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مرکز اطلاعات علمی Scientific Information Database (SID) - Trusted Source for Research and Academic Resources

نسخه فارسی

اطلاعات دوره: 

  • سال: 

    2013

  • دوره: 

    20
تعامل: 

  • بازدید: 

    143

  • دانلود: 

    0
کلیدواژه: 
چکیده: 

IN THE RECENT YEARS A CONSIDERABLE RESEARCH HAVE BEEN FOCUSED ON APPLICATION OF MAGNETIC NANOPARTICLES AS A LABELING MATERIAL IN THE FIELDS OF ADVANCED BIOLOGICAL AND MEDICAL APPLICATIONS SUCH AS DRUG DELIVERY [1], AND SINGLE-NUCLEOTIDE POLYMORPHISM ANALYSES FOR HUMAN BLOOD [2, 3]. MAGNETIC....

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نویسندگان: 

Karami Hassan | Ghasemi Anahita

اطلاعات دوره: 

  • سال: 

    2024

  • دوره: 

    11

  • شماره: 

    2

  • صفحات: 

    143-155
تعامل: 

  • استنادات: 

    0

  • بازدید: 

    3

  • دانلود: 

    0
چکیده: 

In this work, copper oxide NANO SORBENT (CONS) with an average diameter of 30 nm is synthesized by polyvinyl alcohol-based sol-gel method to remove heavy metal ions from an aqueous solution. The produced NANOpowder is fully characterized by transmission electron microscopy (TEM), scanning electron microscopy (SEM), X-ray diffraction (XRD), and dynamic light scattering (DLS). Various physicochemical parameters such as solution pH, NANO-SORBENT dosage, solution temperature, contact (mixing) time, initial concentration of lead ion, and the initial volume of lead ion sample are investigated and optimized by the "one at a time" method. Based on the experimental data, the optimum conditions for the full removal of lead ions with an initial concentration of 30 ppm, include pH 6, a SORBENT dosage of 1.6 mg ml-1, a solution temperature of 25 ºC, and a contact time of 13 min. The experimental results showed that the adsorption of lead ions by copper oxide NANOparticles has a good fit with Langmuir isotherm and follows the pseudo-second-order kinetics model. The experimental data shows the synthesized CuO NANOparticles are an effective SORBENT for the removal of Pb(II), Fe(II), and Cu(II) from water with maximum capacities of 33.7, 20.2, and 18.8 mg g-1, respectively.

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نویسندگان: 

ANBIA M. | AMIRMAHMOODI S.

نشریه: 

Scientia Iranica

اطلاعات دوره: 

  • سال: 

    2011

  • دوره: 

    18

  • شماره: 

    3 (TRANSACTIONS C: CHEMISTRY AND CHEMICAL ENGINEERING)

  • صفحات: 

    446-452
تعامل: 

  • استنادات: 

    0

  • بازدید: 

    514

  • دانلود: 

    0
چکیده: 

Amino functional mesoporous silica SBA-15 materials have been prepared as efficient adSORBENTs for halophenols in wastewater. The organic–inorganic hybrid material was obtained using successive grafting procedures of SBA-15 silica with 3-aminopropyl-trimethoxysilane (NH2–SBA-15). The comparison of adsorption of halophenols on untreated mesoporous SBA-15 and NH2–SBA-15 is studied. It is found that NH2–SBA-15 shows significant adsorption for halophenols. The samples were characterized by X-Ray Diffraction (XRD), nitrogen adsorption-desorption isotherms, Scanning Electron Microscopy (SEM), and Fourier Transform Infrared (FT–IR). Batch adsorption studies have been carried out to study the effect of various parameters, such as contact time, pH, adSORBENT dose and initial adsorbate concentration. The equilibrium adsorption data of halophenols onto NH2–SBA-15 were analyzed using Freundlich and Langmuir adsorption isotherms. From the sorption studies it was observed that the uptake of 4-chlorophenol (CP) was higher than 4-bromophenol (BP) and 4-iodophenol (IP).

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مرکز اطلاعات علمی Scientific Information Database (SID) - Trusted Source for Research and Academic Resources
مرکز اطلاعات علمی Scientific Information Database (SID) - Trusted Source for Research and Academic Resources

نسخه فارسی

اطلاعات دوره: 

  • سال: 

    2016

  • دوره: 

    22
تعامل: 

  • بازدید: 

    133

  • دانلود: 

    0
چکیده: 

IN THIS STUDY, A NEW ADSORBENT BASED ON STAR-LIKE POLY IONIC DENDRIMER WHICH BONDED ON NANO SILICA PARTICLES WAS PREPARED AND USED AS SORBENT FOR MICROEXTRACTION IN PACKED SYRINGE (MEPS) COUPLED WITH HPLC-UV FOR DETERMINATION OF BISPHENOL A IN WATER SAMPLES. THE SURFACE MORPHOLOGIES OF THE SORBENT WAS STUDIED BY SCANNING ELECTRON MICROSCOPY (SEM)...

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مرکز اطلاعات علمی Scientific Information Database (SID) - Trusted Source for Research and Academic Resources

نسخه فارسی

اطلاعات دوره: 

  • سال: 

    2013

  • دوره: 

    6
تعامل: 

  • بازدید: 

    122

  • دانلود: 

    0
کلیدواژه: 
چکیده: 

HG (II) IS ONE OF THE MOST TOXIC HEAVY METALS COMMONLY FOUND IN THE GLOBAL ENVIRONMENT. A WIDE RANGE OF ADSORBENTS HAS BEEN USED FOR REMOVING HG (II) FROM CONTAMINATED WATER. GRAPHENE, A NOVEL CLASS OF CARBON NANO-STRUCTURES, HAS GREAT PROMISE FOR USE AS SORBENT MATERIALS BECAUSE OF ITS ULTRAHIGH SPECIFIC SURFACE AREA.IN THIS STUDY, AN ELECTROSTATIC SELF-ASSEMBLY APPROACH WAS EMPLOYED TO PREPARE FE3O4- GRAPHENE OXIDE NANO COMPOSITE AND USED AS THE ADSORBENT FOR THE MAGNETIC SOLID-PHASE EXTRACTION (MSPE) OF HG2+ IN ENVIRONMENTAL WATER SAMPLES [1-2]. THE SYNTHESIZED NANO COMPOSITE WERE TESTED AND CHARACTERIZED BY FIELD EMISSION SCANNING ELECTRON MICROSCOPY, X-RAY DIFFRACTION POWDER, AND FOURIER TRANSFORM INFRARED SPECTROSCOPY TECHNIQUES. THE COMPOSITE ARE SUPER PARAMAGNETIC AT ROOM TEMPERATURE AND CAN BE SEPARATED BY AN EXTERNAL MAGNETIC FIELD. THE PROPOSED METHOD IS FAST, SIMPLE, CHEAP, EFFECTIVE AND SAFE FOR TREATMENT OF MERCURY POLLUTED WATERS. PREPARATION OF ADSORBENT IS EASY AND REMOVAL TIME IS SHORT. THE INFLUENCE OF VARIOUS PARAMETERS SUCH AS EFFECT OF PH, CONTACT TIME, INITIAL METAL ION CONCENTRATION AND ADSORBENT DOSE FOR THE REMOVAL OF MERCURY WAS STUDIED USING A BATCH PROCESS. OPTIMUM EXPERIMENTAL PARAMETERS WERE DETERMINED TO BE PH 5.5, CONTACT TIME 20 MIN, AND TEMPERATURE 20 OC. ADSORBENT EXHIBITS VERY HIGH ADSORPTION POTENTIAL FOR HG (II) AND MORE THAN 95.0% REMOVAL WAS ACHIEVED. LOADING CAPACITY OF ADSORBENT FOR HG IONS IS OBTAINED TO BE 890 MG G-1. IN ALL THE DETERMINATION STEPS, STRIPPING VOLTAMMETRY TECHNIQUE WAS USED FOR DETERMINATION OF HG2+ AT THE OPTIMUM ELECTROCHEMICAL CONDITIONS. ALSO THE ACCURACY OF THE METHOD WAS EVALUATED BY USING ATOMIC ABSORPTION SPECTROSCOPY AS THE STANDARD METHOD.

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نسخه فارسی

نویسنده: 

ASLANI R. | HOSSEINI M.

اطلاعات دوره: 

  • سال: 

    2016

  • دوره: 

    23
تعامل: 

  • بازدید: 

    125

  • دانلود: 

    0
چکیده: 

WASTEWATER TREATMENT IS A MAJOR PROBLEM IN THE CURRENT TIME. WATER COMING FROM HOUSES, COLONIES, INDUSTRIES MAY CONTAMINATE BOTH GROUND AS WELL AS SURFACE WATER. AMONG ALL THE POLLUTANTS, SYNTHETIC DYES ARE ONE OF THE MOST IMPORTANT POLLUTANTS. IT COMES FROM INDUSTRIES LIKE TEXTILE. DYEING AND FABRICATING UNITS AND DISPOSES TO THE NATURE DIRECTLY. ...

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نویسندگان: 

نشریه: 

MOLECULES

اطلاعات دوره: 

  • سال: 

    2019

  • دوره: 

    24

  • شماره: 

    5

  • صفحات: 

    0-0
تعامل: 

  • استنادات: 

    1

  • بازدید: 

    72

  • دانلود: 

    0
کلیدواژه: 
چکیده: 

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بازدید 72

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مرکز اطلاعات علمی Scientific Information Database (SID) - Trusted Source for Research and Academic Resources

نسخه فارسی

اطلاعات دوره: 

  • سال: 

    2013

  • دوره: 

    16
تعامل: 

  • بازدید: 

    172

  • دانلود: 

    0
کلیدواژه: 
چکیده: 

TREATMENT OF INDUSTRIAL EFFLUENT IS A MAJOR CONCERN IN ENVIRONMENTAL RESEARCH DUE TO CONSTITUTES A VAST AMOUNT OF DYES. ADSORPTION IS ONE OF THE MORE INTERESTING PROCESSES FOR REMOVING THESE CONTAMINANTS. RECENTLY DUE TO SOME DESIRABLE ADVANTAGES NANO-SIZED SORBENT HAS BEEN MORE IN ATTENTION. IN THIS STUDY, NANO-COBALT HYDROXIDEAS NEW SORBENT IS APPLIED FOR REMOVING THYMOL BLUE FROM AQUEOUS SOLUTION IN A BATCH SYSTEM. THE EFFECTS OF MAIN VARIABLES SUCH AS PH, AMOUNT OF SORBENT (M), CONTACT TIME (T), INITIAL CONCENTRATION OF DYE (C0) ON REMOVAL EFFICIENCY (R%) WERE CONSIDERED. RESPONSE SURFACE METHODOLOGY (RSM) INVOLVING BOX-BENKEN DESIGN (BBD) WAS EMPLOYED TO OPTIMIZE THE REMOVAL EFFICIENCY PERCENT (%R) OF THYMOL BLUE WHICH LED AN APPROPRIATE REGRESSION MODEL FOR CONSIDERING THE RELATIONS BETWEEN RESPONSE AND INDEPENDENT VARIABLES. EXPERIMENTAL ADSORPTION DATA WERE DESCRIBED BETTER BY LANGMUIR ISOTHERM OVER OTHER INVESTIGATED ISOTHERMS. AS A RESULT OF KINETIC STUDIES, THE SECOND ORDER KINETIC MODEL IS FAVORABLE FOR DYNAMIC BEHAVIOR OF ADSORPTION PROCESS FOR THIS SPECIFIC ADSORBENT. THERMODYNAMIC STUDIES INDICATED THAT THE ADSORPTION OF THYMOL BLUE BY NANO-COBALT HYDROXIDE WAS NONSPONTANEOUS. IT WAS FOUND THAT PRESENCE OF NA+, K+, CA+2 AND MG+2 HAVE A SIGNIFICANT INTERFERENCE ON ADSORPTION EFFICIENCY. THE DESORPTION EFFICIENCIES WITH HCL, HNO3, CH3COOH WERE LOW. FT-IR ANALYSIS CONFIRMED THAT THE SORBENT WAS FAIRLY INVOLVED DURING ADSORPTION PROCESS OF THYMOL BLUE FROM AQUEOUS SOLUTIONS.

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اطلاعات دوره: 

  • سال: 

    2017

  • دوره: 

    4

  • شماره: 

    2

  • صفحات: 

    269-283
تعامل: 

  • استنادات: 

    0

  • بازدید: 

    195

  • دانلود: 

    0
چکیده: 

In this research, the magnetite polystyrene maleic anhydride (MPSMA) was synthesized, and its structure and morphology were characterized by X-ray diffraction, Fourier transform infrared spectroscopy, and scanning electron microscopy techniques. The obtained NANO-structured inorganic material was employed as a novel magnetic NANOSORBENT for separation and pre-concentration of Methyl violet (10B) dye from aqueous solutions, which can be spectrophotometrically monitored at λ = 585 nm after pre-concentration by solid phase extraction (SPE). The effect of several parameters including pH of the sample solution, amount of the SORBENT, extraction and desorption times, and elution conditions and sample volume were investigated and optimized. UV-Vis spectrophotometer was used for determination of MV (10B) concentration after desorption of the dye by nitric acid solution. Under the optimum experimental conditions, the limit of detection and the relative standard deviation were 0. 08 μ g l-1 and 1. 10%, respectively. The enrichment factor of 200 was achieved, and the calibration graph using the presented solid phase extraction system was linear in the range of 0. 3-1500 μ g l-1 with a correlation coefficient of 0. 9989. The method was successfully applied for pre-concentration of MV (10B) from several textile waste water effluents.

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اطلاعات دوره: 

  • سال: 

    1401

  • دوره: 

    19

  • شماره: 

    1

  • صفحات: 

    239-250
تعامل: 

  • استنادات: 

    0

  • بازدید: 

    166

  • دانلود: 

    47
چکیده: 

یک حوزه تحقیقاتی حیاتی که در مطالعات قبلی در مورد مواد نانو سیلیس نادیده گرفته شده است، درک چگونگی تأثیر ویژگی های فیزیکی آن بر رفتار نهایی آن به عنوان یک کامپوزیت در هنگام افزودن به قیر است. این مطالعه با هدف درک امکان سنجی اصلاح نانو سیلیس با قیر بر اساس ویژگی های قیر انجام شد. قیر با عیار نفوذ 60/70 با افزودن (2%، 4% و 6%) نانو سیلیس به وزن آسفالت تهیه شد. ابتدا خواص مواد نانو سیلیس و قیر مورد بررسی قرار گرفت. برای تهیه قیر اصلاح شده در دمای 140 درجه سانتیگراد حرارت داده شد و توسط میکسر مکانیکی با سرعت 2000 دور در دقیقه برای مدت زمان­های مختلف اختلاط (30 تا 60) دقیقه مخلوط شد. قیر اصلاح شده برای خواص رئولوژیکی از جمله درجه نفوذ، دمای نقطه نرم شدن، شاخص نفوذ، ویسکوزیته چرخشی بروکفیلد و آزمایش شکل پذیری مورد بررسی قرار گرفت. نتایج نشان می دهد که سفتی قیر اصلاح شده بر اساس خواص رئولوژیکی افزایش می یابد و حساسیت دما با افزایش درصد نانوسیلیس کاهش می یابد. نانو سیلیس 4 درصد بر حسب وزن آسفالت، خواص مرسوم قیر اصلاح شده را افزایش داد و در شرایط آب و هوایی گرم مناسب شد. در حالی که شکل­پذیری آسفالت اصلاح شده با افزایش درصد نانو سیلیس کاهش می­یابد، به دلیل سفتی و تجمع افزایش می­یابد. در نهایت، زمان اختلاط طولانی تر تا بیش از 60 دقیقه تأثیر نامطلوبی بر خاصیت شکل پذیری داشت و منجر به تجمع قیر اصلاح شده نانوسیلیکا شد.

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