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Investigating Nanoparticle Aggregation Dynamics In A Magnetic Fluid By Sls And Dls
Dan Chicea
[Abstract] [FULL-TEXT INQUIRY] [BSP/CNANO/E-Pub/00001]


Preparation of Ag Nanoparticle-Decorated Poly(p-phenylenediamine) Microfibrils and Their Application for Enzymeless H₂O₂ Detection
Wenbo Lu, Fang Liao, Yonglan Luo, Guohui Chang and Xuping Sun
[Abstract] [FULL-TEXT INQUIRY] [BSP/CNANO/E-Pub/00002]


Multifunctional Targeted Radiotherapy Systemfor Induced Tumours Expressing Gastrin-Releasingpeptidereceptors
Nallely JIMENEZ-MANCILLA, Guillermina FERRO-FLORES, Blanca OCAMPO-GARCIA,
Myrna LUNA-GUTIERREZ, Flor de Maria RAMIREZ, Martha PEDRAZA-LOPEZ and
Eugenio TORRES-GARCIA
[Abstract] [FULL-TEXT INQUIRY] [BSP/CNANO/E-Pub/00003]


Thermodynamic models for the size-dependent melting of nanoparticles: different hypotheses
Gopal Krishna Goswami and Karuna Kar Nanda
[Abstract] [FULL-TEXT INQUIRY] [BSP/CNANO/E-Pub/00004]


Synthesis and Characterization of Nano Heat Transfer Fluid (NHTF)
Syed Tajammul Hussain, Muhammad Adnan Saqlain and Muhammad Siddiq
[Abstract] [FULL-TEXT INQUIRY] [BSP/CNANO/E-Pub/00005]


Supramolecular microfibrils of o-phenylenediamine dimers: Oxidation-induced formation of Au nanoparticle-decorated nanoplates for H₂O₂ detection
Wenbo Lu, Yonglan Luo, Guohui Chang and Xuping Sun
[Abstract] [FULL-TEXT INQUIRY] [BSP/CNANO/E-Pub/00006]


Antibacterial Activity of Silver Nano Particles Synthesized by Arachis hypogaea L. Leaf Extract and its Nano Coating on Glass Substrate
M. HariPrasad, D. Kalpana  and Dr. N. Jaya Kumar
[Abstract] [FULL-TEXT INQUIRY] [BSP/CNANO/E-Pub/00007]


A novel approach for aerobic construction of iron oxide nanoparticles by Acinetobacter radioresistens and their effects on Red blood cells
Mona Yaaghoobi, Giti Emtiazi and Rasoul Roghanian
[Abstract] [FULL-TEXT INQUIRY] [BSP/CNANO/E-Pub/00008]


A New Antitumor Agent, (3-chloro-7-methoxyfuro[2,3-b]-quinolin-4-yl)-(4-methoxyphenyl)amine, Loaded in Solid Lipid Nanoparticles: Characterization and Pharmacokinetics
Yi-Ping Fang, Cherng-Chyi Tzeng, Yeh-Long Chen, Pao-Chu Wu, Huei-Lan Lin and Yi-Hung Tsai
[Abstract] [FULL-TEXT INQUIRY] [BSP/CNANO/E-Pub/00009]


Synthesis of Mn₃O₃ nanoparticles with controlled morphology using ionic liquid and their catalysis of hydrocarbon oxidation
Jafar Akbari and Akbar Heydari
[Abstract] [FULL-TEXT INQUIRY] [BSP/CNANO/E-Pub/00010]


Multi-walled Carbon Nanotubes Film Sensor for Carbon Mono-oxide Gas
Zishan H. Khan, Numan A. Salah, Sami Habib, A. Azam and M. S. Shahawi
[Abstract] [FULL-TEXT INQUIRY] [BSP/CNANO/E-Pub/00011]


Fabrication and photoluminescence of hierarchical SiC nanowires
Jianjun Chen, Qiang Shi, Lipeng Xin, Yang Liu and Weihua Tang
[Abstract] [FULL-TEXT INQUIRY] [BSP/CNANO/E-Pub/00012]


One-pot Synthesis of Superparamagnetic Polyaniline Microtubes and Magnetite Nanoparticles via Self-Assembly method
K. Basavaiah and A.V. Prasada Rao
[Abstract] [FULL-TEXT INQUIRY] [BSP/CNANO/E-Pub/00013]


Investigating Nanoparticle Aggregation Dynamics In A Magnetic Fluid By Sls And Dls
Dan Chicea
[Abstract] [FULL-TEXT INQUIRY] [BSP/CNANO/E-Pub/00014]


Fabrication and photoluminescence of hierarchical SiC nanowires
Jianjun Chen, Qiang Shi, Lipeng Xin, Yang Liu and Weihua Tang
[Abstract] [FULL-TEXT INQUIRY] [BSP/CNANO/E-Pub/00015]


Antibacterial Activity of Silver Nano Particles Synthesized by Arachis hypogaea L. Leaf Extract and its Nano Coating on Glass Substrate
M. HariPrasad, D. Kalpana  and Dr. N. Jaya Kumar
[Abstract] [FULL-TEXT INQUIRY] [BSP/CNANO/E-Pub/00016]


The Synthesis and Evaluation of Novel Lactate Dehydrogenase Nanobioconjugates
Samina Nazir, Tajammul Hussain, Salman Akbar Malik and Ayesha Younus
[Abstract] [FULL-TEXT INQUIRY] [BSP/CNANO/E-Pub/00017]


Effect of Bovine Serum Albumin on the Stability of Bicalutamide-Encapsulated Lipid Nano-Emulsion in Bovine Serum
Shigehiko Takegami, Shoko Uchida, Eriko Aoi, Takumi Yamamoto, Aki Yasuhara, Madoka Fujihara, Kaori Hayashi and Tatsuya Kitade
[Abstract] [FULL-TEXT INQUIRY] [BSP/CNANO/E-Pub/00018]


Supramolecular microfibrils of o-phenylenediamine dimers: Oxidation-induced formation of Au nanoparticle-decorated nanoplates for H₂O₂ detection
Wenbo Lu, Yonglan Luo, Guohui Chang and Xuping Sun
[Abstract] [FULL-TEXT INQUIRY] [BSP/CNANO/E-Pub/00019]


Single-stranded DNA-based immobilization of Ag nanoparticles for enzymeless H2O2 detection
Guohui Chang, Yonglan Luo, Wenbo Lu, Xiaoyun Qin, Fang Liao, Abdullah M. Asiri, Abdulrahman O. Al-Youbi and Xuping Sun
[Abstract] [FULL-TEXT INQUIRY] [BSP/CNANO/E-Pub/00020]


Microwave and magnetic analysis of substituted SrFe12O19/ multi-walled carbon nanotubes
Mahboubeh Asghari, Ali Ghasemi and Ebrahim Paimozed
[Abstract] [FULL-TEXT INQUIRY] [BSP/CNANO/E-Pub/00021]


Thermodynamic models for the size-dependent melting of nanoparticles: different hypotheses
Gopal Krishna Goswami and Karuna Kar Nanda
[Abstract] [FULL-TEXT INQUIRY] [BSP/CNANO/E-Pub/00022]


Synthesis and Characterization of Nano Heat Transfer Fluid (NHTF)
Syed Tajammul Hussain, Muhammad Adnan Saqlain and Muhammad Siddiq
[Abstract] [FULL-TEXT INQUIRY] [BSP/CNANO/E-Pub/00023]


Simulation of dye-sensitized solar cells based on a population dynamics model
Ioannis G. Karafyllidis and Nikolaos Georgoulas
[Abstract] [FULL-TEXT INQUIRY] [BSP/CNANO/E-Pub/00024]


Multi-walled Carbon Nanotubes Film Sensor for Carbon Mono-oxide Gas
Zishan H. Khan, Numan A. Salah, Sami Habib, A. Azam and M. S. Shahawi
[Abstract] [FULL-TEXT INQUIRY] [BSP/CNANO/E-Pub/00025]


LiFePO₄/C Microspheres with Nano-micro Structure, Prepared by Spray Drying Method Assisted with PVA as Template
Quanbing Liu, Shijun Liao, Huiyu Song and Jianhuang Zeng
[Abstract] [FULL-TEXT INQUIRY] [BSP/CNANO/E-Pub/00026]


Structural parameters for nanocylinder microdomains of polystyrene-polybutadiene-polystyrene triblock copolymer and its blends with polystyrene homopolymer
Dong Sik Park and Erol Sancaktar
[Abstract] [FULL-TEXT INQUIRY] [BSP/CNANO/E-Pub/00027]


Folate targeted solid lipid nanoparticles of simvastatin for enhanced cytotoxic effects of doxorubicin in chronic myeloid leukemia
J. Varshosaz, F. Hassanzadeh, H. Sadeghi and M. Shakery
[Abstract] [FULL-TEXT INQUIRY] [BSP/CNANO/E-Pub/00028]


A novel approach for aerobic construction of iron oxide nanoparticles by Acinetobacter radioresistens and their effects on Red blood cells
Mona Yaaghoobi, Giti Emtiazi and Rasoul Roghanian
[Abstract] [FULL-TEXT INQUIRY] [BSP/CNANO/E-Pub/00029]


Synthesis and Surface Functionalization of Water-soluble Quantum Dots
Sonia Bailon-Ruiz, Luis Alamo-Nole and Oscar Perales-Perez
[Abstract] [FULL-TEXT INQUIRY] [BSP/CNANO/E-Pub/00030]


Multifunctional targeted radiotherapy systemfor induced tumours expressing gastrin-releasing peptide receptors
Nallely jimenez-mancilla, guillermina ferro-flores, blanca ocampo-garcia, myrna luna-gutierrez, flor de maria ramirez, martha pedraza-lopez and eugenio torres-garcia
[Abstract] [FULL-TEXT INQUIRY] [BSP/CNANO/E-Pub/00031]


A New Antitumor Agent, (3-chloro-7-methoxyfuro[2,3-b]-quinolin-4-yl)-(4 methoxyphenyl)amine, Loaded in Solid Lipid Nanoparticles: Characterization and Pharmacokinetics
Yi-Ping Fang, Cherng-Chyi Tzeng, Yeh-Long Chen, Pao-Chu Wu, Huei-Lan Lin and Yi-Hung Tsai
[Abstract] [FULL-TEXT INQUIRY] [BSP/CNANO/E-Pub/00032]



Abstracts


Investigating Nanoparticle Aggregation Dynamics In A Magnetic Fluid By Sls And Dls
Dan Chicea
[BSP/CNANO/E-Pub/00001]

Magnetite nanoparticles in aqueous suspensions are not stable but aggregate, thus tremendously changing the rheological properties of the nanofluid. Modified versions of both the SLS setup and of the DLS setup experiment were used to monitor Fe₃O₄ nanoparticle aggregation in aqueous diluted suspension. The experimental setup and the data processing procedures are described in detail and the variation of the average aggregate diameter in time is presented in this work.
[Back to top]


Preparation of Ag Nanoparticle-Decorated Poly(p-phenylenediamine) Microfibrils and Their Application for Enzymeless H₂O₂ Detection
Wenbo Lu, Fang Liao, Yonglan Luo, Guohui Chang and Xuping Sun
[FULL-TEXT INQUIRY] [BSP/CNANO/E-Pub/00002]

The chemical oxidative polymerization of p-phenylenediamine (PPD) by ammonium persulfate (APS) at room temperature leads to poly(p-phenylenediamine) (PPPD) microfibrils. The subsequent treatment of such microfibrils with an AgNO₃ aqueous solution results in the formation of Ag nanoparticle (AgNP)-decorated PPPD Microfibrils (AgNP-PPPD). It suggests that the AgNPs thus formed exhibit remarkable catalytic performance toward H₂O₂ reduction. The enzymeless H₂O₂ sensor constructed with such composites shows a fast amperometric response time of less than 5 s. The linear range and detection limit are from 0.1 to 70 mM (r=0.997) and 30 μM at a signal-to-noise ratio of 3, respectively.
[Back to top]


Multifunctional Targeted Radiotherapy Systemfor Induced Tumours Expressing Gastrin-Releasingpeptidereceptors
Nallely JIMENEZ-MANCILLA, Guillermina FERRO-FLORES, Blanca OCAMPO-GARCIA, Myrna LUNA-GUTIERREZ, Flor de Maria RAMIREZ, Martha PEDRAZA-LOPEZ and Eugenio TORRES-GARCIA
[FULL-TEXT INQUIRY] [BSP/CNANO/E-Pub/00003]

The gastrin-releasingpeptide receptor (GRP-r)is overexpressed in breast and prostate cancer, and Lys³-bombesin is a peptide that binds with high affinity to the GRP-r. HIV Tat(49-57) is a cell-penetrating peptide that reaches the DNA.In cancer cells,¹⁷⁷Lu shows efficient crossfire effect, while^99mTc that is internalised to cancer cell nuclei acts as an effective system of targeted radiotherapy because ofthe Auger and IC electron emissions near the DNA. The aim of this research was to prepare a multifunctional system of ¹⁷⁷Lu-and ^99mTc-labelled gold nanoparticles (AuNPs) that were conjugated to Tat(49‑57)-Lys³‑bombesin (Tat-BN) and to evaluate the radiation absorbed dose toGRP receptor-positive PC3 tumours that were induced in mice. Cys-Gly-Cys-Tat-BN (CGC-Tat-BN), 1,4,7,10-tetraazacyclododecane-N',N",N"'-tetraacetic-Gly-Gly-Cys (DOTA-GGC)andhydrazinonicotinyl-Phe-Cys-Phe-Trp-Lys-Thr-Cys-Thr‑ol (HYNIC-TOC) peptides were conjugated to AuNPs to prepare a multifunctional system by means of a spontaneous reaction of the thiol groups of cysteine. TEM, UV-Vis, XPS and Far-IR spectroscopy techniques demonstrated that AuNPs were functionalised with peptides through interactions with the-SHgroups. The99mTc labelling was performed via the HYNIC-TOC ligand, and the ¹⁷⁷Lu labellingwas performed through DOTA-GGC. The radiochemical puritywas 96 ± 2%. The ¹⁷⁷Lu‑absorbed doseper injected activity that wasdelivered to the PC3 tumours was 7.9 Gy/MBq, and the ^99mTc‑absorbed dose that was delivered to the nuclei was 0.53 Gy/MBq. The ¹⁷⁷Lu/^99m Tc-AuNP-Tat-BN system showed properties suitable for a targeted radionuclide therapy of tumours expressing GRPreceptors due to the energy deposition from β-emissions and the Auger and IC electron emissions near the DNA.
[Back to top]


Thermodynamic models for the size-dependent melting of nanoparticles: different hypotheses
Gopal Krishna Goswami and Karuna Kar Nanda
[FULL-TEXT INQUIRY] [BSP/CNANO/E-Pub/00004]

A careful comparison of the experimental results reported in the literature reveals different variations of the melting temperature even for the same materials. Though there are different theoretical models, thermodynamic model has been extensively used to understand different variations of size-dependent melting of nanoparticles. There are different hypotheses such as homogeneous melting (HMH), liquid nucleation and growth (LNG) and liquid skin melting (LSM) to resolve different variations of melting temperature as reported in the literature. HMH and LNG account for the linear variation where as LSM is applied to understand the nonlinear behaviour in the plot of melting temperature against reciprocal of particle size. However, a bird’s eye view reveals that either HMH or LSM has been extensively used by experimentalists. It has also been observed that not a single hypothesis can explain the size-dependent melting in the complete range. Therefore we describe an approach which can predict the plausible hypothesis for a given data set of the size-dependent melting temperature. A variety of data have been analyzed to ascertain the hypothesis and to test the approach.
[Back to top]


Synthesis and Characterization of Nano Heat Transfer Fluid (NHTF)
Syed Tajammul Hussain, Muhammad Adnan Saqlain and Muhammad Siddiq
[FULL-TEXT INQUIRY] [BSP/CNANO/E-Pub/00005]

This paper describes a nano-heat transfer fluid (NHTF) consisting of a novel mixture of alkali metal nitrate salt eutectic doped with silica nanoparticles at 0.5% mass concentration with a low melting point, high thermal stability and high specific heat capacity. These properties produce a wide operating range Heat Transfer Fluid and enable effective thermal storage for parabolic trough concentrating solar power plants as compared to present molten salt heat transfer fluids that usually has a high melting point, typically 220°C or higher. This limits its use due to the risk of freezing. The advanced NHTF exploits eutectic behavior with a novel composition of materials and nanoparticles, resulting in a low melting point of 120 °C, a thermal stability limit over 500 °C and an increase in Specific Heat Capacity owing to the presence of suspended silica nanoparicles.
[Back to top]


Supramolecular microfibrils of o-phenylenediamine dimers: Oxidation-induced formation of Au nanoparticle-decorated nanoplates for H₂O₂ detection
Wenbo Lu, Yonglan Luo, Guohui Chang and Xuping Sun
[FULL-TEXT INQUIRY] [BSP/CNANO/E-Pub/00006]

The direct mix of aqueous FeCl₃ and o-phenylenediamine (OPD) solutions at room temperature leads to supramolecular microfibrils of OPD dimers generated by the oxidation of OPD monomers by FeCl₃. In this paper, we demonstrate that the subsequent treatment of such microfibrils with a HAuCl₄ aqueous solution leads to Au nanoparticle (AuNP)-decorated nanoplates. The possible formation mechanism involved is also discussed. It is found that such nanocomposites can effectively catalyze both oxidization and reduction of H₂O₂. The sensor constructed with these nanocomposites exhibits a fast amperometric response time of less than 4 s. The linear detection range is estimated to be from 100 μM to 170 mM (r=0.997), and the detection limit is estimated to be 8 μM at a signal-to-noise ratio of 3.
[Back to top]


Antibacterial Activity of Silver Nano Particles Synthesized by Arachis hypogaea L. Leaf Extract and its Nano Coating on Glass Substrate
M. HariPrasad, D. Kalpana  and Dr. N. Jaya Kumar
[FULL-TEXT INQUIRY] [BSP/CNANO/E-Pub/00007]

Green synthesis of metal nano particles is an emerging branch of nanotechnology, very cost effective, eco-friendly, thus can be an economic and efficient alternative for the large-scale synthesis of nano particles. This studies focuses on the bio synthesis property of Peanut (Arachis hypogaea L.) leaf extract in the synthesis of silver nano particles at room temperature without using any harmful reducing agents and its antibacterial activity. Characterization of synthesized silver nano particles was made using UV-Vis, SEM, XRD and FT-IR studies. The average particle sizes ranged from 7 - 8nm.Synthesised silver nano particles were made a coating on glass substrates and morphological properties were characterized by SEM. Antibacterial activity of silver nano particles were analyzed with various pathogens like Klebsiella pneumoniae, Pseudomonas sp, proteus sp and Escherichia coli. Agriculture wastes of its leaves were utilized in synthesis of silver nano particles. Our results suggest that Arachis hypogaea L. mediated silver nano particles that could act as an effective antibacterial agent in development of antibacterial control systems in water treatment, medicine and industries in future. Silver nano coating on the different glass substrate possess different colour & morphological property could support the modern coating techniques in the industries.
[Back to top]


A novel approach for aerobic construction of iron oxide nanoparticles by Acinetobacter radioresistens and their effects on Red blood cells
Mona Yaaghoobi, Giti Emtiazi and Rasoul Roghanian
[FULL-TEXT INQUIRY] [BSP/CNANO/E-Pub/00008]

Magnetic iron oxide nanoparticles (MION) with unique surface properties have been widely used in various fields of sciences such as biomedicine. In addition to complicated chemical methods of iron oxide nanoparticles synthesis, there are great concerns regarding their application in vivo. The aims of this study were to investigate both the biologic synthesis of iron nanoparticles and toxic effects of MIONs on red blood cells from healthy and thalassemic blood donors. A Gram negative bacterium was isolated from iron enriched media and was identified as an Acinetobacter radioresistens strain by 16s RNA sequencing. The FTIR, SEM-EDX and XRD analysis results showed that the isolate could synthesize MIONs (≤ 104 nm) in filter sterilized iron enriched media (media with high iron ions) under strict aerobic condition. Further, our results indicated that although none of bacterial or artificial nanoparticles are toxic to Gram positive or negative bacteria but depending of their size and concentration could cause lysis in red blood cells (RBC) and as well as white blood cells (WBC). Toxicity of commercial and bacterial MIONs on peripheral blood cells was evaluated by monitoring hemagglutination, hemolysis and morphological changes. Our data also indicated while lysis occurs in low concentration of nanoparticles but severe hemagglutination is seen in samples treated with commercial nanoparticles (8 nm) beginning at 50μg/mL. The rate of hemolysis and morphological changes was intensified by increasing the concentrations of MIONs. In contrast, the bacterial MIONs did not induce any morphological changes on peripheral blood cells. To our knowledge, this is the first report about construction of nontoxic MIONs by Acinetobacter radioresistens.
[Back to top]


A New Antitumor Agent, (3-chloro-7-methoxyfuro[2,3-b]-quinolin-4-yl)-(4-methoxyphenyl)amine, Loaded in Solid Lipid Nanoparticles: Characterization and Pharmacokinetics
Yi-Ping Fang, Cherng-Chyi Tzeng, Yeh-Long Chen, Pao-Chu Wu, Huei-Lan Lin and Yi-Hung Tsai
[FULL-TEXT INQUIRY] [BSP/CNANO/E-Pub/00009]

(3-Chloro-7-methoxyfuro[2,3-b]-quinolin-4-yl)-(4-methoxyphenyl)amine (CYL), a chemotherapeutic agent, is an analogue of amsacrine. The water insolubility of CYL limits its delivery and thus its application. The aim of the study was to utilize solid lipid nanoparticles (SLNs) to improve the delivery of CYL, and investigate its biodistribution behavior in an animal model. Characterizations of SLNs were evaluated including the particle size, zeta potential and entrapment efficiency. An in vivo study was used to investigate the pharmacokinetics and biodistribution behaviors. We established a rapid and sensitive high-performance liquid chromatographic (HPLC) technique with electrochemical detection to determine CYL, and the limit of detection was 40 ng/ml. We found that particle sizes of CYL-loaded SLNs were about 25%~33% larger then empty SLNs. The entrapment efficiency (E%) of CYL embedded in the SLN matrix was about 80%~98%. Moreover, the E% of SLNs incorporating glyceryl monostearate (GMS) significantly increased by about 11%~17% and the polydispersity index dropped 0.3~0.39.An in vivo pharmacokinetics study of intravenous CYL displayed linear plasma pharmacokinetics and fit a two-compartment model. The biodistribution behavior demonstrated that CYL-loaded tristearin(TS)-GMS SLNs mainly accumulated in the heart, lungs, liver, pancreas, and kidneys.
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Synthesis of Mn₃O₃ nanoparticles with controlled morphology using ionic liquid and their catalysis of hydrocarbon oxidation
Jafar Akbari and Akbar Heydari
[FULL-TEXT INQUIRY] [BSP/CNANO/E-Pub/00010]

Mn₃O₄ Nanoparticles were synthesized from Mn(OAc)₂ by hydrothermal method in water in the presence and absence of ionic liquids (ILs) as template for controlling the size and the shape of nanoparticles. In order to produce nanoparticles those are more similar and uniform in distribution and morphology, ionic liquids have been used. The ionic liquid [BMIm][Cl] caused a more uniformal nanoparticles as well as small nanoparticles. Structural characterizations revealed that the synthesized nanoparticles were tetragonal Mn₃O₄ structure and that they were uniform in the presence of ionic liquid. The prepared nanoparticles were found effective in aerobic oxidation of hydrocarbons without any solvent or additive.
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Multi-walled Carbon Nanotubes Film Sensor for Carbon Mono-oxide Gas
Zishan H. Khan, Numan A. Salah, Sami Habib, A. Azam and M. S. Shahawi
[FULL-TEXT INQUIRY] [BSP/CNANO/E-Pub/00011]

This paper reports the fabrication of a carbon nanotubes based carbon mono-oxide gas sensor. Initially, iron catalyzed carbon nanotubes were grown on silicon oxide grown silicon substrate using low pressure chemical vapor deposition. Morphology and microstructure of these CNTs were studied by field emission scanning electron microscopy (FESEM) and high resolution transmission electron microscopy (HRTEM). Morphological analysis shows the formation of multi-walled carbon nanotubes (MWCTs) with an average diameter of 30 nm. Typical response of MWCNTs gas sensor in the presence of CO gas has been studied. It was observed that this MWNTs gas sensor gives a quick response to CO gas and the recovery time of this sensor is also fast. The sensitivity of this sensor was found to decrease with an increase in the CO gas concentration. At a particular gas concentration, the responsiveness of this sensor increases with the increase in temperature. Electrical transport properties of this MWNTs film sensor have also been explained on the basis of temperature dependence of conductivity. On the basis these properties, it is suggested that this MWNTs-based gas sensor has potential to be used as a novel CO gas sensor.
[Back to top]


Fabrication and photoluminescence of hierarchical SiC nanowires
Jianjun Chen, Qiang Shi, Lipeng Xin, Yang Liu and Weihua Tang
[FULL-TEXT INQUIRY] [BSP/CNANO/E-Pub/00012]

Hierarchical single-crystalline β-SiC nanowires were synthesized by simply heating carbonaceous silica xerogel. A fairly high concentration of stacking faults was observed perpendicular to [111] growth direction of the hierarchical nanowires. A possible vapor-solid growth mechanism for the hierarchical nanowires was discussed. The photoluminescence spectrum of hierarchical SiC nanowires at room temperature shows two emission peaks at 406 nm and 432 nm. The blue emission at 432 nm may be related to 3C-SiC, while the emission peak at 406 nm may be attributed to 6H-SiC segments formed by stacking faults in 3C-SiC nanowire matrix.
[Back to top]


One-pot Synthesis of Superparamagnetic Polyaniline Microtubes and Magnetite Nanoparticles via Self-Assembly method
K. Basavaiah and A.V. Prasada Rao
[FULL-TEXT INQUIRY] [BSP/CNANO/E-Pub/00013]

In this work, Polyaniline (PANI) microtubes and magnetite (Fe₃O₄) nanoparticles have been synthesized by using ammonium persulphate as oxidant via in-situ chemical oxidative polymerization in presence of organic sulfonic acid. The resulting PANI / Fe₃O₄ nanocomposite materials have been characterized by X-ray diffraction, UV-visible spectroscopy, Fourier transform infrared spectroscopy, scanning electron microscopy, transmission electron microscopy, vibrating sampling magnetometer, and thermogravimetric analysis. Spectroscopic results indicated formation of Fee₃O₄ nanoparticles on PANI micro tubes. Morphologies of PANI / Fe₃O₄ nanocomposites were found to be dependent on the molar ratios of aniline to organic acid. As obtained PANI / Fe₃O₄ nanocomposites contained Fe₃O₄ particles in the range of 3-7 nm in size which showed superparamagnetism. Nanocomposites exhibited higher thermal stability compared to pure PANI.
[Back to top]


Investigating Nanoparticle Aggregation Dynamics In A Magnetic Fluid By Sls And Dls
Dan Chicea
[FULL-TEXT INQUIRY] [BSP/CNANO/E-Pub/00014]

Magnetite nanoparticles in aqueous suspensions are not stable but aggregate, thus tremendously changing the rheological properties of the nanofluid. Modified versions of both the SLS setup and of the DLS setup experiment were used to monitor Fe₃O₄ nanoparticle aggregation in aqueous diluted suspension. The experimental setup and the data processing procedures are described in detail and the variation of the average aggregate diameter in time is presented in this work.
[Back to top]


Fabrication and photoluminescence of hierarchical SiC nanowires
Jianjun Chen, Qiang Shi, Lipeng Xin, Yang Liu and Weihua Tang
[FULL-TEXT INQUIRY] [BSP/CNANO/E-Pub/00015]

Hierarchical single-crystalline β-SiC nanowires were synthesized by simply heating carbonaceous silica xerogel. A fairly high concentration of stacking faults was observed perpendicular to [111] growth direction of the hierarchical nanowires. A possible vapor-solid growth mechanism for the hierarchical nanowires was discussed. The photoluminescence spectrum of hierarchical SiC nanowires at room temperature shows two emission peaks at 406 nm and 432 nm. The blue emission at 432 nm may be related to 3C-SiC, while the emission peak at 406 nm may be attributed to 6H-SiC segments formed by stacking faults in 3C-SiC nanowire matrix.
[Back to top]


Antibacterial Activity of Silver Nano Particles Synthesized by Arachis hypogaea L. Leaf Extract and its Nano Coating on Glass Substrate
M. HariPrasad, D. Kalpana  and Dr. N. Jaya Kumar
[FULL-TEXT INQUIRY] [BSP/CNANO/E-Pub/00016]

Green synthesis of metal nano particles is an emerging branch of nanotechnology, very cost effective, eco-friendly, thus can be an economic and efficient alternative for the large-scale synthesis of nano particles. This studies focuses on the bio synthesis property of Peanut (Arachis hypogaea L.) leaf extract in the synthesis of silver nano particles at room temperature without using any harmful reducing agents and its antibacterial activity. Characterization of synthesized silver nano particles was made using UV-Vis, SEM, XRD and FT-IR studies.  The average particle sizes ranged from 7 - 8nm.Synthesised silver nano particles were made a coating on glass substrates and morphological properties were characterized by SEM. Antibacterial activity of silver nano particles were analyzed with various pathogens like Klebsiella pneumoniae, Pseudomonas sp, proteus sp and Escherichia coli. Agriculture wastes of its leaves were utilized in synthesis of silver nano particles. Our results suggest that Arachis hypogaea L. mediated silver nano particles that could act as an effective antibacterial agent in development of antibacterial control systems in water treatment, medicine and industries in future. Silver nano coating on the different glass substrate possess different colour & morphological property could support the modern coating techniques in the industries.
[Back to top]


The Synthesis and Evaluation of Novel Lactate Dehydrogenase Nanobioconjugates
Samina Nazir, Tajammul Hussain, Salman Akbar Malik and Ayesha Younus
[FULL-TEXT INQUIRY] [BSP/CNANO/E-Pub/00017]

We, report for the first time, the synthesis and kinetics of Ni and Fe3O4 nanobioconjugates obtained by covalent conjugation of nanoparticles to lactate dehydrogenase (LDH). The conjugation reaction was performed using bis(sulfosuccinimidyl) suberate (BS3) as a cross-linking agent. The kinetics of discrete conjugates was studied through conversion of lactate and pyruvate and subsequent reduction of NAD+ to NADH at 340 nm. The enzyme velocities and the Km values designated that LDH-Ni conjugate developed a higher affinity for substrate. The fabrication of LDH-Ni conjugates makes them promising candidates for biotechnology applications. These novel findings pave way to device a convenient nanoparticle-based LDH assay void of any radioactive isotope or use of complicated dyes for in-vitro detection and management of malignancies such as leukemia, malaria, to determine cytotoxic potential of compounds in food, cosmetics and pharmaceutical industries. Furthermore, the altered comportment of novel conjugates may serve as a guideline in the development of nanobioconjugates and new advances in nanoparticle based diagnosis and therapeutics.
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Effect of Bovine Serum Albumin on the Stability of Bicalutamide-Encapsulated Lipid Nano-Emulsion in Bovine Serum
Shigehiko Takegami, Shoko Uchida, Eriko Aoi, Takumi Yamamoto, Aki Yasuhara, Madoka Fujihara, Kaori Hayashi and Tatsuya Kitade
[FULL-TEXT INQUIRY] [BSP/CNANO/E-Pub/00018]

Aiming at the development of a stable drug carrier for bicalutamide (BT), we prepared various lipid nano-emulsions (LNEs) from a lipid mixture of soybean oil, phosphatidylcholine, sodium palmitate and sucrose palmitate (SP). These LNEs had mean particle size of approximately 50 nm and zeta potential (ζ) of -40 to -30 mV and were investigated their stability in saline solution and in bovine serum by using the dynamic light scattering method. In saline solution, while the droplet size of LNEs without and with BT reached more than 150 nm, that of the BT-encapsulated LNEs with SP could be maintained within 100 nm even after 24 h. In contrast, the droplet size of LNEs hardly increased even over 72 h placed in bovine serum, suggesting that bovine serum albumin (BSA) suppressed their coalescence. The intrinsic fluorescence of BSA was quenched and blue-shifted in the presence of LNE. In addition, the ζ values of all LNEs increased to around -20 mV according to the increase of BSA concentration. These results demonstrated that BSA interacted with LNE particles. Furthermore, the fluorescence resonance energy transfer using a fluorescence probe revealed that not only BT encapsulated in LNE particles but also SP strongly interacted with BSA.
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Supramolecular microfibrils of o-phenylenediamine dimers: Oxidation-induced formation of Au nanoparticle-decorated nanoplates for H₂O₂ detection
Wenbo Lu, Yonglan Luo, Guohui Chang and Xuping Sun
[FULL-TEXT INQUIRY] [BSP/CNANO/E-Pub/00019]

The direct mix of aqueous FeCl₃ and o-phenylenediamine (OPD) solutions at room temperature leads to supramolecular microfibrils of OPD dimers generated by the oxidation of OPD monomers by FeCl₃. In this paper, we demonstrate that the subsequent treatment of such microfibrils with a HAuCl4 aqueous solution leads to Au nanoparticle (AuNP)-decorated nanoplates. The possible formation mechanism involved is also discussed. It is found that such nanocomposites can effectively catalyze both oxidization and reduction of H₂O₂. The sensor constructed with these nanocomposites exhibits a fast amperometric response time of less than 4 s. The linear detection range is estimated to be from 100 μM to 170 mM (r=0.997), and the detection limit is estimated to be 8 μM at a signal-to-noise ratio of 3.
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Single-stranded DNA-based immobilization of Ag nanoparticles for enzymeless H2O2 detection
Guohui Chang, Yonglan Luo, Wenbo Lu, Xiaoyun Qin, Fang Liao, Abdullah M. Asiri, Abdulrahman O. Al-Youbi and Xuping Sun
[FULL-TEXT INQUIRY] [BSP/CNANO/E-Pub/00020]

In this communication, we report a new method for effective immobilization of Ag nanoparticles (AgNPs) on thiolated single-stranded DNA (thiol-ssDNA) modified Au electrode (AuE) surface via coordination interactions between the nitrogen atoms of DNA bases and AgNPs. It suggests that the AgNP-immobilized AuE exhibits notable catalytic performance for H₂O₂ reduction and the loading of AgNPs on the AuE surface and therefore the effective catalytic area can be tuned by the immobilization time of thiol-ssDNA and adsorption time of AgNPs. This H₂O₂ sensor has a fast amperometric response time of less than 3 s and its linear range and detection limit are estimated to be from 0.1 mM to 160 mM (r = 0.995) and 0.8 μM at a signal-to-noise ratio of 3, respectively.
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Microwave and magnetic analysis of substituted SrFe12O19/ multi-walled carbon nanotubes
Mahboubeh Asghari, Ali Ghasemi and Ebrahim Paimozed
[FULL-TEXT INQUIRY] [BSP/CNANO/E-Pub/00021]

Substituted strontium ferrites SrFe_{12 −x}Cr_x/2Alx/2O₁₉ (x = 0–2.5) / multi-walled carbon nanotubes (MWCNTs) nanocomposites were prepared by a sol - gel method. The XRD patterns show a relatively weak peak at around 26⁰, corresponding to the graphite (002) lattice plane of the MWCNTs. The peak of Fourier transform infrared spectroscopy (FTIR) at about 1730 cm-1 could be assigned to the stretching mode of carbonyl groups (C=O), indicating the presence of PAA chains in PAA-carbon nanotubes. Field emission scanning electron microscopy (FE -SEM) micrographs revealed that dot array of ferrites on the surface of carbon nanotubes were formed. The magnetic properties confirmed that the values of saturation magnetization for nanocomposites are considerably lower than that of SrFe_{12 −x}Cr_x/2Alx/2O₁₉ nanoparticles. The reflection loss of pure MWCNTs is rather low as compared to the nanocomposites for whole frequencies in the range of 12–18 GHz. It was found that MWCNTs could enhance reflection loss value of ferrites.
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Thermodynamic models for the size-dependent melting of nanoparticles: different hypotheses
Gopal Krishna Goswami and Karuna Kar Nanda
[FULL-TEXT INQUIRY] [BSP/CNANO/E-Pub/00022]

A careful comparison of the experimental results reported in the literature reveals different variations of the melting temperature even for the same materials. Though there are different theoretical models, thermodynamic model has been extensively used to understand different variations of size-dependent melting of nanoparticles. There are different hypotheses such as homogeneous melting (HMH), liquid nucleation and growth (LNG) and liquid skin melting (LSM) to resolve different variations of melting temperature as reported in the literature. HMH and LNG account for the linear variation where as LSM is applied to understand the nonlinear behaviour in the plot of melting temperature against reciprocal of particle size. However, a bird’s eye view reveals that either HMH or LSM has been extensively used by experimentalists. It has also been observed that not a single hypothesis can explain the size-dependent melting in the complete range. Therefore we describe an approach which can predict the plausible hypothesis for a given data set of the size-dependent melting temperature. A variety of data have been analyzed to ascertain the hypothesis and to test the approach.
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Synthesis and Characterization of Nano Heat Transfer Fluid (NHTF)
Syed Tajammul Hussain, Muhammad Adnan Saqlain and Muhammad Siddiq
[FULL-TEXT INQUIRY] [BSP/CNANO/E-Pub/00023]

This paper describes a nano-heat transfer fluid (NHTF) consisting of a novel mixture of alkali metal nitrate salt eutectic doped with silica nanoparticles at 0.5% mass concentration with a low melting point, high thermal stability and high specific heat capacity. These properties produce a wide operating range Heat Transfer Fluid and enable effective thermal storage for parabolic trough concentrating solar power plants as compared to present molten salt heat transfer fluids that usually has a high melting point, typically 220°C or higher. This limits its use due to the risk of freezing. The advanced NHTF exploits eutectic behavior with a novel composition of materials and nanoparticles, resulting in a low melting point of 120 °C, a thermal stability limit over 500 °C and an increase in Specific Heat Capacity owing to the presence of suspended silica nanoparicles.
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Simulation of dye-sensitized solar cells based on a population dynamics model
Ioannis G. Karafyllidis and Nikolaos Georgoulas
[FULL-TEXT INQUIRY] [BSP/CNANO/E-Pub/00024]

Dye-sensitized solar cells are electrochemical devices with very interesting properties that provide an alternative to the conventional semiconductor solar cell technology.  However, the details of the charge transport mechanisms, which include both electronic and ionic transport, are not yet fully understood.  In this paper, we present a novel approach to dye-sensitized solar cell modeling and simulation which is based on population dynamics models that have recently been extensively used to model reactions between biological molecules. It is shown that the proposed model can be used to simulate the operation of dye-sensitized solar cells and produces I-V characteristics that are in qualitative agreement with the experimental ones. Furthermore, the model presented here can be used to optimize the characteristics and the design of dye-sensitized solar cells.
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Multi-walled Carbon Nanotubes Film Sensor for Carbon Mono-oxide Gas
Zishan H. Khan, Numan A. Salah, Sami Habib, A. Azam and M. S. Shahawi
[FULL-TEXT INQUIRY] [BSP/CNANO/E-Pub/00025]

A carbon nanotubes based carbon mono-oxide gas sensor has been fabricated. Intitally, iron catalyzed carbon nanotubes have been grown on silicon oxide grown silicon substrate using low pressure chemical vapor deposition. Morphology and microstructure of these CNTs have been studied by field emission scanning electron microscopy (FESEM) and high resolution transmission electron microscopy (HRTEM). FESEM images suggest that the diameter of these nanotubes varies from 30-60 nm and length of is order of several tens of micrometers. From the HRTEM image, it is clear that these nanotubes are multi-walled with an average diameter of 30 nm. To fabricate a MWNTs film sensor, we have deposited the gold electrode pattern on the as-grown carbon nanotubes (CNTs) using thermal evaporation and studied the carbon mono-oxide gas sensing properties. Typical responses of MWCNTs gas sensor in the presence of CO gas have been studied. It is observed that this MWNTs gas sensor gives a quick response to CO gas and the recovery time of this sensor is also fast. Temperature dependence of resistance for this MWNTs-based film sensor in air and 100, 200, & 500 ppm CO gas for the temperature range of (300-500K) has been studied. The resistance of CNTs film decreases with the increase in temperature. The sensitivity and responsiveness has also been estimated. The sensitivity of this sensor decreases with an increase in the CO gas concentration. At a particular gas concentration, the responsiveness of this sensor increases with the increase in temperature. Electrical transport properties of this MWNTs film sensor have also been explained on the basis of temperature dependence of conductivity.  On the basis these properties, it is suggested that this MWNTs-based gas sensors has potential to be used as a novel CO gas sensor.
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LiFePO₄/C Microspheres with Nano-micro Structure, Prepared by Spray Drying Method Assisted with PVA as Template
Quanbing Liu, Shijun Liao, Huiyu Song and Jianhuang Zeng
[FULL-TEXT INQUIRY] [BSP/CNANO/E-Pub/00026]

Microspherical and uniform LiFePO₄/C was successfully prepared by a spray drying method assisted with template. The materials were characterized by X-ray diffraction (XRD) and scanning electron microscopy (SEM). The as-synthesized LiFePO₄/C was used as cathode materials for battery evaluation. The materials prepared with PVA as templates possess perfect olivine structure of lithium ion battery with uniform size distribution. A sample prepared with optimum conditions achieved a capacity of 156.7 mAh g^–1 at a rate of 0.1 C, and no obvious degradation can be observed after 15 cycles at various rates. It was found that the templates affected the structure and performance of the material significantly, the addition of polyvinyl alcohol (PVA) as template resulted in uniform microsphere morphology and high performance.
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Structural parameters for nanocylinder microdomains of polystyrene-polybutadiene-polystyrene triblock copolymer and its blends with polystyrene homopolymer
Dong Sik Park and Erol Sancaktar
[FULL-TEXT INQUIRY] [BSP/CNANO/E-Pub/00027]

We illustrate that the redistribution of a compatible homopolymer blended in a certain block copolymer results in a shift of phase boundaries and in the stabilization of well-ordered structures by using polystyrene (PS) homopolymer blended in polystyrene-polybutadiene-polystyrene triblock copolymer (SBS1102) as a model system. The addition of the homopolymer into the asymmetric triblock copolymer increases the periodic orientation normal to the substrate, enabling directed self-assembly of the block copolymers into arrays of highly oriented, high-aspect-ratio cylindrical nanostructures over large areas. Thus, we show that blending a homopolymer with well controlled molecular weight provides an effective ordering process for self-assembly of block copolymers.
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Folate targeted solid lipid nanoparticles of simvastatin for enhanced cytotoxic effects of doxorubicin in chronic myeloid leukemia
J. Varshosaz, F. Hassanzadeh, H. Sadeghi and M. Shakery
[FULL-TEXT INQUIRY] [BSP/CNANO/E-Pub/00028]

Statins can inhibit growth of malignant cells. Aims: The aim of the present work was to increase efficacy of simvastatin on chronic meyloid leukemia K562 cells by folate targeted solid lipid nanoparticles (SLN). Methodology: Folate targeting agent was prepared by chemical reaction between folic acid and dodecylamine. Folate targeted SLNs of simvastatin were prepared by an emulsification-solvent evaporation method. Then cytotoxicity of SLNs was studied on K562 cell line by Trypan blue and cellular uptake by flow cytometry method. Different concentrations of doxorubicin were used in combination to SLNs of simvastatin to study their possible synergistic effect in reducing the required cytotoxic dose of doxorubicin. Results: Simvastatin loaded SLNs were more cytotoxic than free simvastatin. The targeting property of glyceryl monostearate (GMS) SLNs was more efficient than other studied lipids. SLNs of simvastatin could reduce the cytotoxic dose of doxorubicin particularly when the dose of doxorubicin was low. Conclusion: Folate targeted SLNs can significantly enhance cytotoxic effect of simvastatin on K562 cell line and show synergistic effect with doxorubicin in reducing its dose. This may be of great value from clinically point of view in reduction the cardiac toxicity of doxorubicin.
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A novel approach for aerobic construction of iron oxide nanoparticles by Acinetobacter radioresistens and their effects on Red blood cells
Mona Yaaghoobi, Giti Emtiazi and Rasoul Roghanian
[FULL-TEXT INQUIRY] [BSP/CNANO/E-Pub/00029]

Magnetic iron oxide nanoparticles (MION) with unique surface properties have been widely used in various fields of sciences such as biomedicine. In addition to complicated chemical methods of iron oxide nanoparticles synthesis, there are great concerns regarding their application in vivo. The aims of this study were to investigate both the biologic synthesis of iron nanoparticles and toxic effects of MIONs on red blood cells from healthy and thalassemic blood donors. A Gram negative bacterium was isolated from iron enriched media and was identified as an Acinetobacter radioresistens strain by 16s RNA sequencing. The FTIR, SEM-EDX and XRD analysis results showed that the isolate could synthesize MIONs (≤ 104 nm) in filter sterilized iron enriched media (media with high iron ions) under strict aerobic condition. Further, our results indicated that although none of bacterial or artificial nanoparticles are toxic to Gram positive or negative bacteria but depending of their size and concentration could cause lysis in red blood cells (RBC) and as well as white blood cells (WBC). Toxicity of commercial and bacterial MIONs on peripheral blood cells was evaluated by monitoring hemagglutination, hemolysis and morphological changes. Our data also indicated while lysis occurs in low concentration of nanoparticles but severe hemagglutination is seen in samples treated with commercial nanoparticles (8 nm) beginning at 50μg/mL. The rate of hemolysis and morphological changes was intensified by increasing the concentrations of MIONs. In contrast, the bacterial MIONs did not induce any morphological changes on peripheral blood cells. To our knowledge, this is the first report about construction of nontoxic MIONs by Acinetobacter radioresistens.
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Synthesis and Surface Functionalization of Water-soluble Quantum Dots
Sonia Bailon-Ruiz, Luis Alamo-Nole and Oscar Perales-Perez
[FULL-TEXT INQUIRY] [BSP/CNANO/E-Pub/00030]

Quantum Dots (QDs) for bio-imaging applications need to be water-stable, exhibit high brightness and physico-chemical stability in order to prevent the leakage of toxic ions. In the present work, the direct synthesis of water-soluble CdSe quantum dots and their surface functionalization were achieved through a micro-wave assisted approach in aqueous phase. Glutathione, an essential tri-peptide, was used to functionalize the QDs as an attempt to develop a non-toxic and biocompatible surface. X-ray diffraction analyses suggested that as-synthesized QDs exhibited an alloy arrangement with an average crystallite size of 3.2 nm. HRTEM measurements suggested a size of around 4 nm for glutathione-functionalized QDs. Stable aqueous suspensions of QDs showed strong visible emission (551nm and 561 nm for bare and glutathione-functionalized QDs) under 460nm excitation. The presence of glutathione in the QDs’s surface was confirmed by FT-IR and NRM spectroscopy measurements. Surface characterization of QDs by using FT-IR indicated that glutathione was chemisorbed onto the surface of the CdSe QDs as carboxylate (v_as COO at 1630 cm^-1 and v_s COO at 1390 cm^-1). These water-stable glutathione-functionalized QDs can be considered a very promising nanomaterial for bio-labeling and imaging.
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Multifunctional targeted radiotherapy systemfor induced tumours expressing gastrin-releasing peptide receptors
Nallely jimenez-mancilla, guillermina ferro-flores, blanca ocampo-garcia, myrna luna-gutierrez, flor de maria ramirez, martha pedraza-lopez and eugenio torres-garcia
[FULL-TEXT INQUIRY] [BSP/CNANO/E-Pub/00031]

The gastrin-releasingpeptide receptor (GRP-r)is overexpressed in breast and prostate cancer, and Lys³-bombesin is a peptide that binds with high affinity to the GRP-r. HIV Tat(49-57) is a cell-penetrating peptide that reaches the DNA.In cancer cells,¹⁷⁷Lu shows efficient crossfire effect, while^99mTc that is internalised to cancer cell nuclei acts as an effective system of targeted radiotherapy because ofthe Auger and IC electron emissions near the DNA. The aim of this research was to prepare a multifunctional system of ¹⁷⁷Lu- and ^99mTc-labelled gold nanoparticles (AuNPs) that were conjugated to Tat(49‑57)-Lys³‑bombesin (Tat-BN) and to evaluate the radiation absorbed dose toGRP receptor-positive PC3 tumours that were induced in mice. Cys-Gly-Cys-Tat-BN (CGC-Tat-BN), 1,4,7,10-tetraazacyclododecane-N',N",N"'-tetraacetic-Gly-Gly-Cys (DOTA-GGC)andhydrazinonicotinyl-Phe-Cys-Phe-Trp-Lys-Thr-Cys-Thr‑ol (HYNIC-TOC) peptides were conjugated to AuNPs to prepare a multifunctional system by means of a spontaneous reaction of the thiol groups of cysteine. TEM, UV-Vis, XPS and Far-IR spectroscopy techniques demonstrated that AuNPs were functionalised with peptides through interactions with the-SHgroups. The99mTc labelling was performed via the HYNIC-TOC ligand, and the¹⁷⁷Lu labellingwas performed through DOTA-GGC. The radiochemical puritywas 96 ± 2%. The ¹⁷⁷Lu‑absorbed doseper injected activity that wasdelivered to the PC3 tumours was 7.9 Gy/MBq, and the ^99mTc‑absorbed dose that was delivered to the nuclei was 0.53 Gy/MBq. The ¹⁷⁷Lu/^99mTc-AuNP-Tat-BN system showed properties suitable for a targeted radionuclide therapy of tumours expressing GRPreceptors due to the energy deposition from β-emissions and the Auger and IC electron emissions near the DNA.
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A New Antitumor Agent, (3-chloro-7-methoxyfuro[2,3-b]-quinolin-4-yl)-(4 methoxyphenyl)amine, Loaded in Solid Lipid Nanoparticles: Characterization and Pharmacokinetics
Yi-Ping Fang, Cherng-Chyi Tzeng, Yeh-Long Chen, Pao-Chu Wu, Huei-Lan Lin and Yi-Hung Tsai
[FULL-TEXT INQUIRY] [BSP/CNANO/E-Pub/00032]

(3-Chloro-7-methoxyfuro[2,3-b]-quinolin-4-yl)-(4-methoxyphenyl)amine (CYL), a chemotherapeutic agent, is an analogue of amsacrine. The water insolubility of CYL limits its delivery and thus its application. The aim of the study was to utilize solid lipid nanoparticles (SLNs) to improve the delivery of CYL, and investigate its biodistribution behavior in an animal model. Characterizations of SLNs were evaluated including the particle size, zeta potential and entrapment efficiency. An in vivo study was used to investigate the pharmacokinetics and biodistribution behaviors. We established a rapid and sensitive high-performance liquid chromatographic (HPLC) technique with electrochemical detection to determine CYL, and the limit of detection was 40 ng/ml. We found that particle sizes of CYL-loaded SLNs were about 25%~33% larger then empty SLNs. The entrapment efficiency (E%) of CYL embedded in the SLN matrix was about 80%~98%. Moreover, the E% of SLNs incorporating glyceryl monostearate (GMS) significantly increased by about 11%~17% and the polydispersity index dropped 0.3~0.39.An in vivo pharmacokinetics study of intravenous CYL displayed linear plasma pharmacokinetics and fit a two-compartment model. The biodistribution behavior demonstrated that CYL-loaded tristearin(TS)-GMS SLNs mainly accumulated in the heart, lungs, liver, pancreas, and kidneys.
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