1.Studies on interaction of acid-treated nanotube titanic acid and amino acids.
Huqin ZHANG ; Xuemei CHEN ; Zhensheng JIN ; Guangxi LIAO ; Xiaoming WU ; Jianqiang DU ; Xiang CAO
Journal of Biomedical Engineering 2010;27(3):617-621
Nanotube titanic acid (NTA) has distinct optical and electrical character, and has photocatalysis character. In accordance with these qualities, NTA was treated with acid so as to enhance its surface activity. Surface structures and surface groups of acid-treated NTA were characterized and analyzed by Transmission Electron Microscope (TEM) and Fourier Transform Infrared Spectrometry (FT-IR). The interaction between acid-treated NTA and amino acids was investigated. Analysis results showed that the lengths of acid-treated NTA became obviously shorter. The diameters of nanotube bundles did not change obviously with acid-treating. Meanwhile, the surface of acid-treated NTA was cross-linked with carboxyl or esterfunction. In addition, acid-treated NTA can catch amino acid residues easily, and then form close combination.
Acetic Acid
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chemistry
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Adsorption
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Amino Acids
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chemistry
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Drug Interactions
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Nanotubes
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chemistry
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Oxides
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chemistry
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Titanium
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chemistry
2.Preparation of SO4(2-)/TiO2-La2O3 solid superacid and its catalytic activities in acetalation and ketalation.
Shui-jin YANG ; Ai-min BAI ; Ju-tang SUN
Journal of Zhejiang University. Science. B 2006;7(7):553-558
SO(4)(2-)/TiO(2)-La(2)O(3), a novel solid superacid, was prepared and its catalytic activities at different synthetic conditions are discussed with esterification of n-butanoic acid and n-butyl alcohol as probing reaction. The optimum conditions have also been found, mole ratio of n(La(3+)):n(Ti(4+)) is 1:34, the soaked consistency of H(2)SO(4) is 0.8 mol/L, the soaked time of H(2)SO(4) is 24 h, the calcining temperature is 480 degrees C, the calcining time is 3 h. Then it was applied in the catalytic synthesis of ten important ketals and acetals as catalyst and revealed high catalytic activity. Under these conditions on which the molar ratio of aldehyde/ketone to glycol is 1:1.5, the mass ratio of the catalyst used in the reactants is 0.5%, and the reaction time is 1.0 h, the yields of ketals and acetals can reach 41.4%-95.8%.
Acetylation
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Acids
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chemistry
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Catalysis
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Hydrogen-Ion Concentration
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Ketones
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chemistry
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Lanthanum
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chemistry
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Oxides
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chemistry
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Powders
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Sulfates
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chemistry
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Titanium
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chemistry
3.Preparation and property evaluation of graphene oxide based silver nanoparticles composite materials.
Yupu SHEN ; Jiantai HE ; Yangde ZHANG ; Yukun SHEN ; Longjiao ZHANG
Journal of Biomedical Engineering 2014;31(2):357-360
We prepared silver nanoparticles/polyethyleneimine-reduction graphene oxide (AgNP/rGO-PEI) composite materials, and evaluated their quality performance in our center. Firstly, we prepared AgNP/rGO-PEI, and then analysed its stability, antibacterial activity, and cellular toxicity by comparing the AgNP/rGO-PEI with the silver nanoparticles (PVP/AgNP) modified by polyvinylpyrrolidone. We found in the study that silver nanoparticles (AgNP) distributed relatively uniformly in AgNP/rGO-PEI surface, silver nanoparticles mass fraction was 4.5%, and particle size was 6-13 nm. In dark or in low illumination light intensity of 3 000 lx meter environment (lux) for 10 days, PVP/AgNP aggregation was more obvious, but the AgNP/rGO-PEI had good dispersibility and its aggregation was not obvious; AgNP/rGO-PEI had a more excellent antibacterial activity, biological compatibility and relatively low biological toxicity. It was concluded that AgNP/rGO-PEI composite materials had reliable quality and good performance, and would have broad application prospects in the future.
Anti-Bacterial Agents
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chemistry
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Graphite
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chemistry
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Light
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Nanoparticles
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chemistry
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Oxides
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chemistry
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Particle Size
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Polyethyleneimine
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chemistry
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Silver Compounds
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chemistry
4.Preparation and characterization of superparamagnetic iron oxide nanoparticles.
Shi-ting LIU ; Yuan YAN ; Zhi-liang CHEN ; Yu-zhong ZHANG ; Xing JIN
Journal of Southern Medical University 2006;26(3):331-334
OBJECTIVETo determine the physical and magnetic properties of superparamagnetic iron oxide (SPIO) nanoparticle prepared in our laboratory and evaluate its possibility for use as contrast agents in magnetic resonance imaging (MRI).
METHODSThe SPIO nanoparticle was obtained by means of classical coprecipitation in dextran solution and its size determined by electron microscopy and photon-correlation spectroscopy. The iron content was determined by phenanthroline photometry, and T(2) values as well as relaxivity evaluated with a clinical MR system at 1.5T.
RESULTSDextran-coated magnetite particles with a hydrodynamic diameter of 85.9 nm were prepared. The iron core size was 15 nm and the formation of Fe(3)O(4) crystal in SPIO nanoparticles was confirmed by X-ray diffraction (XRD) analysis. These particles possessed some characteristics of superparamagnetic and show a smaller spin-spin relaxation, with relaxivity and saturation magnetization of 0.1567 mmol(-1)/ms(-1) and 80 emu/g Fe, respectively.
CONCLUSIONSA stable SPIO nanoparticle with a dextran coating have been developed, and in vitro evaluation of its physical and magnetic properties suggests its potential for use as the contrast agent in MRI.
Humans ; Iron ; chemistry ; Magnetic Resonance Imaging ; methods ; Nanoparticles ; chemistry ; Oxides ; chemical synthesis ; chemistry ; X-Ray Diffraction
5.Preparation, properties and antibacterial applications of medical nano-metals and their oxides: a review.
Jiasheng ZUO ; Ying QIN ; Zuzhen ZHAO ; Lu XING ; Tian LIU ; Song WANG ; Weiqiang LIU
Chinese Journal of Biotechnology 2023;39(4):1462-1476
Antibiotics are playing an increasingly important role in clinical antibacterial applications. However, their abuse has also brought toxic and side effects, drug-resistant pathogens, decreased immunity and other problems. New antibacterial schemes in clinic are urgently needed. In recent years, nano-metals and their oxides have attracted wide attention due to their broad-spectrum antibacterial activity. Nano-silver, nano-copper, nano-zinc and their oxides are gradually applied in biomedical field. In this study, the classification and basic properties of nano-metallic materials such as conductivity, superplasticity, catalysis, and antibacterial activities were firstly introduced. Secondly, the common preparation techniques, including physical, chemical and biological methods, were summarized. Subsequently, four main antibacterial mechanisms, such as cell membrane, oxidative stress, DNA destruction and cell respiration reduction, were summarized. Finally, the effect of size, shape, concentration and surface chemical characteristics of nano-metals and their oxides on antibacterial effectiveness and the research status of biological safety such as cytotoxicity, genotoxicity and reproductive toxicity were reviewed. At present, although nano-metals and their oxides have been applied in medical antibacterial, cancer treatment and other clinical fields, some issues such as the development of green preparation technology, the understanding of antibacterial mechanism, the improvement of biosafety, and the expansion of application fields, require further exploration.
Oxides/chemistry*
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Metal Nanoparticles/chemistry*
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Anti-Bacterial Agents/chemistry*
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Zinc
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Copper
6.Solidification of volatile oil with graphene oxide.
Hong-Mei YAN ; Xiao-Bin JIA ; Zhen-Hai ZHANG ; E SUN ; Yi-Hao XU
Acta Pharmaceutica Sinica 2015;50(2):222-226
To evaluate the properties of solidifying volatile oil with graphene oxide, clove oil and zedoary turmeric oil were solidified by graphene oxide. The amount of graphene oxide was optimized with the eugenol yield and curcumol yield as criteria. Curing powder was characterized by differential scanning calorimetry (DSC) and scanning electron microscopy (SEM). The effects of graphene oxide on dissolution in vitro and thermal stability of active components were studied. The optimum solidification ratio of graphene oxide to volatile oil was 1:1. Dissolution rate of active components had rare influence while their thermal stability improved after volatile oil was solidified. Solidifying herbal volatile oil with graphene oxide deserves further study.
Calorimetry, Differential Scanning
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Clove Oil
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chemistry
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Curcuma
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chemistry
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Eugenol
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Graphite
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chemistry
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Microscopy, Electron, Scanning
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Oils, Volatile
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chemistry
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Oxides
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chemistry
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Plant Extracts
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chemistry
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Powders
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Sesquiterpenes
7.Effects of three different etching methods on surface morphology and element of pure titanium.
Tao JIANG ; Xiangrong CHENG ; Yining WANG ; Hua TONG ; Jiming HU
Journal of Biomedical Engineering 2006;23(4):814-817
The pure titanium disks were divided into three groups and etched for 30 minutes with HNO3, hot H2SO4/H2O2 or hot H2SO4/HCl respectively. The treated disks were studied and analyzed with scanning electron microscope (SEM) and X-ray photoelectron spectroscopy (XPS). The disks etched with HNO3 had a smooth surface, while those etched with hot H2SO4/H2O2 or hot H2SO4/HCl had rough surfaces, and the surface etched with hot H2SO4/HCl had larger micropores. The XPS analysis demonstrated that the main elements of the surface in three groups were titanium, oxygen and carbon. The carbon concentration was the lowest on the surface etched with hot H2SO4/H2O2 and the highest on that etched with hot H2SO4/HCl. The substances were TiO2, Ti2O3, TiO and metal Ti on the surface etched with HNO3 or hot H2SO4/H2O2. Only TiO2 was detected on the surface etched with hot H2SO4/HCl.
Hydrochloric Acid
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Hydrogen Peroxide
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Metallurgy
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methods
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Nitric Acid
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Oxides
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Sulfuric Acids
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Surface Properties
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Titanium
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chemistry
8.A new steroidal alkaloid from the bulbus of Fritillaria wabuensia.
Qian CHEN ; Li-hua ZHU ; Yun-feng XU ; Ju-zheng FAN
Acta Pharmaceutica Sinica 2004;39(5):348-350
AIMTo investigate the chemical constituents of the bulbs of Fritillaria wabuensia.
METHODSChromatography techniques were used to isolate the chemical constituents. EI-MS, 1HNMR, 13 CNMR and DEPT were used to determine the structures of the isolated constituents.
RESULTSThree alkaloids were isolated from the bulbs of Fritillaria wabuensia, and were identified as imperialine (I), imperialine-beta-N-oxside (II), isoverticine-beta-N-oxide (III).
CONCLUSIONIsoverticine-beta-N-oxide was isolated from the bulbs of Fritillaria wabuensia for the first time. Isoverticine-beta-N-oxide is a new alkaloid.
Cevanes ; chemistry ; isolation & purification ; Cyclic N-Oxides ; chemistry ; isolation & purification ; Fritillaria ; chemistry ; Molecular Structure ; Plants, Medicinal ; chemistry ; Triterpenes ; chemistry ; isolation & purification
9.Effect of three kinds of rare earth oxides on chromaticity and mechanical properties of zirconia ceramic.
Hui HUANG ; Fu-qiang ZHANG ; Jing SUN ; Lian GAO
Chinese Journal of Stomatology 2006;41(6):327-330
OBJECTIVETo evaluate the colouration of zirconia ceramic by adding three kinds of rare earth oxides. The influence of the pigments concentration on the mechanical properties and the microstructure was also analyzed.
METHODSAdded different concentrations of CeO(2), Er(2)O(3) and Pr(6)O(11) in tetragonal zirconia poly crystals stabilized with 3 mol% yttria (3Y-T2P) powder, compacted at 200 MPa using cold isostatic pressure, and sintered to 1 400 degrees C. The heating rate was 150 degrees C/h and the dwelling time was 2 hours. The chromaticity of sintered bodies was measured with chroma meter. The relative density, hardness, flexure strength and fracture toughness were investigated as well. The phase stability of the colorized and pure zirconia was evaluated by X-ray diffraction (XRD) using an automated diffractometer. The microstructures of the specimens were evaluated by scanning electron microscope (SEM).
RESULTSSeveral kinds of color achieved by the different pigments praseodym oxide, cerium oxide and erbium oxide were presented in the CIELab system. The a* value increased with the added amount of Er(2)O(3), while b* value rose with the increasing amount of CeO(2) and Pr(6)O(11). However, three pigments failed to decrease L* value and the sintered body appeared too bright. Adding three pigments influenced flexure strength of zirconia ceramic significantly, but had little influence on the hardness and fracture toughness. Microscopy revealed the relationship between the porosity and shapes of grains was correlated to strength of the diphase ceramics. No additional phase could be detected by XRD, except t-ZrO(2) in all colorized samples after sintering at 1 400 degrees C for 120 min.
CONCLUSIONSZirconia ceramic can be colorized by CeO(2), Er(2)O(3), and Pr(6)O(11). Pigments even in a small amount influence the mechanical properties of the colorized zirconia material, which necessitates further investigation.
Coloring Agents ; pharmacology ; Dental Porcelain ; chemistry ; Dental Stress Analysis ; Metals, Rare Earth ; pharmacology ; Oxides ; pharmacology ; Prosthesis Coloring ; Zirconium ; chemistry
10.Preparation of arsenic trioxide albumin microspheres and its release characteristics in vitro.
Jie, ZHOU ; Fuqing, ZENG ; Gao, XIANG ; Shusheng, XIE ; Shuli, WEI
Journal of Huazhong University of Science and Technology (Medical Sciences) 2005;25(3):310-2, 319
Arsenic trioxide albumin microspheres (As2O3-BSA-NS) were prepared by using methods of chemical cross-linking. The desirability function (DF), calculated according to the size (<1 microm) distribution, drug loading and drug trapping efficiency, was introduced as a total index for the microspheres formulation. Four factors, inculding W/O ratio, decentralization speed, BSA concentration and stirring stabilization time, were selected and arranged in an orthogonal experimental table. The release characteristic was studied by the drug release experiment in vitro. The four factors affected DF differently. Decentralization speed behaved as the maximum (P<0.01), followed by BSA concentration (P<0.05) and the W/O ratio dose (P<0.05). Stirring stabilization time did not influence DF (P>0.05). The release experiment in vitro showed that As2O3 in As2O3-BSA-NS was released more slower than pure As2O3. It was concluded that regular As2O3-BSA-NS may be prepared by the methods of chemical cross-linking, which was optimized by orthogonal experimental analysis of different factors, and the microspheres can release As2O3 slowly.
Arsenicals/*chemistry
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Cross-Linking Reagents/pharmacology
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Delayed-Action Preparations
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Drug Carriers/*chemistry
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Drug Delivery Systems
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Microspheres
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Oxides/*chemistry
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Serum Albumin, Bovine/*chemistry
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Technology, Pharmaceutical