Iranian chemical communication
2423-4958
2345-4806
3
Issue 3, pp. 180-282,Serial No. 8
2015
07
01
The comparison of the antioxidant capacity of methanol extract in three species of Artemisia (A. sieberi Besser, A. aucheri, and A. deserti Krasch)
180
186
EN
Mohammad Ali
Nasseri
University of Birjand
manaseri@birjand.ac.ir
Zahra
Kakouee
University of Birjand
z.kakouee@yahoo.com
Ali
Allahresani
University of Birjand,
rasaniali@gmail.com
Artemisia deserti Krasch (A. deserti), Artemisia aucheri (A. aucheri) and Artemisia sieberi Besser (A. sieberi) are three members of Asteraceae (compositae) family, which grow widely in the even and high areas of Birjand, Iran. This study has attempted to compare the total antioxidant capacity of methanol extracts of these three plants using DPPH (1,1-Diphenyl-2-Picrylhydrazyl) radical scavenging assay in which spectrophotometry method was used at 517 nm. The results showed that the aerial parts (AP) of A. sieberi has the highest total antioxidant capacity (IC50=11.054 mg/mL). The lowest amount of antioxidant capacity was found in the root (R) of A. aucheri (IC50= 91.408 mg/mL).
Antioxidant capacity,Artemisia sieberi Besser,Artemisia aucheri,Artemisia deserti Krasch,DPPH
https://icc.journals.pnu.ac.ir/article_991.html
https://icc.journals.pnu.ac.ir/article_991_aaf6308bfe8e5b6d00a897fcb8c6461b.pdf
Iranian chemical communication
2423-4958
2345-4806
3
Issue 3, pp. 180-282,Serial No. 8
2015
07
01
Green synthesis of nano polypyrrole using urea-hydrogen peroxide
187
198
EN
Fariba
Heidarizadeh
Department of Chemistry, Faculty of Sciences, Shahid Chamran University, Ahvaz, P.O. Box 6135743337, Iran
heidarizadeh@scu.ac.ir
Saeed
Asadipour
Department of Chemistry , Shahid Chamran University, Ahvaz 6135743169, Iran
heidarizadeh@yahoo.com
Polypyrrole is one of the most useful conductive polymers, but green synthesis of this polymer has been restricted until now. The objective of the present paper is green synthesis of nano polypyrrole (PPy) by oxidative polymerization using urea-hydrogen peroxide. It was found that conductivity and morphology of polypyrrole are highly dependent on the reaction conditions such as the molar ratio of oxidized to monomer, temperature, reaction time, kind of solvents, the presence of a catalyst such as p-toluene sulfonic acid, and specially concentration and addition time of hydrochloric acid. After understanding the relationship between these factors, we turned this enormous variability into improved polypyrrole properties.
Conductive polymer,green chemistry,oxidation polymerization,Nano PPy,P-toluene sulfonic acid
https://icc.journals.pnu.ac.ir/article_1135.html
https://icc.journals.pnu.ac.ir/article_1135_0559929bf7b1a60f5377e91d03bdbffa.pdf
Iranian chemical communication
2423-4958
2345-4806
3
Issue 3, pp. 180-282,Serial No. 8
2015
07
01
A comparative study of catalytic properties of ZnO and FeZnO nanoparticles on Oxidation of Benzylic alcohols: Influence of doped metal
199
207
EN
Hamid
Reza
Mardani Kiasari
Payame Noor university, Mazandaran
hamidreza.inorg@yahoo.com
Mehdi
Forouzani
Department of Chemistry, Payame Noor University, Iran
forouzanimehdi@yahoo.com
Mitra
Ziari
Department of Chemistry, Payame Noor University, Iran
mitra.ziari@yahoo.com
Azim
Malekzadeh
Department of Chemistry, Damghan University, Iran
malekzadeh@du.ac.ir
Pouria
Biparva
Department of Basic and Agricultural Sciences and Natural Resources University, Sari, Iran.
pourya2030@gmail.com
Novel nano-catalysts (Nano ZnO and Fe doped ZnO (Fe(0.1)Zn(0.99)O) synthesized by co-precipitation method in aqueous solution as new nanocatalysts and characterized by common techniques as FTIR, XRD, SEM and UVD. The size of particles obtained from XRD data is 27 and 16 nanometers for ZnO and Fresno respectively. Influences of doped Fe on ZnO catalytic properties in oxidation of Benzylic alcohols were studied. The oxidation carried out under mild and green conditions as: solvent free, at room temperature and with H2O2. The results show, FeZnO is better than ZnO as nanocatalyst in oxidation reaction. The rate, %conversion and %selectivity of reaction are improved in the presence of Fe atoms than ZnO only. The main product of oxidation reactions is Benzaldehyde and/or its derivatives.
nanocatalyst,ZnO,FeZnO,doped nanoparticles,Oxidation,green oxidation,benzylic alcohols
https://icc.journals.pnu.ac.ir/article_1166.html
https://icc.journals.pnu.ac.ir/article_1166_ed499518c2f2e7be782fc940dcb27dcc.pdf
Iranian chemical communication
2423-4958
2345-4806
3
Issue 3, pp. 180-282,Serial No. 8
2015
07
01
Melamine trisulfonic acid as a highly efficient catalyst for the synthesis of polyhydroquinolines under solvent-free conditions
208
217
EN
Abdolkarim
Zare
Department of Chemistry, Payame Noor University of Bushehr, Bushehr, Iran
abdolkarimzare@yahoo.com
Maryam
Dashtizadeh
Department of Chemistry, Payame Noor University, PO BOX 19395-4697, Tehran, Iran
mar.dashti54@gmail.com
Maria
Merajoddin
Department of Chemistry, Payame Noor University, PO BOX 19395-4697, Tehran, Iran
maria.merajoddin@yahoo.com
A highly efficient, simple and clean solvent-free protocol for the synthesis of polyhydroquinolines is described. The one-pot multi-component condensation reaction between arylaldehydes, dimedone (5,5-dimethylcyclohexane-1,3-dione), β-ketoesters and ammonium acetate in the presence of catalytic amount of (2.5 mol%) melamine trisulfonic acid (MTSA) as a recyclable, green and attractive sulfonic acid-containing catalyst at 60 °C affords the title compounds in high yields (83-98%) and short reaction times (3-30 min). The advantages of this method are efficiency, generality, high yield, short reaction time, cleaner reaction profile, simplicity, recyclability of the catalyst, ease of product isolation, and good compliance with the green chemistry protocols.
polyhydroquinoline,melamine trisulfonic acid (MTSA),solvent-free,arylaldehyde,dimedone (5,5-dimethylcyclohexane-1,3-dione),β-ketoester
https://icc.journals.pnu.ac.ir/article_1173.html
https://icc.journals.pnu.ac.ir/article_1173_b5d12e95cb2a0b53eb1851feeb735173.pdf
Iranian chemical communication
2423-4958
2345-4806
3
Issue 3, pp. 180-282,Serial No. 8
2015
07
01
The green synthesis of pyrano[3,2-c]quinoline-2,5-dione derivatives catalyzed by acidic ionic liquid under ultrasound irradiation
218
231
EN
Esmayeel
Abbaspour-Gilandeh
islamic azad university of ardabil
abbaspour1365@yahoo.com
Seyyedeh Cobra
Azimi
Islamic Azad University, rasht, Iran
tazimi_2005@yahoo.com
Abstract-A novel and efficient method has been developed for the synthesis of pyrano[3,2-c]quinoline-2,5-dione derivatives by the convenient ultrasound-mediated condensation of 4-hydroxyquinolin-2-one with Meldrum’s acid and aldehydes in the presence of a catalytic amount of [HMIm]HSO4 as a green, efficient and reusable acidic ionic liquid medium. The stability of the ionic liquid during the reaction was high and, used for several times to recycled form. Placing the reaction mixture under ultrasound condition causes that we have lower energy consumption and achieve to the desired product in the optimal time. The method is simple, starts from readily accessible commercial starting materials, and provides biologically interesting products in good yields and short reaction times.
Ultrasonic irradiation,Meldrum’s acid,pyrano[3,2-c]quinoline,ionic liquid
https://icc.journals.pnu.ac.ir/article_1215.html
https://icc.journals.pnu.ac.ir/article_1215_8ad471ae90d17a7d97a46beae2de48b5.pdf
Iranian chemical communication
2423-4958
2345-4806
3
Issue 3, pp. 180-282,Serial No. 8
2015
07
01
One-pot reductive Amination of Carbonyl Compounds using NaBH4 and Fe3O4 Magnetic Nanoparticles
232
243
EN
Mehdi
Forouzani
Payame noor University
forouzanimehdi@yahoo.com
Navabeh
Nami
0000-0003-2656-3410
Department of Chemistry, Islamic Azad University-Qaemshahr Branch, Mazandaran, Iran
navabehnami@yahoo.com
Hassan
Ghasemnejad-Bosra
Islamic Azad University-Babol Branch
Omid
Khalilpour Tylami
Islamic Azad University-Qaemshahr Branch
One-pot reaction of aldehydes or ketons with aniline derivatives was performed using NaBH4 and Fe3O4 magnetic nanoparticles (MNPs). The optimum amount of Fe3O4 MNPs was 5 mol% under solvent free condition. The corresponding products were obtained in good to excellent yields. The magnetically recoverable iron oxide nanoparticles are found to be efficient for synthesis of amine derivatives. These nanoparticles are effective in green chemistry and could be successfully reuse. in addition to having the general advantages attributed to the inherent magnetic property of nanocatalyst, Fe3O4MNPs exhibited exceptionally high catalytic activity compared to other catalysts, to yield the desired products in short reaction time and mild reaction conditions.
Fe3O4 (MNPS),aniline derivative,aldehyde,ketone,amine,NaBH4
https://icc.journals.pnu.ac.ir/article_1228.html
https://icc.journals.pnu.ac.ir/article_1228_c8c4c1daed0e1b86c54b012c6330ea9a.pdf
Iranian chemical communication
2423-4958
2345-4806
3
Issue 3, pp. 180-282,Serial No. 8
2015
07
01
Synthesis of neopentyl glycol and ethylene glycol esters by fatty acids in the presence of acidic ion exchange resin catalyst
244
253
EN
Hadi
Jabbari
Department of Chemistry, Payame Noor University, P.O. BOX 19395-4697, Tehran, Iran.
hadijabbari@yahoo.com
Jabbar
Khalafy
Department of Chemistry, Faculty of Science, University of Urmia, Urmia 57153-165, Iran.
jkhalafi@yahoo.com
Peyman
Najafi Moghadam
Department of Chemistry, Faculty of Science, University of Urmia, Urmia 57153-165, Iran.
A most effective and less energy demanding method of producing fatty esters, diol esters, by esterifying fatty acids, with neopentyl and ethylenglycol alcohols in the presence of an acidic ion exchange resin catalyst(polyestyrendivinylbenzensulfated) was investigated at elevated temperature. In this process an azeotroping agent, toluene, was used to facilitate continuous removal of water by distillation, formed as a by-product during the esterification reaction.The esterification reaction is completed within 4-5 hours and neopentyl and ethylenglycol esters produced with properties of lubricity and biodegradability <br />One of the most important modifications of the carboxyl group of the fatty acid chain is the esterification of the fatty acids obtained by cleavage of such esters. Those processes are performed on large scale. Esterification reactions of neopentylpolyols are normally catalysed with acidic or basic catalysts.Typical homogeneous catalysts are p-toluene sulphonic acid, phosphoric acid, sulphuric <br /> <br />acid, sodium hydroxide, sodium ethoxide and sodium methoxide[1-5]. In some cases, heterogeneous catalysts such as Sn-oxalate or cation exchange resins are used. Enzyme catalysed reactions are also known
Ethylenglycol esters,neopenthylglycol ester,fatty esters,synthetic lubricant ester,resin catalyst
https://icc.journals.pnu.ac.ir/article_1231.html
https://icc.journals.pnu.ac.ir/article_1231_097d4f6ae50f5ae9bf284f70c2abc5a4.pdf
Iranian chemical communication
2423-4958
2345-4806
3
Issue 3, pp. 180-282,Serial No. 8
2015
07
01
Synthesis, Characterization and interaction Studies of 1-(3-bromophenyl azo) 2,7-dihydroxy naphthalene, (BPADHN) with calf thymus deoxy ribo nucleic acid (ct-DNA)
254
265
EN
Nasrin
Sohrabi
Department of Chemistry,Payame Noor University-Tehran-Iran
nasrinsohrabi@yahoo.com
Maryam
Dookheh
Department of Chemistry, Payame Noor University, P.O. BOX 19395-4697 Tehran, Iran
In this study at first , an azo dye, 2,7- naphthalenediol, 2-[(4-Bromophenyl)azo (BPAND) as a ligand has been synthesized by addition of p-Bromoaniline to the modified montomorillonite K10 clay. This ligand was characterized using 1H-NMR, UV-Vis and IR spectroscopies. Subsequently, its interaction with calf thymus deoxyribonucleicacid ,ct-DNA was investigated in 5 mM phosphate buffer solution, pH=7 using UV-Vis absorption, thermal denaturation and viscosity measurement. From spectrophotometric titration experiments, the binding constant of BPAND with ct-DNA was found to be (2.89±0.2)×107 M-1 at 25°C. In order to determine changes in thermodynamic properties such as binding constant, Gibbs free energy, binding enthalpy and binding entropy, this experiment was done at various temperatures. The enthalpy and entropy changes were -2.852±0.634 kJ/mol and -814.065 ±2.52 J/mol.K, respectively.Thermal denaturation experiments show the increasing of melting temperature of ct-DNA (about 0.06°C less than 0.6) due to binding of BPAND ligand. From these results the mechanism and the stoichiometry of binding were determined. The results revealed that this interaction is exothermic (negative enthalpy change) along with negative entropy change. Therefore, the driving force in these interactions is enthalpy and the process is enthalpy-driven and suggest that the main driving force for the ct-DNA-BPAND complex formation is being Van der Waals or hydrogen binding.
Deoxyribo nucleic acid,azo dye,thermodynamic,UV/Vis spectroscopy
https://icc.journals.pnu.ac.ir/article_1257.html
https://icc.journals.pnu.ac.ir/article_1257_8bc37700810a5def56b781d7ee0d5b2f.pdf
Iranian chemical communication
2423-4958
2345-4806
3
Issue 3, pp. 180-282,Serial No. 8
2015
07
01
Magnetic force microscopy using fabricated cobalt-coated carbon nanotubes probes
266
275
EN
Jamal
Afzali
Physics, Young Researchers Club and Elites, Islamic azad university, sanandaj branch, sanandaj, iran
jamal.afzali@gmail.com
Sedigheh
Sadegh Hassani
Catalysis and Nanotechnology Research Division, Research Institute of Petroleum Industry, P. O. Box: 1485733111, Tehran, Iran
nsadeghhassani@yahoo.co.uk
Magnetic force microscope ( MFM ) is a powerful technique for mapping the magnetic force gradient above the sample surface. Herein, single-wall carbon nanotubes (SWCNT) were used to fabricate MFM probe by dielectrophoresis method which is a reproducible and cost-effective technique. The effect of induced voltage on the deposition manner of carbon nanotubes (CNT) on the atomic force microscope ( AFM ) tip was investigated . The optimum voltage and frequency of SWCNT solution are obtained as 13 volts and 2 MHz, respectively. After coating theas-prepared CNT tips with a layer of cobalt,it can be used to obtain high resolution MFM images.
Magnetic force microscope,dielectrophoresis,carbon nanotube probe,MFM probe
https://icc.journals.pnu.ac.ir/article_1259.html
https://icc.journals.pnu.ac.ir/article_1259_5be52a8b9030ea9fd03fad1ae879ad17.pdf
Iranian chemical communication
2423-4958
2345-4806
3
Issue 3, pp. 180-282,Serial No. 8
2015
07
01
Denture base polymers, poly methyl methacrylate improved using free radical copolymerization
276
282
EN
Abdoulhossien
Massoudi
Department of Chemistry, Payame Noor University, PB BOX 19395-4697, Tehran, Iran.
massoudihossein@yahoo.com.au
Azam
Louie
Department of Chemistry, Payame Noor University, PB BOX 19395-4697, Tehran, Iran.
o_louie2001@yahoo.com
Omid
Louie
Department of Chemistry, Payame Noor University, PO Box 19395-4697, Tehran, Iran
louie5556@gmail.com
Poly methyl methacrylate (PMMA) is the most common material used in Prosthodontics. Several studies indicate a breakdown of the number of very high resin bases after 2 to 3 years to avoid breaking bass and several attempts have been made, such as altering the chemical structure of resin by adding causes cross linking or copolymerization. The innovative method for improving the physical properties of the prosthesis and increase its strength, a copolymer of styrene - methyl methacrylate was proposed. Tensile strength increased with the increase of styrene with methyl methacrylate in an amount determined to be the most resistant. Polystyrene and poly methyl methacrylate and copolymers characterized by FTIR, CNMR and Tg and tensile strength were measured according to ISO1567 standard.
copolymer,poly methyl methacrylate (PMMA),poly styrene(PSt),tensile strength
https://icc.journals.pnu.ac.ir/article_1268.html
https://icc.journals.pnu.ac.ir/article_1268_9bab45f889d78d4bf6ca061f165e4ca4.pdf