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排序方式: 共有106条查询结果,搜索用时 15 毫秒
81.
Amperometric biosensor based on coentrapment of enzyme and mediator by gold nanoparticles on indium-tin oxide electrode 总被引:1,自引:0,他引:1
A disposable pseudo-mediatorless amperometric biosensor has been fabricated for the determination of hydrogen peroxide (H2O2). In the current study, an indium-tin oxide (ITO) electrode was modified with thiol functional group by (3-mercaptopropyl)trimethoxysilane. The stable nano-Au-SH monolayer (AuS) was then prepared through covalent linking of gold nanoparticles and thiol groups on the surface of the ITO. The horseradish peroxidase (HRP) and tetramethyl benzidine (TMB) were finally coentrapped by the colloidal gold nanoparticles. The immobilized TMB was used as an electron transfer mediator that displayed a surface-controlled electrode process at a scan rate of less than 50mV/s. The biosensor was characterized by photometric and electrochemical measurements. The results showed that the prepared AuS monolayer not only could steadily immobilize HRP but also could efficiently retain HRP bioactivity. Parameters affecting the performance of the biosensor, including the concentrations of the immobilized TMB and HRP, the pH value, and the reaction temperature, were optimized. Under the optimized experimental conditions, H(2)O(2) could be determined in a linear calibration range from 0.005 to 1.5mM with a correlation coefficient of 0.998 (n=14) and a detection limit of 1microM at a signal/noise ratio of 3. The proposed method provides a new alternative to develop low-cost biosensors by using ITO film electrodes from industrial mass production. 相似文献
82.
荔枝红色素分光光度法同时测定痕量价态锡 总被引:2,自引:0,他引:2
刘佳铭 《天然产物研究与开发》1999,11(5):42-45
本文基于常温盐酸介质中 Sn( )、Sn( )与荔枝红色素 ( R)均能瞬时形成于λmax=550 nm的玫瑰红色化合物 ,其吸光度有加合性以及游离 Sn( )和 Sn( )离子存在于 p H不同的特性 ,首次建立不同 p H下相同波长差减法测定痕量价态锡的新方法 ,其 ε=1.7~ 2 .0 (× 10 5) L· mol-1· cm-1,用于检测合成样及鱼制品中 Sn( )与 Sn( ) ,结果满意。 相似文献
83.
Laccase is a promising biocatalyst with many possible applications, including bioremediation, chemical synthesis, biobleaching of paper pulp, biosensing, textile finishing and wine stabilization. The immobilization of enzymes offers several improvements for enzyme applications because the storage and operational stabilities are frequently enhanced. Moreover, the reusability of immobilized enzymes represents a great advantage compared with free enzymes. In this work, we discuss the different methodologies of enzyme immobilization that have been reported for laccases, such as adsorption, entrapment, encapsulation, covalent binding and self-immobilization. The applications of laccase immobilized by the aforementioned methodologies are presented, paying special attention to recent approaches regarding environmental applications and electrobiochemistry. 相似文献
84.
Jifa Wu Feng Tang Shaoguang Wu Yumeng Li Liangang Xiao Xuhui Zhu Xiaobin Peng 《Liver Transplantation》2024,14(2):2302932
A small molecular phenanthroline derivative Phen-NaDPO (3-[6-(diphenylphosphinyl)-2-naphthalenyl]-1,10-Phenanthroline) to modify tin oxide (SnO2) electron-transport layer (ETL) in organic solar cells is employed. Quantum chemistry calculations and experimental results show that Phen-NaDPO can interact with SnO2, thereby effectively passivating the surface defects, reducing the work function and improving the electrical conductivity of SnO2, leading to more efficient electron extraction and transport in the organic solar cells (OSCs). Moreover, upon the Phen-NaDPO modification, the decreased surface energy of SnO2 ETL accounts for enhanced exciton dissociation and charge transport, due to the more ordered molecular organizations of the active layers. Consequently, the inverted OSCs involving Phen-NaDPO/SnO2 ETLs exhibit an enhanced power conversion efficiency of 17.06% (PM6:Y6) and 18.31% (PM6:L8-BO), which is the highest efficiency for SnO2 ETL-based binary solar cells to date. Furthermore, the devices based on Phen-NaDPO/SnO2 ETL show better device stability (storage stability, photostability and humid stability), with T80 exceeding 200 h encapsulated under light irradiation and 400 h without encapsulation in high-humidity ambient condition. These results demonstrate that the modification of SnO2 using wide-band highly stable conjugated small molecules is very promising for simultaneously improve the efficiencies and device stability of OSCs. 相似文献
85.
Bipasa Sarkar Babita Choudhury Moumita Sen Sarma S. K. Kamruddin Apurba Kumar Choudhury 《Archives Of Phytopathology And Plant Protection》2013,46(18):1754-1769
Three different types of eight organotin(IV) compounds (of which four were newly synthesised) were screened against Bipolaris sorokiniana. The new compounds were characterised by elemental, IR, 1H and 13C NMR spectral analyses. The experiments were carried out in the field and laboratory between the months of November 2006 to March 2007 and November 2007 to March 2008 at Uttar Banga Krishi Viswavidyalaya, Cooch Bihar, W.B., India. All of the organotin(IV) compounds were tested for the toxicity assay against Indian wheat (Triticum aestivum L.), cv. Sonalika. The spore germination and growth of B. sorokiniana and the biochemical changes associated with the induction of resistance by these chemicals were also tested. The influence of the organic groups (attached to tin atom) of the three different types of compounds studied on the fungicidal activity is remarkably distinct. Some of the compounds tested are more active in controlling the fungus than a commonly used commercial product. 相似文献
86.
Crystal structure of the eukaryotic light-driven proton-pumping rhodopsin, Acetabularia rhodopsin II, from marine alga 总被引:1,自引:0,他引:1
Wada T Shimono K Kikukawa T Hato M Shinya N Kim SY Kimura-Someya T Shirouzu M Tamogami J Miyauchi S Jung KH Kamo N Yokoyama S 《Journal of molecular biology》2011,411(5):986-8898
Acetabularia rhodopsin (AR) is a rhodopsin from the marine plant Acetabularia acetabulum. The opsin-encoding gene from A. acetabulum, ARII, was cloned and found to be novel but homologous to that reported previously. ARII is a light-driven proton pump, as demonstrated by the existence of a photo-induced current through Xenopus oocytes expressing ARII. The photochemical reaction of ARII prepared by cell-free protein synthesis was similar to that of bacteriorhodopsin (BR), except for the lack of light-dark adaptation and the different proton release and uptake sequence. The crystal structure determined at 3.2 Å resolution is the first structure of a eukaryotic member of the microbial rhodopsin family. The structure of ARII is similar to that of BR. From the cytoplasmic side to the extracellular side of the proton transfer pathway in ARII, Asp92, a Schiff base, Asp207, Asp81, Arg78, Glu199, and Ser189 are arranged in positions similar to those of the corresponding residues directly involved in proton transfer by BR. The side-chain carboxyl group of Asp92 appears to interact with the sulfhydryl group of Cys218, which is unique to ARII and corresponds to Leu223 of BR and to Asp217 of Anabaena sensory rhodopsin. The orientation of the Arg78 side chain is opposite to the corresponding Arg82 of BR. The putative absence of water molecules around Glu199 and Arg78 may disrupt the formation of the low-barrier hydrogen bond at Glu199, resulting in the “late proton release”. 相似文献
87.
Several new types of carriers and technologies have been implemented in the recent past to improve traditional enzyme immobilization which aimed to enhance enzyme loading, activity and stability to decrease the enzyme biocatalyst cost in industrial biotechnology. These include cross-linked enzyme aggregates, microwave-assisted immobilization, click chemistry technology, mesoporous supports and most recently nanoparticle-based immobilization of enzymes. The union of the specific physical, chemical, optical and electrical properties of nanoparticles with the specific recognition or catalytic properties of biomolecules has led to their appearance in myriad novel biotechnological applications. They have been applied time and again for immobilization of industrially important enzymes with improved characteristics. The high surface-to-volume ratio offered by nanoparticles resulted in the concentration of the immobilized entity being considerably higher than that afforded by experimental protocols based on immobilization on planar 2-D surfaces. Enzymes immobilized on nanoparticles showed a broader working pH and temperature range and higher thermal stability than the native enzymes. Compared with the conventional immobilization methods, nanoparticle based immobilization served three important features; (i) nano-enzyme particles are easy to synthesize in high solid content without using surfactants and toxic reagents, (ii) homogeneous and well defined core-shell nanoparticles with a thick enzyme shell can be obtained, and (iii) particle size can be conveniently tailored within utility limits. In addition, with the growing attention paid to cascade enzymatic reaction and in vitro synthetic biology, it is possible that co-immobilization of multi-enzymes could be achieved on these nanoparticles. 相似文献
88.
Xiaochuan Ren Zhiguo Ren Qingwei Li Wen Wen Xiaofang Li Ye Chen Lei Xie Liao Zhang Daming Zhu Biao Gao Paul K. Chu Kaifu Huo 《Liver Transplantation》2019,9(16)
Sodium‐ion capacitors (SICs) are emerging energy storage devices with high energy, high power, and durable life. Sn is a promising anode material for lithium storage, but the poor conductivity of the a‐NaSn phase upon sodaition hinders its implementation in SICs. Herein, a superior Sn‐based anode material consisting of plum pudding‐like Co2P/Sn yolk encapsulated with nitrogen‐doped carbon nanobox (Co2P/Sn@NC) for high‐performance SICs is reported. The 8–10 nm metallic nanoparticles produced in situ are uniformly dispersed in the amorphous Sn matrix serving as conductive fillers to facilitate electron transfer in spite of the formation of electrically resistive a‐NaSn phase during cycling. Meanwhile, the carbon shell buffers the large expansion of active Sn and provides a stable electrode–electrolyte interface. Owing to these merits, the yolk–shell Co2P/Sn@NC demonstrates a large capacity of 394 mA h g?1 at 100 mA g?1, high rate capability of 168 mA h g?1 at 5000 mA g?1, and excellent cyclability with 87% capacity retention after 10 000 cycles. By integrating the Co2P/Sn@NC anode with a peanut shell‐derived carbon cathode in the SIC, high energy densities of 112.3 and 43.7 Wh kg?1 at power densities of 100 and 10 000 W kg?1 are achieved. 相似文献
89.
High‐performance flexible batteries are promising energy storage devices for portable and wearable electronics. Currently, the major obstacle to develop flexible batteries is the shortage of flexible electrodes with excellent electrochemical performance. Another challenge is the limited progress in the flexible batteries beyond Li‐ion because of a safety concern for the Li‐based electrochemical system. In this work, a self‐supported tin sulfide (SnS) porous film (PF) is fabricated as a flexible cathode material in an Al‐ion battery, which delivers a high specific capacity of 406 mAh g?1. A capacity decay rate of 0.03% per cycle is achieved, indicating a good stability. The self‐supported and flexible SnS film also shows an outstanding electrochemical performance and stability during dynamic and static bending tests. In situ transmission electron microscopy demonstrates that the porous structure of SnS is beneficial for minimizing the volume expansion during charge/discharge. This leads to an improved structural stability and superior long‐term cyclability. 相似文献
90.
Hui-Yi Lin Shing-Chuan Shen Cheng-Wei Lin Yen-Chou Chen 《Chemico-biological interactions》2009,180(2):202-495
In the present study, low doses (0.5, 1, and 2 μM) of cobalt protoporphyrin (CoPP), but not ferric protoporphyrin (FePP) or tin protoporphyrin (SnPP), significantly inhibited lipopolysaccharide (LPS) or lipoteichoic acid (LTA)-induced inducible nitric oxide (iNOS) and nitric oxide (NO) production with an increase in heme oxygenase 1 (HO-1) protein in RAW264.7 macrophages under serum-free conditions. IC50 values of CoPP inhibition of NO and iNOS protein individually induced by LPS and LTA were around 0.25 and 1.7 μM, respectively. This suggests that CoPP is more sensitive at inhibiting NO production than iNOS protein in response to separate LPS and LTA stimulation. NO inhibition and HO-1 induction by CoPP were blocked by the separate addition of fetal bovine serum (FBS) and bovine serum albumin (BSA). Decreasing iNOS/NO production and increasing HO-1 protein by CoPP were observed with CoPP pretreatment, CoPP co-treatment, and CoPP post-treatment with LPS and LTA stimulation. LPS- and LTA-induced NOS/NO productions were significantly suppressed by the JNK inhibitor, SP600125, but not by the ERK inhibitor, PD98059, through a reduction in JNK protein phosphorylation. Transfection of a dominant negative JNK plasmid inhibited LPS- and LTA-induced iNOS/NO production and JNK protein phosphorylation, suggesting that JNK activation is involved in LPS- and LTA-induced iNOS/NO production. Additionally, CoPP inhibition of LPS- and LTA-induced JNK, but not ERK, protein phosphorylation was identified in RAW264.7 cells. Furthermore, CoPP significantly reduced NO production in a cell-mediated, but not cell-free, iNOS enzyme activity assay accompanied by HO-1 induction. However, attenuation of HO-1 protein stimulated by CoPP via transfection of HO-1 siRNA did not affect NO's inhibition of CoPP against LPS stimulation. CoPP effectively suppressing LPS- and LTA-induced iNOS/NO production through blocking JNK activation and iNOS enzyme activity via a HO-1 independent manner is first demonstrated herein. 相似文献