Your search keyword '"Fatemeh Karimi"' showing total 20 results

1. Calf thymus ds-DNA intercalation with pendimethalin herbicide at the surface of ZIF-8/Co/rGO/C3N4/ds-DNA/SPCE; A bio-sensing approach for pendimethalin quantification confirmed by molecular docking study

Author

Hassan Karimi-Maleh, Yuezhen Liu, Zhangping Li, Rozhin Darabi, Yasin Orooji, Ceren Karaman, Fatemeh Karimi, Mehdi Baghayeri, Jalal Rouhi, Li Fu, Sadegh Rostamnia, Saravanan Rajendran, Afsaneh L. Sanati, Hasan Sadeghifar, and Masoumeh Ghalkhani

Subjects

Environmental Engineering, Health, Toxicology and Mutagenesis, Public Health, Environmental and Occupational Health, Environmental Chemistry, General Medicine, General Chemistry, Pollution

Published

2023

2. Determination of active ingredients in antihypertensive drugs using a novel green HPLC method approach

Author

Gizem Tiris, Amirhossein Mehmandoust, Fatemeh Karimi, Nevin Erk, and TIRIS, GİZEM

Subjects

Environmental Engineering, Acetonitriles, Health, Toxicology and Mutagenesis, Methanol, Public Health, Environmental and Occupational Health, General Medicine, General Chemistry, Pollution, Phosphates, Leukemia, Myeloid, Acute, Environmental Chemistry, Humans, TIRIS G., Mehmandoust A., Karimi F., ERK N., -Determination of active ingredients in antihypertensive drugs using a novel green HPLC method approach-, Chemosphere, cilt.303, 2022, Antihypertensive Agents, Chromatography, High Pressure Liquid

Abstract

© 2022 Elsevier LtdA novel, sensitive, fast, and pratic RP-HPLC methods were presented for the quantitative amounts of Telmisartan (TEL) and Olmesartan (OLM) in the presence of Amlodipin (AML) in a binary mixture of pharmaceutical preparation. Waters Spherisorb ODS-2 C18 column was used for separation. These methods were valid over linearity ranges of 2.5–30 μμg/mlL, 2–85 μμg/mlL, and 2–35 μμg/mlL for OLM, TEL, and AML, respectively. The mobile phase system consisted of acetonitrile:methanol: phosphate buffer at pH 3.0 (65:5:30 v/v/v), and the flow rate was 1,5 mlL/min for OLM and AML. The mobile system-s other mixture (TEL and AML) was acetonitrile:methanol: phosphate buffer at pH 2.5 (65:5:30 v/v/v), and the flow rate was 1,5 mlL/min. These procedures were successfully applied to bulk, laboratory synthetic mixture, and medicinal dosage forms to use active ingredients quantitatively. The studied methods were validated according to ICH guidelines. In the developed HPLC method, the limit of detection values was found to be 0.020 μμg/mlL for TEL, 0.025 μμg/mlL for OML, and 0.070 μμg/mlL for AML. The correlation coefficients for the HPLC method were found to be 0.9938 for TEL, 0.9996 for OML, and 0.9982 for AML. The calibration range is between 2.5 and -30, 5–35, and 2–85 μμg/mlL for OLM, AML, and TEL, respectively. The proposed HPLC method is a convenient, effective, sensitive, green, and time-saving method for the rapid determination of TEL and OLM in the presence of AML.

Published

2022

3. A bibliometric analysis of graphene in acetaminophen detection: Current status, development, and future directions

Author

Shuyan Xiang, Shuduan Mao, Fei Chen, Shichao Zhao, Weitao Su, Li Fu, Najmeh Zare, and Fatemeh Karimi

Subjects

Environmental Engineering, Bibliometrics, Health, Toxicology and Mutagenesis, Public Health, Environmental and Occupational Health, Environmental Chemistry, Graphite, General Medicine, General Chemistry, Electrochemical Techniques, Pollution, Electrodes, Acetaminophen, Nanostructures

Abstract

Acetaminophen is a widely used analgesic throughout the world. Detection of acetaminophen has particular value in pharmacy and clinics. Electrochemical sensors assembled with advanced materials are an effective method for the rapid detection of acetaminophen. Graphene-based carbon nanomaterials have been extensively investigated for potential analytical applications in the last decade. In this article, we selected papers containing both graphene and acetaminophen. Bibliometrics was used to analyze the relationships and trends among these papers. The results show that the topic has grown at a high rate since 2009. Among them, the detection of acetaminophen by an electrochemical sensor based on graphene is the most important direction. Graphene has moved from being a primary sensing material to a substrate for immobilization of other active ingredients. In addition, the degradation of acetaminophen using graphene-modified electrodes is also an important direction. We analyzed the research history and current status of this topic through bibliometrics. Authors, institutions, countries, and key literature were discussed. We also proposed perspectives for this topic.

Published

2022

4. Silica-coated modified magnetic nanoparticles (Fe

Author

Negar, Jamasbi, Ghodsi, Mohammadi Ziarani, Fatemeh, Mohajer, Mahdieh, Darroudi, Alireza, Badiei, Rajender S, Varma, and Fatemeh, Karimi

Subjects

Ions, Kinetics, Lead, Metals, Heavy, Adsorption, Mercury, Hydrogen-Ion Concentration, Magnetite Nanoparticles, Silicon Dioxide, Water Pollutants, Chemical, Cadmium

Abstract

It is crucial to fabricate cost-effective and efficient strategies for monitoring and eliminating hazardous metals in the water supplies. Among the many techniques, adsorption is one of the most powerful and facile ways for eliminating pollutants from effluents. It is also crucial to engineering high-performance low-cost adsorbents. In this regard, herein, Fe

Published

2022

5. Spiroindeno-pyridineindoles (SIPIs) as new visible colorimetric pH indicators

Author

Ghodsi Mohammadi Ziarani, Maedeh Bagheri, Shahriar Bahar, Alireza Badiei, Jahan B. Ghasemi, and Fatemeh Karimi

Subjects

Environmental Engineering, Indoles, Health, Toxicology and Mutagenesis, Public Health, Environmental and Occupational Health, Environmental Chemistry, Water, Colorimetry, General Medicine, General Chemistry, Hydrogen-Ion Concentration, Pollution

Abstract

Some new, highly selective, and sensitive colorimetric pH indicators, spiro[4H-indeno-[1,2-b]pyridine-4,3'-[3H]indoles] (SIPIs) in aqueous solution were developed. SIPIs were synthesized via a one-pot four-component condensation of isatin derivatives, β-diketones 1,3-indandione, and ammonium acetate using FSi-PrNH-BuSO

Published

2022

6. Electrochemical monitoring of bisphenol-s through nanostructured tin oxide/Nafion/GCE: A solution to environmental pollution

Author

Almas F. Memon, Sidra Ameen, Nadir H. Khand, Nadeem Qambrani, Jamil A. Buledi, Bindia Junejo, Amber R. Solangi, Syed Iqleem H. Taqvi, Elena-Niculina Dragoi, Najmeh Zare, Fatemeh Karimi, and Yasser Vasseghian

Subjects

Environmental Engineering, Health, Toxicology and Mutagenesis, Public Health, Environmental and Occupational Health, Tin Compounds, Water, General Medicine, General Chemistry, Electrochemical Techniques, Pollution, Fluorocarbon Polymers, Limit of Detection, Environmental Chemistry, Environmental Pollution, Electrodes

Abstract

Over the past few decades, phenolic compounds have been broadly exploited in the industries to be utilized in several applications including polycarbonate plastic, food containers, epoxy resins, etc. One of the major compounds in phenolics is Bisphenol-S (BPS) which has dominantly replaced Bisphenol-A in several applications. Phenolic compounds are extensively drained into the environment without proper treatment and cause several health hazards. Thus, to tackle this serious problem an electrochemical sensor based on SnO

Published

2022

7. An improved electrochemical sensor based on triton X-100 functionalized SnO

Author

Almas F, Memon, Sidra, Ameen, Nadeem, Qambrani, Jamil A, Buledi, Nadir H, Khand, Amber R, Solangi, Syed Iqleem H, Taqvi, Ceren, Karaman, Fatemeh, Karimi, and Elahe, Afsharmanesh

Subjects

Octoxynol, Metals, Heavy, Humans, Nanoparticles, Water, Electrochemical Techniques, Electrodes, Cadmium

Abstract

The drastic increases in the concentration of heavy metals ions in the environment have become a serious concern for a number of years. Heavy metals pose serious impacts on human and aquatic life and cause severe health hazards. Amongst heavy metals, cadmium is known for its lethal effects on human health as it easily reacts with enzymes and creates free radicals in the biological system that causes carcinogenicity and other serious diseases. Thus, to tackle this challenge, TX-100 SnO

Published

2022

8. Multifaceted role of polyphenols in the treatment and management of neurodegenerative diseases

Author

Fahadul Islam, Md Mohaimenul Islam, Atkia Farzana Khan Meem, Mohamed H. Nafady, Md Rezaul Islam, Aklima Akter, Saikat Mitra, Fahad A. Alhumaydhi, Talha Bin Emran, Ameer Khusro, Jesus Simal-Gandara, Aziz Eftekhari, Fatemeh Karimi, and Mehdi Baghayeri

Subjects

Environmental Engineering, Curcumin, Berberine, Nitrogen, Synthetic Drugs, Health, Toxicology and Mutagenesis, Public Health, Environmental and Occupational Health, Polyphenols, Neurodegenerative Diseases, General Medicine, General Chemistry, Pollution, Genistein, Oxygen, Resveratrol, Environmental Chemistry, Humans, Quercetin, Luteolin

Abstract

Neurodegenerative diseases (NDDs) are conditions that cause neuron structure and/or function to deteriorate over time. Genetic alterations may be responsible for several NDDs. However, a multitude of physiological systems can trigger neurodegeneration. Several NDDs, such as Huntington's, Parkinson's, and Alzheimer's, are assigned to oxidative stress (OS). Low concentrations of reactive oxygen and nitrogen species are crucial for maintaining normal brain activities, as their increasing concentrations can promote neural apoptosis. OS-mediated neurodegeneration has been linked to several factors, including notable dysfunction of mitochondria, excitotoxicity, and Ca

Published

2022

9. A zinc oxide nanorods/molybdenum disulfide nanosheets hybrid as a sensitive and reusable electrochemical sensor for determination of anti-retroviral agent indinavir

Author

Mohammad Mehmandoust, Fatemeh Karimi, and Nevin Erk

Subjects

Molybdenum, Environmental Engineering, Nanotubes, Health, Toxicology and Mutagenesis, Public Health, Environmental and Occupational Health, Reproducibility of Results, Indinavir, General Medicine, General Chemistry, Electrochemical Techniques, Pollution, Anti-Retroviral Agents, Environmental Chemistry, Disulfides, Zinc Oxide, Electrodes

Abstract

This work aims to develop an electrochemical sensor for the reusable and selective detection of trace levels of indinavir (IDV) as an anti-retroviral drug by using zinc oxide nano-rods/molybdenum disulfide nanosheets on a screen-printed electrode (ZnO NRs/MoS

Published

2022

10. Facile Synthesis of NiO/ZnO nanocomposite as an effective platform for electrochemical determination of carbamazepine

Author

Nadeem Qambrani, Jamil A. Buledi, Nadir H. Khand, Amber R. Solangi, Sidra Ameen, Nida S. Jalbani, Amna Khatoon, Mohammad Ali Taher, F.H. Moghadam, Moein Shojaei, and Fatemeh Karimi

Subjects

Environmental Engineering, Carbamazepine, Health, Toxicology and Mutagenesis, Public Health, Environmental and Occupational Health, Environmental Chemistry, General Medicine, General Chemistry, Electrochemical Techniques, Zinc Oxide, Pollution, Electrodes, Nanocomposites

Abstract

The pharmaceutical science demand for sustainable and selective electrochemical sensors which exhibit ultrasensitive capabilities for the monitoring of different drugs. In an attempt to build a useful electrochemical sensor, we describe a most efficient method for the fabrication of NiO/ZnO nanocomposite through aqueous chemical growth method. The successfully synthesized NiO/ZnO nanocomposite is successfully employed to modify a glassy carbon electrode in order to build a sensitive and reliable electrochemical sensor for the detection of carbamazepine (CBZ), an anticonvulsant drug. The morphological texture, functionalities and crystalline structure of prepared nanocomposite were determined via FTIR, XRD, EDX, TEM, and SEM analysis. In order to examine the charge transfer kinetics, the cyclic voltammetry (CV) and electrochemical impedance spectroscopy (EIS) were used to exploit the electrochemical properties of the synthesized nanocomposite. The NiO/ZnO nanocomposite exhibited excellent electron transfer kinetics and less resistive behavior than the individual NiO and ZnO nanoparticles. The differential pulse voltammetry and cyclic voltammetry tools were used for the fluent determination of CBZ. Certain parameters were optimized to develop an effective method including optimum scan rate 60 mV/s, potential range from 0.4 to 1.4 V and BRB as supporting electrolyte with pH 3. The developed sensor showed exceptional response for CBZ under the linear dynamic range from 5 to 100 μM. The limit of detection of proposed NiO/ZnO sensor for the CBZ was calculated to be 0.08 μM. The analytical approach of prepared electrochemical sensor was investigated in different pharmaceutical formulation with acceptable percent recoveries ranging from 96.7 to 98.6%.

Published

2022

11. Reducing the risk of death induced by aluminum phosphide poisoning: The new therapies

Author

Mastoureh Naddafi, Abbasali Abouei Mehrizi, Mohammad Ali Eghbal, Mahmoud Ghazi Khansari, Yadollah Azarmi, Mohammad Reza Sattari, Ceren Karaman, Fatemeh Karimi, Marzieh Alizadeh, Mohammad Nima Yazdani, and Parsa Hosseinpour

Subjects

Insecticides, Environmental Engineering, Phosphines, Health, Toxicology and Mutagenesis, Poisoning, Antidotes, Public Health, Environmental and Occupational Health, General Medicine, General Chemistry, Pollution, Organophosphate Poisoning, Environmental Chemistry, Humans, Pesticides, Aluminum Compounds

Abstract

Numerous people suffer from accidental or deliberate exposure to different pesticides when poisoning with aluminum phosphate (AlP) is increasing in the eastern countries. Aluminum phosphate is a conventional insecticide that quickly reacts with water or the moistures in the atmosphere and produces fatal phosphine gas, which absorbs quickly by the body. Oral consumption or inhalation of AlP leads to excessive reaction of the body such as fatigue, vomiting, fever, palpitation, vasodilatory shock, increasing blood pressure, cardiac dysfunction, pulmonary congestion, shortness of breath, and death. The garlic smell from the patient's mouth or exhale is one of the methods to recognize the positioning. Due to the lack of individual antidotes, several supportive treatments are required. The present study focused on the available and new therapies that help reduce the effect of AlP poisoning and the mortality rate. The therapies are divided into the antioxidant-related agent and the other agents. The impacts of each agent on the experimental cases are reported.

Published

2021

12. Carbon-based photocatalysts for hydrogen production: A review

Author

Zhigang Li, Kexin Li, Pinru Du, Mohammad Mehmandoust, Fatemeh Karimi, and Nevin Erk

Subjects

Environmental Engineering, Health, Toxicology and Mutagenesis, Public Health, Environmental and Occupational Health, Water, Environmental Chemistry, Graphite, General Medicine, General Chemistry, Pollution, Carbon, Hydrogen

Abstract

Future energy crises and environmental deterioration may only be avoided by converting solar energy into sustainable, safe, cost-effective, and environmentally friendly technologies such as water splitting. Many researchers and governments throughout the globe have stressed the imperative need for affordable, environmental benign, resistive to corrosion, and earth-abundant nanostructured photocatalysts. This has led scientists to look for a green and cost-effective way to generate energy. As a result, the significance of photo catalyst engineering and reactor design difficulties connected to the performance of the photocatalytic reactions, as well as the examination and analysis of photocatalyst behaviors for adaptable and cost effective H2 production, is emphasized and summarized. The carbon-based materials have an appealing band structure, strong chemical stability, is plentiful on Earth, and is relatively easy to produce, making them suitable for hydrogen production. As example, graphene oxide (GO) with the oxygenated functional groups and graphene and its counterparts, including Graphene quantum dots (GQDs), GO, reduce graphene oxide (rGO), have been demonstrated to be ideal nanocomposite materials due to their superior properties and distribution in matrix and CNTs with excellent electronic transmission efficiency, low cost, stability, and environmental friendly are a great alternative of electron mediators for photocatalytic devices to boost light absorptivity for efficient hydrogen generation but some of them have limited photocatalytic activity due to their low sunlight usage efficiency, therefore the numerous methods, such as doping ions, constructing heterostructure, and functionalizing carbon-based materials, have recently been proven to promote the photocatalytic activity of them. The pore structure of carbon material functions as an acceptor of photogenerated electrons, improved the photocatalyst's specific surface area. Generally low-dimensional carbon materials demonstrated immense promise as highly efficient, low-cost, and environmentally friendly catalysts for hydrogen generation as an energy source. This article reviews the recent research progress on carbon-based materials for hydrogen evolution for the first time. It commences with a quick overview of the present state of affairs and fundamental concepts of hydrogen production in carbon-based nanomaterials for use in this field. We anticipate that this study will inspire readers to expand the use of carbon-based materials in H

Published

2022

13. Silica-coated modified magnetic nanoparticles (Fe3O4@SiO2@(BuSO3H)3) as an efficient adsorbent for Pd2+ removal

Author

Negar Jamasbi, Ghodsi Mohammadi Ziarani, Fatemeh Mohajer, Mahdieh Darroudi, Alireza Badiei, Rajender S. Varma, and Fatemeh Karimi

Subjects

Environmental Engineering, Health, Toxicology and Mutagenesis, Public Health, Environmental and Occupational Health, Environmental Chemistry, General Medicine, General Chemistry, Pollution

Published

2022

14. An improved electrochemical sensor based on triton X-100 functionalized SnO2 nanoparticles for ultrasensitive determination of cadmium

Author

Almas F. Memon, Sidra Ameen, Nadeem Qambrani, Jamil A. Buledi, Nadir H. Khand, Amber R. Solangi, Syed Iqleem H. Taqvi, Ceren Karaman, Fatemeh Karimi, and Elahe Afsharmanesh

Subjects

Environmental Engineering, Health, Toxicology and Mutagenesis, Public Health, Environmental and Occupational Health, Environmental Chemistry, General Medicine, General Chemistry, Pollution

Published

2022

15. Ultrasensitive and highly selective 'turn-on' fluorescent sensor for the detection and measurement of melatonin in juice samples

Author

Elham Ashrafzadeh Afshar, Mohammad Ali Taher, Fatemeh Karimi, Ceren Karaman, and Omid Moradi

Subjects

Environmental Engineering, SARS-CoV-2, Health, Toxicology and Mutagenesis, Public Health, Environmental and Occupational Health, COVID-19, Reproducibility of Results, General Medicine, General Chemistry, Pollution, Molecular Imprinting, Limit of Detection, Spectroscopy, Fourier Transform Infrared, Humans, Environmental Chemistry, Melatonin

Abstract

Melatonin (MLT), a hormone related to the regulation of brain functions, is directly related to sleep quality and is considered to be a possible adjuvant therapy for patients needing hospitalization for coronavirus disease 2019 pneumonia, and accurate measurement of MLT is crucial. Herein, a new, highly sensitive, and easy operation fluorescent probe was provided based on Zr metal-organic framework encapsulation into the molecularly imprinted polymer (MOF@MIP). By combining unique properties of MIP and fluorescent MOF, selectivity and operation of the applied method were significantly improved. Different characterization methods, such as XRD, FT-IR, and FE-SEM, were used to confirm the synthesis reliability. MOF@MIP was successfully used for the precise identification and ultrasensitive detection for trace amounts of MLT. The detection mechanism for the analytical system is based on the ''turn-on'' fluorescence (FL) signal in 404 nm. The findings proved that it is possible to detect trace amounts of MLT in real samples including grape, cherry, and sour cherry juice. The linear range and the limit of detection (LOD) for trace amounts of MLT were obtained as 1-100 ng/mL and 0.18 ng/mL, respectively.

Published

2022

16. Heterogeneous UV-Switchable Au nanoparticles decorated tungstophosphoric acid/TiO

Author

Yasin, Orooji, Bahareh, Tanhaei, Ali, Ayati, Soheil Hamidi, Tabrizi, Marzieh, Alizadeh, Fatemeh F, Bamoharram, Fatemeh, Karimi, Sadegh, Salmanpour, Jalal, Rouhi, Safoora, Afshar, Mika, Sillanpää, Rozhin, Darabi, and Hassan, Karimi-Maleh

Subjects

Titanium, Metal Nanoparticles, Gold, Catalysis

Abstract

In the present study, gold nanoparticles were locally well-decorated on the surface of TiO

Published

2020

17. Effect of process parameters over carbon-based ZIF-62 nano-rooted membrane for environmental pollutants separation

Author

Kuan Shiong Khoo, Pau Loke Show, Hui Suan Ng, Rahman Ashena, Abulhassan Ali, Sidra Saqib, Muhammad Mubashir, Awais Bokhari, R. Saidur, Ceren Karaman, Fatemeh Karimi, and Ahmad Mukhtar

Subjects

Environmental Engineering, Materials science, Polymers, Health, Toxicology and Mutagenesis, chemistry.chemical_element, chemistry.chemical_compound, Environmental Chemistry, Response surface methodology, chemistry.chemical_classification, Public Health, Environmental and Occupational Health, General Medicine, General Chemistry, Polymer, Carbon Dioxide, Permeation, Pollution, Cellulose acetate, Carbon, Membrane, chemistry, Chemical engineering, Permeability (electromagnetism), Barrer, Environmental Pollutants, Gases

Abstract

The paper evaluates the routes towards the fabrication and characterization of membranes using ZIF-62 metal organic framework (MOF) nano-hybrid dots for environmental remediation. Optimization of interaction of operating parameters over the rooted membrane is challenging issue. Subsequently, the interaction of operating parameters including temperature, pressure and CO2 gas concentration over the resultant rooted membranes are evaluated and optimized using response surface methodology for environmental remediation. In addition, the stability and effect of hydrocarbons on the performance of the resulting membrane during the gas mixture separation are evaluated at optimum conditions to meet the industrial requirements. The characterization results verified the fabrication of the ZIF-62 MOF rooted composite membrane. The permeation results demonstrated that the CO2 permeability and CO2/CH4 selectivity of the composite membrane was increased from 15.8 to 84.8 Barrer and 12.2 to 35.3 upon integration of ZIF-62 nano-glass into cellulose acetate (CA) polymer, respectively. Subsequently, the optimum conditions have been found at a temperature of 30 °C, the pressure of 12.6 bar and CO2 feed concentration of 53.3 vol%. These optimum conditions revealed the highest CO2 permeability, CH4 permeability and CO2/CH4 separation factor of 47.9 Barrer, 0.2 Barrer and 26.8, respectively. The presence of hydrocarbons in gas mixture dropped the CO2 permeability of 56.5% and separation factor of 46.4% during 206 h of testing. The separation performance of the composite membrane remained stable without the presence of hydrocarbons for 206 h.

Published

2022

18. Investigation of antibacterial, antifungal, antibiofilm, antioxidant and anticancer properties of methanol extracts of Salvia marashica İlçim, Celep & Doğan and Salvia caespitosa Montbret & Aucher ex Benth plants with medicinal importance

Author

Maside Temiz Bostanci, Yusuf Ziya Kocabaş, Ali Savas Bulbul, Nilofar Zakariae, İbrahim Çelik, Hedayat Jafari, Fatih Şen, Roghayeh Esmaeili, Fatemeh Karimi, Hakan Burhan, Ramazan Bayat, and Hassan Karimi-Maleh

Subjects

Antifungal Agents, Environmental Engineering, Antioxidant, Health, Toxicology and Mutagenesis, medicine.medical_treatment, Salvia, Candida parapsilosis, Antioxidants, medicine, Environmental Chemistry, IC50, Minimum bactericidal concentration, biology, Traditional medicine, Plant Extracts, Chemistry, Methanol, Public Health, Environmental and Occupational Health, General Medicine, General Chemistry, biology.organism_classification, Antimicrobial, Pollution, Anti-Bacterial Agents, MCF-7, Biofilms, Bacteria

Abstract

In this study, Antimicrobial, Antifungal and Antibiofilm activity tests on 16 bacteria and 2 fungi of Salvia marashica Ilcim, Celep & Dogan and Salvia caespitosa Montbret & Aucher ex Benth species were performed by Agar Well Diffusion and Microdilution methods. Salvia species showed sensitivity with a zone diameter of 12–16 mm. Concentrations of 0.5 mg/ml to 16 mg/ml by the dilution method were used to determine the Minimum inhibited concentration (MIC) and Minimum bactericidal concentration (MBK). The MIC values of the plants are mostly 0.5 mg/ml - 4 mg/ml and MBC values are between 0.5 mg/ml - 8 mg/ml. Antifungal activity findings are remarkable on the species and it has been observed to have very high effects especially on Candida parapsilosis. When the antioxidant research findings are examined; It was observed that Salvia marashica and Salvia caespitosa plants have approximately 75% antioxidant activity at 1 mg/ml, and findings mostly directly proportional between concentrations and antioxidant activity capacity were recorded. MCF-7 and HUVEC cell lines were used to investigate anticancer activity properties. In line with the findings, while the IC50 value of Salvia marashica on the MCF-7 Cell line was 0.125 mg/ml, it was 1.65 mg/ml in the HUVEC cell line, while the IC50 value of Salvia caespitosa on the MCF-7 Cell line was 0.115 mg/ml in the HUVEC Cell line. It was found to be 9.87 mg/ml. It has been proven that both Salvia species have a cytotoxic effect on the MCF-7 Cell line.

Published

2022

19. Production of bioethanol from carrot pulp in the presence of Saccharomyces cerevisiae and beet molasses inoculum; A biomass based investigation

Author

Hassan Karimi-Maleh, Majid Mahdavian, P. Razaghi, Saeedeh Movaghar Khoshkho, and Fatemeh Karimi

Subjects

Environmental Engineering, Health, Toxicology and Mutagenesis, Biomass, Alcohol, Saccharomyces cerevisiae, engineering.material, Raw material, chemistry.chemical_compound, Environmental Chemistry, Molasses, Ethanol, Pulp (paper), Public Health, Environmental and Occupational Health, food and beverages, General Medicine, General Chemistry, Pulp and paper industry, Pollution, Yeast, Daucus carota, chemistry, Biofuel, Biofuels, Fermentation, engineering, Beta vulgaris

Abstract

Nowadays, ethanol (ethyl alcohol, bioethanol) is one of the most commonly used liquid biofuels, playing a vital role in industrial development. There are some advanced technologies available to produce ethanol by fermentation of agricultural wastes, fruit wastes, municipal and industrial wastes. Herein, the dried carrot pulp as a source of raw material has been utilized for the production of bioethanol by using the yeast Saccharomyces cerevisiae and beet molasses inoculated at 28 °C for 72 h. The results have revealed that the highest amount of alcohol (10.3 ml (40.63 g/l)) has been obtained in a sample containing 50 ml of inoculum, 150 ml of water, and 10 g of dried waste. This study has proved the potential of dried carrot pulp to be converted into a value-added product such as ethanol.

Published

2022

20. Heterogeneous UV-Switchable Au nanoparticles decorated tungstophosphoric acid/TiO2 for efficient photocatalytic degradation process

Author

Mika Sillanpää, Soheil Hamidi Tabrizi, Fatemeh F. Bamoharram, Safoora Afshar, Bahareh Tanhaei, Rozhin Darabi, Hassan Karimi-Maleh, Yasin Orooji, Ali Ayati, Marzieh Alizadeh, Sadegh Salmanpour, Jalal Rouhi, and Fatemeh Karimi

Subjects

Anatase, Environmental Engineering, Nanostructure, Materials science, Nanocomposite, Health, Toxicology and Mutagenesis, 0208 environmental biotechnology, Public Health, Environmental and Occupational Health, Nanoparticle, 02 engineering and technology, General Medicine, General Chemistry, 010501 environmental sciences, 01 natural sciences, Pollution, 020801 environmental engineering, Nitrobenzene, chemistry.chemical_compound, chemistry, Chemical engineering, Colloidal gold, Photocatalysis, Environmental Chemistry, Photodegradation, 0105 earth and related environmental sciences

Abstract

In the present study, gold nanoparticles were locally well-decorated on the surface of TiO2 using the tungstophosphoric acid (HPW), as UV-switchable reducing intermediate linkers. The prepared Au NPs/HPW/TiO2 nanostructure was characterized using FTIR, XRD, EDS, SEM and TEM, which confirmed the successful attachment of quasi-spherical Au NPs in the range of 20–30 nm on the surface of HPW modified TiO2. Also, the FTIR results show that the Au NPs were binded to TiO2 through the terminal the oxygen atoms HPW. The photocatalytic performance of prepared nanostructures was assessed in degradation of nitrobenzene. The nitrobenzene photodegradation kinetic study revealed that it well followed the Langmuir–Hinshelwood kinetic model with the apparent rate constant of 0.001 min−1 using anatase TiO2, 0.0004 min−1 using HPW, 0.0014 using HPW/TiO2, while it was obtained 0.0065 min−1 using Au NPs@HPW/TiO2 nanostructure. It shows that the photocatalytic rate of the prepared nanocomposites increased by 6.5- and 4.6-fold compared to photoactivity of anatase TiO2 and HPW/TiO2 respectively. Also, the photocatalytic mechanism of process was proposed. Moreover, the reusability study confirmed that its photocatalytic activity still remained high after three cycles.

Published

2021