基于氮掺杂碳量子点荧光猝灭效应检测Fe3+

碳量子点光致发光性质取决于尺寸大小和表面官能团的性质.本研究以还原冶炼过程产生的生物质焦油为前驱体,采用小分子乙二胺进行氮掺杂,通过一步水热法合成荧光产率高、分散性能好的氮掺杂碳量子点,基于Fe3+对氮掺杂碳量子点选择性荧光猝灭效应,实现了对Fe3+快速准确检测.合成的氮掺杂碳量子点为规则的球形,尺寸均一,平均粒径为2.64 nm,晶面间距为0.25 nm,具备石墨碳晶格(100)晶格结构,其荧光量子产率为26.1%;Fe3+与N-CQDs表面官能团配位络合致使N-CQDs荧光猝灭,Fe3+浓度在0.23~600μmol/L范围内,与氮掺杂碳量子点荧光猝灭程度呈良好的线性关系,Fe3+的检出限为230 nmol/L.     

采用N-CQDs-Al~(3+)探针检测两类食品中三聚磷酸钠

通过烟酰胺一步水热法制备氮掺杂碳量子点(N-CQDs),该碳量子点荧光量子产率为23. 2%。TEM和XPS结果表明,其平均粒径为2 nm及表面可能存在-COOH和-NH2。基于Al~(3+)对N-CQDs荧光猝灭和三聚磷酸钠(STPP)能显著恢复其荧光强度的原理,设计一种新型荧光探针用于检测STPP。该方法的线性范围为0. 33～9. 33μmol/L,检出限为0. 19μmol/L。该探针可用于检测牛奶和猪皮晶中STPP。     

葡萄糖酸碳量子点的合成及其光学性能的研究

以葡萄糖酸为碳源,采用微波法、热解法和水热溶液法合成了水溶性较好的蓝色荧光碳量子点。用透射电镜(TEM)观察其形貌,荧光光谱(FL)和紫外可见光谱(UV)探究其激发和发射光谱,用时间分辨光谱(TRF)测其荧光寿命值。微波和热解法制备的碳量子点粒径在2.5~7.5 nm之间,激发波长为360 nm,发射波长为450 nm,荧光发射依赖激发波长,有三个荧光寿命,表面状态不均一。水热法制备的碳量子点,粒径在3.0~8.5 nm之间,激发波长为350 nm,发射波长为430 nm,荧光发射不依赖激发波长,只有一个荧光寿命值,表面状态均一。水热法合成的碳量子点荧光量子产率高为6.01%,为进一步研究葡萄糖酸制备碳量子点提供参考。     

微波法制备丙三醇碳量子点并用作Fe~(3+)探针

以丙三醇为原料,经一步微波法制备了碳量子点(CDs),所制备的碳量子点粒径分布在4~25 nm之间,其平均粒径为16.5 nm.荧光光谱结果表明,相比于Cu~(2+),Ca~(2+),Mn~(2+),Co~(2+),Fe~(2+),Ni~(2+),Zn~(2+),Na~(2+)Cd~(2+),Mg~(2+),Pb~(2+),K~+和Ag~+等13种常见金属离子,该碳量子点对Fe~(3+)显示出高选择识别性,且Fe~(3+)浓度在10~60μmol/L之间呈现良好的线性关系,检出限为2μmol/L.     

青柿子粗提物简易制备荧光碳点及对Fe~(3+)的检测

以青柿子(Diospyros Kaki L. f)提取物作为碳源,通过水热法简易制备荧光碳点,并对其进行表征。结果显示所制备的碳点为类圆球颗粒,平均粒径为15. 39 nm。X射线衍射(XRD)表明该碳点为类石墨烯的无定形碳材料;光电子能谱(XPS)表明其构成元素较复杂,但以碳点为主的元素均有表达,且符合一般碳点材料的元素组成;该碳点表面含有羟基、羧基和氨基等活性基团;在350 nm处有紫外吸收,具有激发波长依赖性特点荧光,最大激发波长为355 nm,最大发射波长为445 nm;在355 nm激发波长下,其光谱发射在p H5. 0～11. 0范围内具有稳定的荧光。该碳点在365 nm紫外光照射下,表现出较强的蓝色荧光,对Fe3+具有较好的特异识别能力,可用于Fe3+的荧光检测。Fe3+浓度在0. 45～50μmol/L范围内与PM-CDs的荧光强度呈线性关系(r2=0. 923 4)。试验在碳点纯化方面存在局限,需进一步探讨生物质材料碳点纯化方式,提高目标分析物的识别位点保有量,获得高效检测目标。     

氮掺杂鸡毛碳点荧光关开探针用于测定百草枯

以鸡毛和乙二胺为碳源和氮源,通过一步水热法合成强荧光性能的氮掺杂碳量子点(N-CQDs),并优化其制备和掺杂条件。该碳量子点具有良好的光学、结构性质和稳定性,平均粒径7.89 nm,荧光量子产率为14%。最大激发波长为320 nm,最大发射波长为386 nm。Hg²⁺存在条件下N-CQDs溶液的荧光被猝灭(关),添加百草枯后猝灭的荧光被恢复(开)。通过N-CQDs/Hg²⁺体系设计了荧光"关-开"方法,在最佳条件下,百草枯在0.05~1.0μg/mL范围内具有良好的线性,线性方程为ΔF=92.41X+123.31(R²=0.9989),检出限为16μg/L,加标回收率为95.3%~104.4%,RSD<3.8%。以鸡毛为原料制备的高选择性和灵敏性的荧光"关-开"探针方法可有效检测实际样品中的百草枯。     

微波一步法制备氮掺杂碳点及其用于多巴胺的检测研究

以柠檬酸为碳源,尿素为氮源,采用微波一步法制备得到稳定性高,水溶性好的蓝色荧光的氮掺杂碳点。并将该氮掺杂碳点经透射电子显微镜(TEM)、原子力显微镜(AFM)、X-射线光电子能谱(XPS)和红外光谱(IR)表征,发现其粒径为0.5～5 nm,平均粒径2.6 nm,富含羟基、羧基和氨基等官能团。在优化实验条件下,多巴胺浓度在2.5～37.5μmol/L范围内与N-CDs的荧光猝灭效率(I_F/I_(F0))呈良好的线性关系,方法的检出限为0.08μmol/L。采用该方法对正常人尿液中的多巴胺进行测定,其加标回收率为99.5%～106%,RSD为1.8%～2.3%,方法准确度高,结果满意。     

溶剂热插层法制备荧光石墨相氮化碳量子点及其在Fe3+检测中的应用

利用溶剂热法, 基于氢氧化钾的插层作用制备了荧光氮化碳量子点(g-C₃N₄ QDs). 所获得的氮化碳量子点具有良好的水溶性和荧光稳定性. 透射电子显微镜(TEM)照片显示, 氮化碳量子点的粒径约为2.3 nm; X射线光电子能谱(XPS)和红外光谱(FTIR)结果表明, 氮化碳量子点表面存在大量的亲水基团; 荧光发射光谱(PL)结果表明, 氮化碳量子点具有激发波长依赖性. 基于三价铁离子(Fe³⁺)对荧光氮化碳量子点荧光的猝灭现象, 构建了一种用于检测Fe³⁺的荧光传感器, 在Fe³⁺浓度为5~100 μmol/L范围内, 检测体系表现出良好的线性关系, 检出限约为0.5 μmol/L, 实现了对Fe³⁺的高效、 灵敏、 选择性检测.     

枫树叶荧光碳量子点的合成及其传感性能研究

以枫树叶为原料,硼氢化钠为还原剂,利用水热法合成了一种新型的荧光碳量子点CQDs-fsy。利用XRD,TEM和FT-IR对碳量子点的结构进行了表征,利用紫外和荧光光谱仪研究了该碳量子点的光学性质,该荧光碳点的荧光量子产率为5.60%,最大激发波长为348nm,最大发射波长为428 nm。该碳点具有规则的球形分散结构;平均粒径为5~10 nm;表面富含羧基,氨基和羟基官能团;该碳点在水溶液中对Hg~(2+)具有专一识别能力,线性范围为5.00×10~(-7)~1.55×10~(-5)mol/L,线性方程为y=-10.37 x+337.24,R~2=0.996,检出限为2.01×10~(-8)mol/L。     

红枣碳量子点荧光探针的制备及对食品中赖氨酸的检测

以红枣为原料,采用热解法制备了荧光碳量子点(CDs),加入表面活性剂增加了CDs的稳定性。用荧光表征CDs的光学性质,透射电镜观察了CDs的外貌特征。结果表明:荧光激发和发射波长分别为335nm/435nm,荧光量子产率为0. 81,碳点平均直径为3. 1nm,由于赖氨酸对碳量子点的荧光具有增敏作用,可以用于食品中L赖氨酸(L-lys)的分析检测。在p H大于7. 6、25℃条件下,L-lys的加入量与(CDs)荧光强度的增加成正比,其线性回归方程为△F=104. 8C-23. 1(C:μmol·L-1)线性范围为10～0. 4μmol·L-1,r=0. 9959,标准偏差为1. 36,检出限3. 9×10-8mol·L-1,该方法简单、准确、选择性好,适用于食品中L-Lys的检测。     

玛卡荧光碳点的合成及用于苦味酸的荧光检测

以玛卡为碳源,采用水热法制备荧光碳点。碳点水溶液在激发波长为315 nm时,最大荧光发射波长为425 nm。在玛卡荧光碳点的磷酸盐缓冲液(0.2 mol/L,pH 5.8)中,加入苦味酸,其荧光被猝灭,基于此建立了以玛卡荧光碳点为荧光探针测定苦味酸的方法。本方法检测苦味酸的线性范围为0.4~80 mmol/L,相关系数为0.9978,检出限为110 nmol/L(S/N=3),本方法线性范围宽、灵敏度高、响应快(2 min内),选择性和抗干扰能力良好。用于实际水样中苦味酸的检测,加标回收率为92.0%~110.0%,结果令人满意。     

New fluorimetric determination of hemoglobin used as a substitute of mimietic peroxidase

Hemoglobin (Hb) could be used as a substitute of peroxidase in the catalytic oxidation of tetra-substituted amino aluminum phthalocyanine (TAA1Pc) by H2O2. We found that the fluorescence of TAA1Pc (a red-region fluorescent dye with a maximum excitation wavelength at 606 nm and a maximum emission wavelength at 673 nm) could significantly be quenched by H2O2 in the presence of Hb. The value of F0/F (where the relative fluorescence intensity of blank solution and that of the sample solution containing Hb were given by F0 and F, respectively) is linearly related to the concentration of Hb. Based on this, a novel fluorimetric method was developed for the determination of Hb in aqueous solution. Under optimal conditions, Hb could be determined in the concentration range of 5 x 10(-11) - 12 x 10(-8) mol L(-1) with a detection limit of 1.5 x10(-11) mol L(-1). The relative standard deviation of ten replicate measurements was 1.95% for solution containing 1 x10(-9 ) mol L(-1) Hb. The proposed method has been applied to the analysis of Hb in human blood and the results were in good agreement with those reported by a hospital laboratory. So this is a new, high sensitive and precise fluorescence quenching method to determine Hb.     

硫酰杯[4]芳烃羧酸类衍生物及其配合物的合成、晶体结构与表征

合成了5,11,17,23-四叔丁基-25,26,27-三[(乙酯基)甲氧基]-2,8,14,20-四硫酰杯[4]芳烃(L1)和5,11,17,23-四叔丁基-25,26,27-三(氧基乙酸)-2,8,14,20-四硫酰杯[4]芳烃(L2)及L2的稀土配合物, 采用元素分析、紫外光谱、红外光谱和1H NMR对其结构进行了表征. 用SMART 1000 CCD X射线衍射仪测定了L1的晶体结构. 结果表明, L1组成为: C52H65KO18S4·0.5H2O, 属三斜晶系, P1空间群, 晶胞参数a=1.2607(6) nm, b=1.5820(8) nm, c=1.6480(8) nm; α=83.720(8)°, β=69.327(8)°, γ=79.342(9)°, Z=2, V=3.019(3) nm3, Dc=1.270 g/cm3, F(000)=1218, μ=0.293 mm-1, R1=0.0937, wR2=0.2580. 杯芳烃分子采取部分锥式构象.     

柔性环己烷六酸和刚性草酸配体桥连的稀土配位聚合物的水热合成与结构研究

草酸铽与水合环己烷六酸(H6LⅠ.H2O)(顺式椅式构型LⅠ:a,e,a,e,a,e)在水热条件下反应生成一种新颖的三维稀土配位聚合物[Tb4(LⅡ)(ox)3(H2O)8](LⅡ为反式椅式构型:e,e,e,e,e,e;ox为草酸根),通过元素分析和红外光谱对这个配位聚合物进行了表征。X射线单晶衍射分析表明该配合物属于三斜晶系,P1空间群,晶胞参数为:a=0.60203(4)nm,b=1.08278(8)nm,c=1.29446(9)nm,α=67.908 0(10)°,β=82.109 0(10)°,γ=83.887 0(10)°,V=0.773 07(9)nm3,Z=2。在这个配合物的形成中,顺式构型的H6LⅠ配体发生构型转变形成LⅡ配体,LⅡ配体采取μ8-桥连模式将Tb离子连接成一个具有孔洞的二维(Tb-LⅡ)配位层。由μ2-和μ4-桥连模式构成的一维(Tb-ox)链将二维(Tb-LⅡ)层连接成一个具有孔道的三维配位框架,ox配体和水分子通过配位作用和氢键作用填充在孔道中。     

Direct Electrochemistry and Electrocatalysis of Hemoglobin at PAMAM Dendrimer-MWNTs-Au Nanoparticles Composite Film Modified Glassy Carbon Electrode

The direct electron transfer of hemoglobin at the PAMAM-MWNTs-AuNPs composite film modified glassy carbon electrode was studied. In a phosphate buffer solution(PBS, pH=7.0), the formal potential(E 0' ) of Hb was –0.105 V versus SCE, the electron transfer rate constant was 4.66 s –1 . E 0′ of Hb at the modified electrode was linearly varied in a pH range of 5.0—8.0 with a slope of –49.2 mV/pH. The Hb/PAMAM-MWNTs-AuNPs/GCE gave an ex-cellent electrocatalytic response to the reduction of hydrogen peroxide. The catalytic current increased linearly with H 2 O 2 concentration in a range of 1.0×10 ?6 to 2.2×10 ?3 mol/L. The detection limit was 2.0×10 ?7 mol/L at a signal to noise ratio of 3. The Michaelis-Menten constant(K ma pp ) was 2.95 mmol/L.     

Preparation of poly(vinylpyrrolidone)-protected Prussian blue nanoparticles-modified electrode and its electrocatalytic reduction for hemoglobin

In this paper, a novel modified electrode was developed by using highly dispersed Prussian blue (PB) nanoparticles protected by poly(vinylpyrrolidone) (PVP). The size of the nanoparticles was controlled through adjusting the feed ratio of PVP/Fe²⁺. Physical characteristics of the nanocomposite were studied by transmission electron microscopy (TEM), UV-vis, IR spectroscopy, and X-ray powder diffraction (XRPD) analysis. The electrocatalytic reduction of hemoglobin (Hb) at PVP-protected PB nanoparticles (PVP/PB NPs)-modified electrode had been investigated. In addition, the size effects and biocompatibility of PVP/PB NPs for the electrochemistry of Hb were also observed. Experimental results indicated that the reduction peak currents of Hb were linear with its concentrations over the range from 1.0 × 10⁻⁷ to 1.2 × 10⁻⁵ mol/L and the calculated detection limit (S/N = 3) was 4.0 × 10⁻⁸ mol/L.     

纳米CoHCF修饰电极的制备及其对血红蛋白的电化学测定研究

A cobalt hexacyanoferrate （CoHCF） nanoparticle （size ca. 60 nm） chemically modified electrode （CME） was fabricated and the electrochemical behavior of hemoglobin （Hb） at this nanosized CoHCF CME was studied. In comparison with a bare glassy carbon electrode （GCE） and a general CoHCF CME electrodeposited in a traditional manner, the present nanosized CoHCF CME performed efficiently electrocatalytic reduction for Hb with relatively high sensitivity, stability, and longlife, Combined with liquid chromatography （LC）, the nanosized CoHCF CME was used as the electrochemical detector of Hb in the established flow injection analysis-electrochemical determination （FIA-ECD） system. The peak current was a linear function of concentrations in the range from 2.5×10^-8 to 5.0×10^-6mol/L for Hb, with detection limit of 1.4×10^-8 mol/L. The FIA-ECD system has been successfully applied to assess the Hb content of clinic blood samples with advantages of sensitiveness, speediness, easy control and small sample-consumption.     

有序中孔炭/四氧化三铁复合材料的制备及其用于血红蛋白的电化学研究

采用微湿含浸法制备了有序中孔炭/四氧化三铁磁性材料.采用透射电镜和X射线衍射对复合材料进行了表征.将血红蛋白(Hb)固定于材料表面,对其直接电化学行为进行了研究,结果表明Hb在该材料内仍保持了其生物活性,在pH=7.0的PBS缓冲液中,血红蛋白表现出一对峰形良好的准可逆氧化还原峰,为Hb的Fe(Ⅲ)/Fe(Ⅱ)电对的特征峰,求出式电位E0’为-0.306 V,电子转移数为n=1.226,电荷传递系数为α=0.51,表观异相电子转移速率常数为KS=0.0144s-1.在3.00×10-6到1.50×10-4mol/L浓度范围内,血红蛋白的浓度与其响应电流呈良好的线性关系,线性相关系数为R=0.9924,最低检测限为0.270×10-6mol/L.     

Encapsulation of Hb into unsaturated lipid vesicles and γ-ray polymerization

A carbonyl hemoglobin (HbCO) solution was stirred with a mixed powder of polymerizable 1,2-bis(2,4-octadecadienoyl)-sn-glycero-3-phosphocholine (DODPC), cholesterol and stearic acid (7/7/2 by mol). The mixture was extruded through polycarbonate membrane filters (final pore size = 0.2 μm Ø). The average diameter of the resulting vesicles was 203 ± 39 nm. The [Hb]/[Lipid] ratio (the weight ratio of Hb in vesicle to lipid) increased with the Hb concentration, and decreased with the NaCl concentration. A maximum [Hb]/[lipid] ratio was observed at pH 6.9, which was the same as the isoelectric point of Hb. The vesicles were stabilized by γ-irradiation (⁶⁰Co) because the bilayer lipids bound each other to yield polyphospholipids. Denaturation of Hb by γ-irradiation was not detected. These polyphospholipid vesicles encapsulating Hb were stable even against the freeze–thaw cycles and the freeze-drying procedure.     

基质与样品的相互作用对于傅立叶变换离子回旋共振质谱测定低分子量多肽的影响

通过比较两种极性差异较大的基质2,5-二羟基苯甲酸(DHB)和2’,6’-二羟基苯乙酮(DHAP)按不同比例混合时,AngiotensinⅡ的基质辅助激光解析电离-傅立叶变换离子回旋共振质谱(MALDI-FT/ICRMS)谱图的不同,并结合基质-AngiotensinⅡ在不同结晶方式下的共结晶和基质晶体的扫描电镜照片,发现基质为10μmol/L DHB和15μmol/L DHAP以体积比4:1组成的混合物时,基质结晶为致密的层状结构,而以薄层法与AngiotensinⅡ生成的共结晶,AngiotensinⅡ在基质晶体上面形成分散的柱状小晶体,此时得到的MALDI-FT/ICRMS质谱图优于干滴法。