了原生物炭(BC)的氧含量、比表面积(SBET)、总孔容(Vt)及含氧官能团数量,降低了灰分、碱性、碳含量、平均孔径及其芳香性,各老化作用强度排序为:氧化老化生物炭(OBC)>矿化老化生物炭(KBC)>微生物老化生物炭(MBC)>干湿循环老化生物炭(WBC)>冻融循环老化生物炭(FBC)>BC。生物炭的添加减少了13.57%-29.50%的NH_(3)挥发量。与BC相比,OBC和KBC分别显著降低了14.71%和9.38%的NH_(3)挥发(P<0.05),MBC降低了3.38%的NH_(3)挥发(P>0.05)。相反,WBC和FBC分别增加了4.55%和2.72%的NH_(3)挥发(P>0.05)。同时,生物炭的添加降低了22.36%-40.43%的N_(2)O排放量。其中,BC减排效果最优,老化作用均削弱了原生物炭对N_(2)O的减排效应。与BC相比,OBC和KBC显著增加了30.34%和26.36%的N_(2)O排放量(P<0.05),MBC、FBC和WBC分别增加了19.96%、18.29%和10.92%的N_(2)O排放量(P>0.05)。综上,不同老化方式会对生物炭的理化性质造成不同改变,进而影响土壤气态氮释放。通过对比不同的老化方式,OBC影响最为显著,其次为KBC,MBC居中,WBC和FBC的影响最弱。

纳米TiO_(2)对NH_(3)-H_(2)O-LiBr工质降膜吸收性能的影响

为了探讨纳米TiO_(2)对三元NH_(3)-H_(2)O-LiBr工质降膜吸收的影响,本文利用数值分析建立了三元工作流体薄膜吸收的连续方程、能量方程和组分质量平衡方程,采用Matlab软件进行编程和计算纳米流体的降膜吸收性能,将其与实验数据进行对比验证,并进一步分析了纳米TiO_(2)质量分数、初始氨浓度、初始温度、冷却水进口温度、吸收压力和下降薄膜管长度对薄膜吸收性能的影响。研究表明:添加纳米TiO_(2)可以增强降膜吸收的传质速率,主要原因为液膜中氨的扩散系数增加。当纳米TiO_(2)质量分数从0%增加到0.1%、0.3%和0.5%时,扩散系数分别增加了3.44倍、6.42倍和11.76倍。此外,增加初始氨浓度、降低初始温度、提高冷却水进口温度或降低吸收压力都可以提高最终溶液的饱和度。

UiO-66-NH_(2)负载铜催化剂的制备及其对醇的催化氧化

通过溶剂热法成功制备了一种基于金属有机骨架(MOF)的复合材料Cu-Cu_(2)O/UiO-66-NH_(2),采用傅里叶变换红外光谱(FTIR)、X射线衍射(XRD)、扫描电子显微镜(SEM)、透射电子显微镜(TEM)、X射线光电子能谱(XPS)对材料进行全面表征。在空气作氧化剂条件下,以苯甲醇氧化为苯甲醛作为模型反应,系统地考察了溶剂、温度、催化剂各组分用量等因素对催化效果的影响。研究结果表明,该复合催化剂在醇选择性氧化反应中表现出优异的催化性能,60℃下反应5 h便可将苯甲醇定量转化为苯甲醛,并对其他苄基醇、烯丙基醇和杂芳基醇等底物也展现出良好活性。此外,循环利用3次后,该催化剂活性几乎不变,表明其具有良好的稳定性和重复使用性。

小鼠^(13)N-NH_(3)·H_(2)O心肌灌注Micro-PET显像中尾静脉注射技术的优化与评估

目的通过自制小鼠尾静脉留置针,为小鼠^(13)N-NH_(3)·H_(2)O心肌灌注显像提供实用、快捷、成功率高的实验工具,并总结归纳出一套流畅、高效的实验流程。方法实验组和对照组分别使用本实验室自制的鼠尾静脉留置针及人外周浅静脉一次性使用静脉留置针(洁瑞26G)为小鼠行尾静脉留置针穿刺,经留置针推注^(13)N-NH_(3)·H_(2)O,配合Micro-PET动态采集,记录图像采集的成功率及图像质量并评价两组注射的优缺点。结果两组实验在穿刺成功率、穿刺时间、药物残留量、图像质量及小鼠尾部放射性药物残留量5方面差异均具有统计学意义(P<0.05)。综合比较,自制留置针制作及操作简便、穿刺成功率高、对鼠尾静脉损伤小,且在图像采集成功率及质量方面均占优势。结论自制鼠尾静脉留置针联合优化的实验流程,能显著提高鼠尾静脉穿刺成功率和图像质量,很好地应用于小鼠^(13)N-NH_(3)·H_(2)O心肌灌注Micro-PET显像中。

温度影响下Anammox-DAMO系统N2O产消机制及调控

以厌氧氨氧化-反硝化厌氧甲烷氧化(Anammox-DAMO)系统为研究对象,考察了不同温度对该系统性能和N_(2)O产消的影响,建立了该过程的酶动力学模型.结果表明,在40℃的高温胁迫下系统性能明显恶化且积累了更多的N_(2)O,Acidovorax和Thauera属丰度在高温条件下显著降低,而Bacillus属丰度则上升,N_(2)O还原酶活性的抑制是N_(2)O排放量增加的主要因素.酶动力学拟合结果表明35℃时可以最大程度地实现N_(2)O减排.

秸秆与生物炭对棉田碱性土壤NH_(3)挥发与N_(2)O排放的影响

为探究秸秆和秸秆生物炭连续添加5 a后对土壤氨(NH_(3))挥发和氧化亚氮(N_(2)O)排放的影响,并确定合理的秸秆还田措施,以降低碱性棉田氮损失。本研究基于等碳量输入,设置秸秆翻埋、秸秆催腐+覆盖还田、秸秆生物炭翻埋和不还田对照共4个处理,氮磷钾肥统一施用。结果表明:秸秆生物炭翻埋下土壤NH_(3)挥发和N_(2)O排放分别较不还田对照显著降低27.3%和56.7%,主要归因于生物炭显著抑制土壤羟胺还原酶与硝酸还原酶活性,增加棉花氮吸收量,也与生物炭自身的强吸附能力有关。而秸秆翻埋、秸秆催腐+覆盖还田分别较对照增加NH3挥发37.2%和21.2%,但减少N2O排放17.1%和38.3%,这两种秸秆还田方式均显著促进土壤有机氮矿化和羟胺还原酶活性,抑制硝酸还原酶活性。冗余分析(RDA)结果表明羟胺还原酶和棉花氮吸收是土壤NH3挥发和N_(2)O排放的主要影响因子,解释率分别为64.8%和20.1%。研究表明,秸秆生物炭翻埋对NH_(3)和N_(2)O减排的综合效果优于秸秆,是碱性棉田土壤值得推荐的氮减排措施。

NH_(3)-(NH_(4))_(2)SO_(4)体系隔膜电解铜电化学研究

PCB板(印刷电路板)剪裁铣削渣中含有金属铜和铝,且塑料含量高,采用电化学溶解隔膜电积工艺可以实现铜的剥离并得到高品位阴极铜。该工艺具有流程短、电流效率高、产品纯度高等优点,具有广阔的应用前景,但其电化学机理尚不明确,本文以PCB制造过程中产生的含铜固废作为阳极,采用钛板为阴极,在NH_(3)-(NH_(4))_(2)SO_(4)体系中采用隔膜电解工艺进行了一系列试验,包括不同铵盐体系、氨/硫酸铵体系中不同电极、氨/硫酸铵体系不同电解液组成的电化学行为曲线以及NH_(3)-(NH_(4))_(2)SO_(4)体系电沉积铜的控制步骤、成核机理等。结果表明,氨/硫酸铵体系中电积铜的起始还原电位最低,电积时电耗较低,且该体系中氢的析出电位均较负,可避免因析出氢气降低阴极电流效率的副反应;NH_(3)-(NH_(4))_(2)SO_(4)体系中Cu^(2+)在钛电极表面的电沉积反应为不可逆过程,且为双电子一步转移过程,控制步骤为扩散控制;Cu^(2+)在钛电极上的成核机理接近于瞬时成核。该研究成果可为NH_(3)-(NH_(4))_(2)SO_(4)体系隔膜电解铜工艺提供理论参考。

Electrokinetic-mechanism of water and furfural oxidation on pulsed laser-interlaced Cu_(2)O and CoO on nickel foam

The electrocatalytic oxidation of biomass-derived furfural(FF)feedstocks into 2-furoic acid(FA)holds immense industrial potential in optics,cosmetics,polymers,and food.Herein,we fabricated Co O/Ni O/nickel foam(NF)and Cu_(2)O/Ni O/NF electrodes via in situ pulsed laser irradiation in liquids(PLIL)for the bifunctional electrocatalysis of oxygen evolution reaction(OER)and furfural oxidation reaction(FOR),respectively.Simultaneous oxidation of NF surface to NiO and deposition of CoO and/or Cu_(2)O on NF during PLIL offer distinct advantages for enhancing both the OER and FOR.CoO/NiO/NF electrocatalyst provides a consistently low overpotential of~359 m V(OER)at 10 m A/cm^(2),achieving the maximum FA yield(~16.37 m M)with 61.5%selectivity,79.5%carbon balance,and a remarkable Faradaic efficiency of~90.1%during 2 h of FOR at 1.43 V(vs.reversible hydrogen electrode).Mechanistic pathway via in situ electrochemical-Raman spectroscopy on CoO/NiO/NF reveals the involvement of phase transition intermediates(NiOOH and CoOOH)as surface-active centers during electrochemical oxidation.The carbonyl carbon in FF is attacked by hydroxyl groups to form unstable hydrates that subsequently undergo further oxidation to yield FA products.This method holds promise for large-scale applications,enabling simultaneous production of renewable building materials and fuel.

Layer-by-layer fabrication of montmorillonite coating immobilizing Cu_(2)O nanoparticles for continuously catalyzing glycerol to dihydroxyacetone

Microreactors are increasingly used for green and safe chemical processes owing to their benefits of superior mass and heat transfer,increased yield,safety,and simplicity of control.However,immobilizing catalysts in microreactors remains challenging.In this investigation,a technique for creating Cu_(2)O/montmorillonite catalyst coating,using electrostatic attraction for layer-by-layer self-assembly,was proposed.The montmorillonite film's morphology and thickness could be efficiently regulated by adjusting the degree of exfoliation and surface charge of montmorillonite,alongside layer-by-layer coating times.The Cu_(2)O nanoparticles were immobilized using the flow deposition approach.The resulting Cu_(2)O@montmorillonite-film-coated capillary microreactor successfully transformed glycerol into dihydroxyacetone.The conversion of glycerol and product selectivity could be controlled by adjusting the molar ratio of reactants,temperature,residence time,and Cu_(2)O loading.The maximum glycerol conversion observed was 47.6%,with a 27%selectivity toward dihydroxyacetone.The study presents a technique for immobilizing montmorillonite-based catalyst coatings in capillary tubing,which can serve as a foundation for the future application of microreactors in glycerol conversion.

Sensing the heavy water concentration in an H_(2)O-D_(2)O mixture by solid-solid phononic crystals

A new method based on phononic crystals is presented to detect the concentration of heavy water(D_(2)O)in an H_(2)O-D_(2)O mixture.Results have been obtained and analyzed in the concentration range of 0%-10%and 90%-100%D_(2)O.A proposed structure of tungsten scatterers in an aluminum host is studied.In order to detect the target material,a cavity region is considered as a sound wave resonator in which the target material with different concentrations of D_(2)O is embedded.By changing the concentration of D_(2)O in the H_(2)O-D_(2)O mixture,the resonance frequency undergoes a frequency shift.Each 1%change in D_(2)O concentration in the H_(2)O-D_(2)O mixture causes a frequency change of about 120 Hz.The finite element method is used as the numerical method to calculate and analyze the natural frequencies and transmission spectra of the proposed sensor.The performance evaluation index shows a high Q factor up to 1475758 and a high sensitivity up to 13075,which are acceptable values for sensing purposes.The other figures of merit related to the detection performance also indicate high-quality performance of the designed sensor.

Designing ultrastable P2/O3-type layered oxides for sodium ion batteries by regulating Na distribution and oxygen redox chemistry

P2/O3-type Ni/Mn-based layered oxides are promising cathode materials for sodium-ion batteries(SIBs)owing to their high energy density.However,exploring effective ways to enhance the synergy between the P2 and 03 phases remains a necessity.Herein,we design a P2/O3-type Na_(0.76)Ni_(0.31)Zn_(0.07)Mn_(0.50)Ti_(0.12)0_(2)(NNZMT)with high chemical/electrochemical stability by enhancing the coupling between the two phases.For the first time,a unique Na*extraction is observed from a Na-rich O3 phase by a Na-poor P2 phase and systematically investigated.This process is facilitated by Zn^(2+)/Ti^(4+)dual doping and calcination condition regulation,allowing a higher Na*content in the P2 phase with larger Na^(+)transport channels and enhancing Na transport kinetics.Because of reduced Na^(+)in the O3 phase,which increases the difficulty of H^(+)/Na^(+) exchange,the hydrostability of the O3 phase in NNZMT is considerably improved.Furthermore,Zn^(2+)/Ti^(4+)presence in NNZMT synergistically regulates oxygen redox chemistry,which effectively suppresses O_(2)/CO_(2) gas release and electrolyte decomposition,and completely inhibits phase transitions above 4.0 V.As a result,NNZMT achieves a high discharge capacity of 144.8 mA h g^(-1) with a median voltage of 3.42 V at 20 mA g^(-1) and exhibits excellent cycling performance with a capacity retention of 77.3% for 1000 cycles at 2000 mA g^(-1).This study provides an effective strategy and new insights into the design of high-performance layered-oxide cathode materials with enhanced structure/interface stability forSIBs.

NH_(4)Al(SO_(4))_(2)·12H_(2)O脱水过程及其热力学与动力学性能

通过热重-差热分析仪(TG/DTA)测试了NH_(4)Al(SO_(4))_(2)·12H_(2)O的升温脱水过程,并对其脱水过程进行热力学和动力学分析。结果表明,NH_(4)Al(SO_(4))_(2)·12H_(2)O的脱水过程分为2步,第1次脱去9个水分子,形成NH_(4)Al(SO_(4))_(2)·3H_(2)O;第2次脱去剩余的3个水分子,形成NH_(4)Al(SO_(4))_(2)。热力学分析NH_(4)Al(SO_(4))_(2)·12H_(2)O脱水过程中,脱落的液态水分子随即气化。动力学分析NH_(4)Al(SO_(4))_(2)·12H_(2)O脱水过程,脱去9个水分子的反应活化能为93.53 kJ/mol,脱去3个水分子的反应活化能为118.7 kJ/mol。

催化剂中Rh含量对NH_(3)及N_(2)O生成量影响研究

研究了不同Rh含量的三效催化剂对CO和NO_(x)的起燃性能,并对反应过程中副产物NH_(3)以及N_(2)O的生成规律进行研究。实验通过浸渍法制备得到不同Rh含量的Rh-Pd/Ce_(x)Zr_(1-x)O_(2)+La-Al_(2)O_(3)催化剂,采用一套专用多路固定床连续流动模拟气反应器对其性能进行评价。研究结果表明:不同Rh负载量表现出不同的N_(2)选择性,随着Rh用量的增加NO_(x)的转化性能提升。总体来看,低Rh用量的催化剂产生更多的N_(2)O和NH_(3)副产物,而随着Rh用量的增加其N_(2)选择性也增加。当温度达到400℃时,Rh用量≥0.141 g/L的催化剂基本没有N_(2)O生成,Rh用量≥0.283 g/L基本没有N_(2)O和NH_(3)生成。该研究对于优化三效催化剂中Rh配比以提升N_(2)选择性具有借鉴意义,并对于设计满足未来国Ⅶ排放标准的三效催化剂具有重要的指导意义。

丛枝菌根真菌对褐土玉米氮素吸收和土壤N_(2)O排放的影响

探究不同氮肥水平下丛枝菌根(AM)真菌对褐土玉米土壤N_(2)O排放和氮转化功能基因的影响,为阐明AM真菌在褐土N_(2)O排放中的作用和效应提供理论依据。设置氮肥用量(NⅠ:105 mg/kg;NⅡ:210 mg/kg)、AM真菌(M0:不接种AM真菌;M1:接种根内根孢囊霉(Rhizophagus intraradices);M2:接种摩西斗管囊霉(Funneliformis mosseae);M3:接种Rhizophagus intraradices+Funneliformis mosseae等比例混合)双因素盆栽试验。测定植株地上部全氮含量、土壤铵态氮、硝态氮含量和N_(2)O排放量,采用实时荧光定量聚合酶链式反应(PCR)法分析土壤硝化功能基因(amoA-AOA和amoA-AOB)和反硝化功能基因(nirS、nirK和nosZ)的丰度。结果表明,两种施氮水平下,接种AM真菌均可显著降低土壤N_(2)O排放通量和累积排放量,不同AM真菌处理下N_(2)O累积排放量表现为:M0>M2>M1>M3。相同AM真菌处理的土壤N_(2)O排放通量和累积排放量在NⅡ施氮水平高于NⅠ施氮水平;相同AM真菌处理的玉米菌根侵染率在NⅡ施氮水平低于NⅠ施氮水平。与M0相比,NⅠ条件下M1、M2和M3处理土壤铵态氮含量分别降低24.5%、20.8%和45.3%,硝态氮含量分别降低19.7%、14.9%和30.2%,植株地上部全氮含量分别增加16.3%、35.2%和59.6%;与M0相比,NⅡ条件下M1、M2和M3处理土壤铵态氮含量分别降低20.9%、24.8%和40.0%,硝态氮含量分别降低36.3%、25.6%和45.2%,植株地上部全氮含量分别增加33.2%、43.9%和95.4%。两种施氮水平下,AM真菌可显著降低土壤硝化功能基因(amoA-AOA和amoA-AOB)丰度,增加反硝化功能基因(nirS、nirK和nosZ)丰度。AM真菌与N_(2)O排放通量呈极显著负相关。本盆栽试验条件下,接种AM真菌均可增强两种氮肥用量玉米植株氮素吸收能力,调节硝化、反硝化相关功能基因的丰度,减少土壤N_(2)O气体的排放,且两种AM真菌混合处理的N_(2)O减排效应强于单一AM真菌接种。

2型糖尿病周围神经病变患者血清FOXO3a、PDGF表达及临床意义

目的 探究2型糖尿病周围神经病变(DPN)患者血清叉头盒O类转录因子-3a(FOXO3a)、血小板源性生长因子(PDGF)表达及临床意义。方法 选取2020年12月—2022年12月中部战区总医院接收的110例2型糖尿病患者作为研究对象。根据是否并发DPN将患者分为无并发症组(NDPN组)和周围神经病变组(DPN组),分别有45和65例,随机选取同期在该院体检的健康人群30例作为对照组(NC组)。采集受试者的一般资料及血脂、血糖等相关生化指标。采用酶联免疫吸附试验检测3组受试者血清FOXO3a、PDGF水平。采用受试者工作特征(ROC)曲线分析血清FOXO3a、PDGF水平对2型糖尿病发生DPN的预测价值。结果 各组年龄、病程比较,差异均有统计学意义(P <0.05)。各组性别构成、体质量指数、舒张压、收缩压、丙氨酸氨基转移酶、天冬氨酸氨基转移酶、肌酐、尿素氮水平比较,差异均无统计学意义(P>0.05)。NDPN组与DPN组动脉粥样硬化、视网膜病变、降压药使用史、注射胰岛素、服用二甲双胍构成比比较,差异均无统计学意义(P>0.05)。各组总胆固醇、甘油三酯、低密度脂蛋白胆固醇、高密度脂蛋白胆固醇、空腹C肽、踝肱指数比较,差异均无统计学意义(P>0.05)。NDPN组、DPN组糖化血红蛋白、空腹血糖水平较NC组高(P <0.05),DPN组运动神经传导速度、感觉神经传导速度水平较NDPN组低(P <0.05)。NDPN组、DPN组FOXO3a、PDGF水平较NC组高(P <0.05),DPN组FOXO3a、PDGF水平较NDPN组高(P <0.05)。ROC曲线分析结果显示,血清FOXO3a、PDGF以及联合诊断糖尿病患者是否发生DPN的曲线下面积分别为0.695(95%CI:0.590,0.779)、0.636(95%CI:0.539,0.726)、0.732(95%CI:0.639,0.812),敏感性分别为80.00%(95%CI:0.733,0.848)、92.31%(95%CI:0.856,0.977)、89.23%(95%CI:0.838,0.954),特异性分别为55.56%(95%CI:0.438,0.654)、33.33%(95%CI:0.238,0.452)、51.11%(95%CI:0.416,0.597)。结论 2型糖尿病DPN患者体内血清FOXO3a、PDGF水平异常,提示其与2型糖尿病周围神经病变发生、发展有相关性。

Z型异质结Cu_(2)O/Bi_(2)MoO_(6)的构建及光催化降解性能

通过水热法制备出一系列Z型异质结Cu_(2)O/Bi_(2)MoO_(6)新型光催化剂。采用扫描电子显微镜、粉末X射线衍射、红外光谱、紫外可见吸收光谱等表征手段研究了催化剂的形貌、结构性质和光电化学性质,并以四环素(TC)为降解目标污染物,进一步探究了其催化效率。实验结果表明,Cu_(2)O的加入提高了复合催化剂的光催化性能,其中20%Cu_(2)O/Bi_(2)MoO_(6)复合催化剂(Cu_(2)O和Bi_(2)MoO_(6)的质量比为20%)降解效果最好,100 min内可降解95%的TC。Cu_(2)O与Bi_(2)MoO_(6)之间的协同作用使其可以吸收更多的可见光,所构建的Z型异质结改变了电子转移途径,提高了电子与空穴的分离效率,光催化活性显著提高。通过自由基捕获实验和能带结构,分析了Z型异质结Cu_(2)O/Bi_(2)MoO_(6)复合催化剂光催化降解TC可能的机理。

Na_(2)O对锂铝硅微晶玻璃析晶及性能的影响

采用熔融法制备了不同Na_(2)O含量的透明锂铝硅微晶玻璃,通过DSC、XRD、FESEM等测试方法研究了不同Na_(2)O含量对玻璃析晶及性能的影响。结果表明:Na_(2)O的引入能显著降低玻璃的转变温度和析晶温度,抑制LiAlSi_(4)O_(10)晶相的析出。但Na_(2)O的引入促使微晶玻璃中析出Li_(2)Si_(2)O_(5)新相,并且随着Na_(2)O引入量的增加,Li_(2)Si_(2)O_(5)转变为主晶相。由于晶体尺寸均为纳米级,主晶相的转变对透过率影响较小,微晶玻璃的可见光透过率均高于85%。主晶相的转变有效增强了微晶玻璃的机械性能,其弯曲强度由300 MPa提升至331 MPa。Na_(2)O的引入有效增强了Na-K交换,Na_(2)O含量为4%(质量分数)的Li 2O-Al_(2)O_(3)-SiO_(2)微晶玻璃在410℃的KNO_(3)熔盐中交换6 h后,维氏硬度由7.108 GPa提升至7.403 GPa,弯曲强度由331 MPa提升至470 MPa。

Cu_(2)O@Ti_(3)C_(2)T_(x)锂离子电池负极材料制备及电化学性能

Cu_(2)O是锂离子电池(LIB)低成本、高容量的负极材料之一,但面临结构不稳定、容量保持率低的挑战.通过简单的溶剂热和湿化学法制备了具有三明治结构的Cu_(2)O@Ti_(3)C_(2)T_(x).凭借其优点,Cu_(2)O@Ti_(3)C_(2)T_(x)复合材料在2 A·g-1的电流密度下循环400圈后仍保持416.8 mA·h·g-1的容量.与纯Cu_(2)O相比,这种复合材料的电化学性能得到了提升,这得益于少层Ti_(3)C_(2)T_(x)的优异导电性和三明治结构对离子传输的促进作用.