Home Electrochemical determination of atenolol and propranolol using a carbon paste sensor modified with natural ilmenite
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Electrochemical determination of atenolol and propranolol using a carbon paste sensor modified with natural ilmenite

  • Nevila Broli EMAIL logo , Majlinda Vasjari , Loreta Vallja , Sonila Duka , Alma Shehu and Sadik Cenolli
Published/Copyright: August 30, 2021
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Open Chemistry
From the journal Open Chemistry Volume 19 Issue 1

Abstract

In this study, a simple voltammetric method was reported for independent determination of propranolol (PROP) and atenolol (ATN) in pharmaceutical tablets using carbon paste electrode modified with natural Ilmenite (CPE-I). The analytical performance of the modified sensor was evaluated using the square wave voltammetry and cyclic voltammetry for determination of both β(beta) blockers in 0.1 mol L−1 of sulfuric acid solution (H2SO4). The signal obtained with modified carbon paste electrode in 0.1 mol L−1 of H2SO4 showed a good electrocatalytic activity toward the oxidations of PROP and ATN compared with the bare one. The enhanced oxidation peak current response can be attributed to the catalytic effect of the ilmenite nanomaterial incorporated into the carbon paste electrode. Under optimal condition, good linear calibration curves were obtained ranging from 0.20 to 8.9 mmol L−1 for PROP and 2.0 to 9.9 µmol L−1 for ATN, with detection limits of 80 and 0.31 µmol L−1, respectively. The CPE-I sensor had good repeatability and reproducibility (RSD ≤ 3.2%) and high sensitivity for the detection of both ATN and PROP. The proposed sensor was applied for detection of these drugs in pharmaceutical tablets. The obtained results indicate that the voltammetric CPE-I sensor could be an alternative method for the routine quality control of the β blockers in complex matrices.

Keywords: β blockers; square wave voltammetry; ilmenite nanomaterial; cyclic voltammetry; pharmaceutical tablets

1 Introduction

The use of nanomaterials for the determination of variety of compounds is attracting attention in recent electroanalytical research [1]. In order to modify and improve the sensitivity and selectivity of working electrode, nanomaterials have been shown as suitable materials [2,3]. The presence of nanomaterials on the surface of the working electrode can improve the sensitivity and the rate of electron transfer to the surface electrode, according to some previous results. The development and application of modified carbon paste electrodes (CPE) have received considerable attention due to its low residual current, easy preparation, renewable surfaces, and low cost. Behpour et al. (2010) [8] have prepared a gold nanoparticle-modified carbon paste electrode (GN-CPE) for simultaneous determination of Acetaminophen (ACEP) and ATN. The results obtained demonstrated the potentiality of the GN-CPE for simultaneous determination of ACEP and ATN with high selectivity, good sensitivity, and low detection limits with the low cost of the sensor. Other authors like Ghapanvari et al. (2020) [9] have successfully modified the CPE with Fe3O4 at multi-walled carbon nanotubes at polyacrylonitrile for the detection of imatinib (IMA). Ilmenite (FeO·TiO2) has been widely known as an excellent catalyst in antimicrobial activity, chemical oxygen demand sensing, photocatalysis, and photoelectrocatalysis. In recent studies, the catalytic effect of ilmenite and rutile on composite CPE was reported, where these modified sensors have shown an excellent performance for detection of phenol, pesticides, and drugs [4,5,6,7]. The modified process could improve the sensitivity, electrocatalytic behavior, and surface area. Several related studies reported that CPE modification is one of the most effective methods to improve electrode performance especially in electrode sensitivity for the determination of important compounds such as Epinephrine and Tyrosine, Amiodarone, Bisphenol A, and Losartan Potassium in trace level concentrations [3,4,10,11]. In clinical chemistry, doping and pharmaceutical investigations the quantification and determination of drugs in pharmaceutical samples and biological fluids are essential [12]. ATN (4-(2-hydroxy-3-isopropylaminopropoxy)phenylacetamide) and PROP (1-(isopropylamino)-3-(1-naphthyloxy)-2-propranolol) are cardioselective-adrenergic receptor blocking agents. These blocker agents are widely used in the treatment of cardiovascular diseases, arterial hypertension, cardiac arrhythmias, angina pectoris cardiac arrhythmias, and myocardial infarction [13]. Therefore, the simpler and faster methods for analyses of different receptor blocking agents are interesting in the quality of pharmaceutical formulations that contain them and also for therapeutic drug monitoring purposes. Despite their high use and application, little work has been reported on the determination of cardiovascular drugs by the electrochemical and related sensing devices [14]. The determination of a wide range of drug compounds was conducted using electrochemical techniques. The redox properties of drugs can provide insight into their metabolic fate, their in vivo redox processes, and their pharmacological activities [15,16,17]. For that reason, it is important to develop more sensitive sensors for detection of these drugs.

In this work a simple, selective, and highly sensitive electrochemical sensor modified with ilmenite nanostructure CPE-I is being reported for the determination of ATN and PROP. The CPE-I is an effective sensor for determination of β(beta) blockers (ATN and PROP) because this natural material (containing TiO2 and FeO) has the ability for fast electron transfer, a good biocompatibility, etc., [5,6,18,19]. The proposed method was also applied to the investigation of these analytes in pharmaceutical formulation.

2 Materials and methods

2.1 Experimental

2.1.1 Reagents and chemicals

A pure standard form of Propranolol hydrochloride (W00336) and ATN (series 00336) in powdered form was purchased from TCI Chemicals Pvt. Ltd., India. Chemicals and reagents used for all the experiments were of analytical grade (Sigma and Merck). All solutions were prepared using double distilled water. The H2SO4 used to prepare the supporting electrolyte was purchased from Merck. Acetic acid, dipotassium phosphate, and dihydrogen phosphate were purchased from Merck (99% Merck). The paraffin oil (Olio di Vaselina) used was from Zeta farmaceutici company and the graphite powder synthetic with particles size 90–71 µm was from Alfa Aesar (99.9% Alfa Aesar). Ilmenite natural nanomaterial was granulated with particle size of 90–70 µm and activated with 10% of H2SO4. Commercial pharmaceutical tablets including PROP 83 (40 mg) and ATN (Profarma Sh.a) (100 mg) were purchased from a local pharmacy. A stock solution of 100 mmol L−1 of PROP and 10 mmol L−1 of ATN was prepared in 0.1 mol L−1 of H2SO4 solution and kept at 4°C in a refrigerator. These solutions were diluted to the desired concentration with 0.1 mol L−1 of H2SO4.

2.2 Apparatus

All the electrochemical measurements were carried out using PalmSens4 (potentiostat–galvanostat) connected via Bluetooth with a personal computer and three-electrode system software. The working electrodes were a CPE-I sensor studied in this work, a platinum wire as counter electrode, silver-silver chloride Ag/AgCl/KCl (3M), and a reference electrode. The electrochemical determination of PROP and ATN was performed using cyclic voltammetry (CV) and square wave voltammetry (SWV). SW voltammograms were recorded at a potential from 0.6 to 1.5 V for PROP and 1.0 to 1.6 V (vs SCE) for ATN, with scan rate of 100 mV s−1, amplitude of 0.03 V, and frequency of 25 Hz. All voltammetric measurements were done at 26 ± 0.5°C in an unstirred electrochemical cell containing 15 mL of 0.1 mol L−1 of H2SO4 as supporting electrolyte. Scheme of the experiment and possible oxidation mechanism is shown in Figure 1.

Figure 1 Schematic of experimental mechanisms of electrooxidation of ATN and PROP at surface of CPE-I electrode.
Figure 1

Schematic of experimental mechanisms of electrooxidation of ATN and PROP at surface of CPE-I electrode.

2.3 Preparation of modified sensor CPE-I

The CPE-I was prepared by mixing 70% of graphite, 10% of ilmenite, and 20% of mineral oil for 30 min to give a homogeneous paste. Initially, the graphite powder (with particle size 90–72 µm) and paraffin were mixed together and after that, the inorganic modifier (ilmenite natural material with the same size activated with 10% of H2SO4) was added and mixed with a mortar and pestle until a uniform paste was obtained. The prepared composite material was kept in a refrigerator at 4°C for 24 h before measurement. The obtained paste was packed into the plastic syringe with internal diameter 8 mm and outer diameter of 9.5 mm containing a copper wire as the external electric contact. The unmodified CPE was also prepared in the same way by mixing 70% of graphite and 30% of mineral oil for 30 min, except that no modifier (ilmenite) was added. The electrode surface was smoothed on a glass surface before the measurements. The surface of the electrode was renewed by removing a part of the paste and polishing it again on the glass surface.

2.4 Samples preparation (pharmaceutical tablets of ATN and PROP)

The PROP and ATN are taken from casual drugstore in tablet form. First, the tablets were accurately weighed (each tablet weighs; PROP 0.1708 g contains 40 mg and ATN 0.4196 g contains 100 mg). Five tablets of each were finely ground in the mortar pestle and a portion of respective powdered tablet (equivalent to the average weight of one tablet) was transferred into 50.0 mL volumetric flask using 50.0 mL of 0.1 mol L−1 of H2SO4. From the prepared solution, 1 mL sample of PROP and 0.25 mL of ATN were taken and were analyzed by SWV technique in 15 mL of 0.1 mol L−1 of H2SO4. The PROP and ATN contents were determined using the standard addition method.

  1. Ethical approval: The conducted research is not related to either human or animal use.

3 Results and discussion

3.1 Electrochemical behavior of PROP and ATN at modified CPE-I sensor

The effect of nano-ilmenite material incorporated on CPE sensor was tested by comparing the voltammograms obtained with modified and unmodified sensor toward ATN and PROP. Figure 2a and b shows the typical SW voltammograms of 9.9 µmol L−1 of ATN and 3.6 mmol L−1 of PROP in 0.1 mol L−1 of H2SO4 solution recorded with two different working electrodes (bare CPE and CPE-I).

Figure 2 Square wave voltammograms of (a) 9.9 µmol L−1 of ATN and (b) 3.6 mmol L−1 of PROP at bare CPE and CPE-I in 0.1 mol L−1 of H2SO4 solution (pH 2) with pulse amplitude of 30 mV and frequency of 25 Hz.
Figure 2

Square wave voltammograms of (a) 9.9 µmol L−1 of ATN and (b) 3.6 mmol L−1 of PROP at bare CPE and CPE-I in 0.1 mol L−1 of H2SO4 solution (pH 2) with pulse amplitude of 30 mV and frequency of 25 Hz.

As seen in Figure 2a and b, the SW voltammograms of ATN and PROP at CPE-I electrode appears with enhancement in response to peak current in both the cases compared with the bare one. The modified sensor showed a good improvement in oxidation peak currents for these β blockers. The results indicate that this behavior can be attributed to the catalytic nature [6] of modified CPE-I for ATN and PROP oxidation. The possible oxidation mechanisms [20] for ATN and PROP [21,22,23,24,25] at the surface of the modified electrode were considered as shown in Figure 1.

Regarding the role of Fe(ii)/(iii) species in the oxidation of organic substances, there are many evidences in the literature. [26,27,28]. It has been reported that these species that are generated at positive potentials have the role of a redox mediator in the oxidation of some compounds at Fe related electrodes. The electrode reaction may take place with a mechanism involving a rate limiting step where an intermediate reaction is formed upon a chemical reaction with Fe(ii) and (iii) species. [4,28]. Our results showed that the ilmenite natural material showed good improvement in oxidation peak currents for ATN and PROP. Therefore, it is suggested that the application of ilmenite leads to provide a current sensitivity in detection of these drugs

3.2 Optimization of experimental parameters

The electrochemical performance of modified CPE-I sensor towards PROP and ATN was tested in optimal experimental condition. Different parameters were optimizing such as: (a) electrochemical technique, (b) scan rate, and (c) supporting electrolyte and pH. First, in order to choose the more selective and sensitive technique, the electrochemical behavior of ATN at the surface of the modified electrode using differential pulse voltammetry (DPV), SWV, and CV was investigated. Figure 3 shows the DPV, SWV, and CV voltammograms registered with CPE-I, at 320 µmol L−1 of ATN, in 0.1 mol L−1 of H2SO4.

Figure 3 Voltammograms of 320 µmol L−1 of ATN in 0.1 mol L−1 of H2SO4 at CPE-I composite electrode using the CV, SWV, and DPV techniques. Conditions: CV, scan rate = 100 mV s−1; DPV, scan rate = 20 mV s−1 and pulse amplitude = 30 mV; SWV, pulse amplitude = 30 mV, frequency = 25 Hz, and step potential = 5 mV.
Figure 3

Voltammograms of 320 µmol L−1 of ATN in 0.1 mol L−1 of H2SO4 at CPE-I composite electrode using the CV, SWV, and DPV techniques. Conditions: CV, scan rate = 100 mV s−1; DPV, scan rate = 20 mV s−1 and pulse amplitude = 30 mV; SWV, pulse amplitude = 30 mV, frequency = 25 Hz, and step potential = 5 mV.

As can be seen from the graph in Figure 3, SWV is more sensitive method for detection of ATN because the signal appears with a higher oxidation peak compared with the other two techniques. Regarding this aspect, in further experiments, SWV technique was used for determination of both the β blockers in lower concentration.

The effect of scan rate on peak current response was studied at a concentration of 340 µmol L−1 of ATN in 0.1 mol L−1 of H2SO4. The cyclic voltammograms obtained with CPE-I sensor at different scan rates from 20 to 200 mV s−1 are shown in Figure 4, and no oxidation peaks were observed. This indicates an irreversible heterogeneous charge transfer, which is reported in the previous studies [29,30,31]. Cathodic peak current was proportional to the square root of the scan rate according to the previous study [32] indicating that electrooxidation is diffusion-controlled process. A linear relationship was observed between I p and ν (Figure 4 insert) and R 2 = 0.9928. Plots of the logarithm of the peak current versus the logarithm of the scan rate for ATN is linear with slopes of 0.62, which are close to the theoretical expected value of 0.50 for an ideal reaction of species in solution [33].

Figure 4 Cyclic voltammograms for 340 µmol L−1 of ATN in 0.1 mol L−1 of H2SO4 solution obtained using CPE-I at different scan rates from 20 to 200 mV s−1. Insert: linear dependence of the peak current with ν 1/2.
Figure 4

Cyclic voltammograms for 340 µmol L−1 of ATN in 0.1 mol L−1 of H2SO4 solution obtained using CPE-I at different scan rates from 20 to 200 mV s−1. Insert: linear dependence of the peak current with ν 1/2.

In order to choose the best supporting electrolyte and pH for further electroanalytical measurements, the SW voltammograms were registered in 3.3 mmol L−1 for PROP and 3.3 µmol L−1 for ATN using different supporting electrolytes with pH from 2.0 to 7.0 The best well-defined oxidation peak for both analytes was obtained in H2SO4 solution with adjusted pH of 2.0 at potential of 1.2 V (PROP) and 1.5 V (ATN) as shown in Figure 5.

Figure 5 Square wave voltammograms obtained using CPE-I electrode for (a) of 3.3 mmol L−1 of PROP in (1) acetate buffer (pH 4), (2) in 0.1 mol L−1 of H2SO4 (pH 2), and (3) in phosphate buffer solution (pH 7), and (b) for 3.3 µmol L−1 of ATN in (1) NaNO3 (pH 4), (2) in phosphate buffer solution (pH 7), and (3) in 0.1 mol L−1 of H2SO4 (pH 2), at scan rate of 100 mV s−1 and pulse amplitude of 30 mV.
Figure 5

Square wave voltammograms obtained using CPE-I electrode for (a) of 3.3 mmol L−1 of PROP in (1) acetate buffer (pH 4), (2) in 0.1 mol L−1 of H2SO4 (pH 2), and (3) in phosphate buffer solution (pH 7), and (b) for 3.3 µmol L−1 of ATN in (1) NaNO3 (pH 4), (2) in phosphate buffer solution (pH 7), and (3) in 0.1 mol L−1 of H2SO4 (pH 2), at scan rate of 100 mV s−1 and pulse amplitude of 30 mV.

It is clearly seen that the potential for PROP and ATN oxidation depends on the type of the supporting electrolyte and pH, so in acetate buffer solution, the intensity of oxidation current for PROP is lower and potential peak shifted to the positive value. Regarding the voltammograms obtained in phosphate buffer solution, no well-defined peak was observed. The same situation is observed with ATN in phosphate buffer solution, while in NaNO3 solution, no oxidation peak appeared. Therefore, the solution of 0.1 mol L−1 of H2SO4 (pH = 2) was selected as a suitable supporting electrolyte for further experiments.

3.3 Analytical curves and validation parameters of the methods proposed for PROP and ATN determination

Analytical curves for ATN and PROP using modified CPE-I sensor were obtained using experimental parameters optimized previously. The analytical parameters obtained for ATN and PROP with two applied voltammetric techniques CV and SWV are shown in Table 1. The best analytical parameters like precision, sensitivity, and low detection limits were obtained by SWV, so this method was chosen for the determination of PROP and ATN in pharmaceutical tablets.

Table 1

Quantitative analytical results of the investigated β blockers by SWV and CV techniques

Propranolol (in 0.1 mol L−1 of H2SO4) Atenolol (in 0.1 mol L−1 of H2SO4)
Cyclic voltammetry Square wave voltammetry Square wave voltammetry Cyclic voltammetry
Linear range (µmol L−1) 500–6600 200–8900 2.0–9.9 33–566
Correlation coefficient 0.9920 0.9969 0.9979 0.9943
Slope µA (µmol L−1)−1 43 50 19.5 3.2
RSD (%) 4.1 3.2 2.5 3.9
Detection limit (µmol L−1) 100 80 0.31 1.9
Peak potential (V) 1.2 1.2 1.5 1.6

The SW voltammograms registered in 0.1 mol L−1 of H2SO4 for different concentrations of each β blocker using CPE-I sensor are shown in Figure 6 for concentration ranges: 0.20–8.9 mmol L−1 of PROP (Figure 6a) and 2.0 –9.9 µmol L−1 of ATN (Figure 6b).

Figure 6 Square wave voltammograms obtained using a nano-ilmenite modified CPE as working electrode for: (a) (1) 0; (2) 0.20 mmol L−1; (3) 0.5 mmol L−1; (4) 1.2 mmol L−1; (5) 1.8 mmol L−1; (6) 2.4 mmol L−1; (7) 3.1 mmol L−1; (8) 3.7 mmol L−1; (9) 4.3 mmol L−1; (10) 4.9 mmol L−1; (11) 5.5 mmol L−1; (12) 6.1 mmol L−1; (13) 6.7 mmol L−1; (14) 7.8 mmol L−1; (15) 8.9 mmol L−1 of PROP in 0.1 mol L−1 of H2SO4 and (b) (1) 2.0 µmol L−1; (2) 3.3 µmol L−1; (3) 6.6 µmol L−1; (4) 9.9 µmol L−1 of ATN in 0.1 mol L−1 of H2SO4 (pH 2.0). Inserts: Respective analytical curves for the oxidation processes of PROP (a) and ATN (b).
Figure 6

Square wave voltammograms obtained using a nano-ilmenite modified CPE as working electrode for: (a) (1) 0; (2) 0.20 mmol L−1; (3) 0.5 mmol L−1; (4) 1.2 mmol L−1; (5) 1.8 mmol L−1; (6) 2.4 mmol L−1; (7) 3.1 mmol L−1; (8) 3.7 mmol L−1; (9) 4.3 mmol L−1; (10) 4.9 mmol L−1; (11) 5.5 mmol L−1; (12) 6.1 mmol L−1; (13) 6.7 mmol L−1; (14) 7.8 mmol L−1; (15) 8.9 mmol L−1 of PROP in 0.1 mol L−1 of H2SO4 and (b) (1) 2.0 µmol L−1; (2) 3.3 µmol L−1; (3) 6.6 µmol L−1; (4) 9.9 µmol L−1 of ATN in 0.1 mol L−1 of H2SO4 (pH 2.0). Inserts: Respective analytical curves for the oxidation processes of PROP (a) and ATN (b).

The respective analytical curves obtained for PROP (R 2 = 0.9969) and ATN (R 2 = 0.9979) with corresponding regression equations I ap (µA) = 0.0084 + 0.05019 [c (mmol L−1)] and I ap (µA) = 0.0039 + 0.0195 [c (µmol L−1)] are shown in the insert of Figure 6a and b (where I ap is the anodic peak current and c is the concentration of respective analyte. The detection limit (3σ) values calculated are 80 µmol L−1 for PROP and 0.31 µmol L−1 for ATN. The repeatabilities of sensor determined by successive measurements at modified CPE-I electrode using 3.7 mmol L−1 of PROP and 3.3 µmol L−1 of ATN (n = 5), resulted with relative standard deviation (RSD) of 3.2 and 2.5%, respectively. The reproducibility of modified sensor estimated using the working electrodes CPE-I prepared (n = 3 electrodes) independently for the same concentration of PROP and ATN were obtained with RSDs of 0.57 and 1.2%, respectively.

3.4 Analytical determination of PROP and ATN in pharmaceutical formulation

The development method was applied for determination of both β blockers in pharmaceutical tablets using SWV, since SWV possesses high sensitivity and good resolution. To determine the content of these drugs in real samples, the standard addition method was used. Solutions obtained by dissolving ATN and PROP tablets in 0.1 mol L−1 of H2SO4 were subsequently diluted, in order that ATN and PROP concentrations fall in the range of the calibration plot. The SW voltammograms were obtained at CPE-I by spiking appropriate samples in H2SO4 solution, at optimum conditions for ATN and PROP (as described in Section 2.4). Table 2 shows the amount ATN and PROP determined with CPE-I sensor using SWV technique. It was found that ATN and PROP content determined in pharmaceutical tablets using this method are in good agreement with the reported label value.

Table 2

Determination of ATN and PROP in real samples with CPE-I using square wave voltammetry (n = 3)a

Analyte/Sample Method Spikedb Foundc Recoverye
Propranolol (mg/tablet) Label value 40 mg CPE-I 0 d36.5 ± 1.4
1.8 1.82 ± 0.2 101
3.6 3.54 ± 0.4 98.0
Atenolol (mg/tablet) Label value 100 mg 0 d98.0 ± 5.2
6.6 6.45 ± 0.15 97.7
13 12.88 ± 0.25 99.0
  1. a

    Mean value ± SD.

  2. b

    The unit of spiked concentration for PROP is mmol L−1 and for ATN is µmol L−1.

  3. c

    The measured unit is mmol L−1 for PROP and µmol L−1 for ATN.

  4. d

    The measured unit is mg/tablet.

  5. e

    The measured unit is %.

Recovery test of PROP and ATN was carried out by spiking each analyte in highly diluted tablet samples and results obtained are also shown in Table 2. The tablet samples were spiked with two different amounts of ATN and PROP. The recoveries were found to be in the range of 97.7–101% with a relative SD of 5.2%. These results demonstrated that the proposed methods could be used for the determination of these drugs in pharmaceutical preparations.

4 Conclusion

This work describes the preparation of CPE electrode modified with natural nano-ilmenite for the independent voltammetric determination of ATN and PROP using adequate supporting electrolyte solution of 0.1 mol L−1 of H2SO4. The presence of modifier ilmenite could improve and facilitate the electron transfer in the electrooxidation of both β blockers through the diffusion mechanism process. The modified CPE-I sensor resulted in a higher analytical performance toward PROP and ATN compared with the bare CPE. The proposed method can be used to determine both β blockers ATN and PROP in real sample (commercial drugs) with good reproducibility and with reliable accuracy.

Acknowledgements

The authors would like to thank all the members of staff in the University of Tirana who had assisted during the experimental study.

  1. Funding information: The authors did not receive support from any organization for the submitted work.

  2. Author contributions: N.B. – writing – original draft, investigation, data curation; M.V. – supervision, visualization, methodology; L.V. – data curation, validation; S.D. – formal analysis; A.S. – conceptualization; S.C. – software.

  3. Conflict of interest: The authors have no conflicts of interest to declare that are relevant to the content of this article.

  4. Data availability statement: The datasets used and/or analyzed during the current study are available from the corresponding author on reasonable request.

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Received: 2021-04-09
Revised: 2021-06-14
Accepted: 2021-06-30
Published Online: 2021-08-30

© 2021 Nevila Broli et al., published by De Gruyter

This work is licensed under the Creative Commons Attribution 4.0 International License.

Articles in the same Issue

  1. Regular Articles
  2. Qualitative and semi-quantitative assessment of anthocyanins in Tibetan hulless barley from different geographical locations by UPLC-QTOF-MS and their antioxidant capacities
  3. Effect of sodium chloride on the expression of genes involved in the salt tolerance of Bacillus sp. strain “SX4” isolated from salinized greenhouse soil
  4. GC-MS analysis of mango stem bark extracts (Mangifera indica L.), Haden variety. Possible contribution of volatile compounds to its health effects
  5. Influence of nanoscale-modified apatite-type calcium phosphates on the biofilm formation by pathogenic microorganisms
  6. Removal of paracetamol from aqueous solution by containment composites
  7. Investigating a human pesticide intoxication incident: The importance of robust analytical approaches
  8. Induction of apoptosis and cell cycle arrest by chloroform fraction of Juniperus phoenicea and chemical constituents analysis
  9. Recovery of γ-Fe2O3 from copper ore tailings by magnetization roasting and magnetic separation
  10. Effects of different extraction methods on antioxidant properties of blueberry anthocyanins
  11. Modeling the removal of methylene blue dye using a graphene oxide/TiO2/SiO2 nanocomposite under sunlight irradiation by intelligent system
  12. Antimicrobial and antioxidant activities of Cinnamomum cassia essential oil and its application in food preservation
  13. Full spectrum and genetic algorithm-selected spectrum-based chemometric methods for simultaneous determination of azilsartan medoxomil, chlorthalidone, and azilsartan: Development, validation, and application on commercial dosage form
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  17. Simultaneous removal efficiency of H2S and CO2 by high-gravity rotating packed bed: Experiments and simulation
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https://doi.org/10.1515/chem-2021-0071
Keywords for this article
β blockers; square wave voltammetry; ilmenite nanomaterial; cyclic voltammetry; pharmaceutical tablets
Creative Commons
BY 4.0

Articles in the same Issue

  1. Regular Articles
  2. Qualitative and semi-quantitative assessment of anthocyanins in Tibetan hulless barley from different geographical locations by UPLC-QTOF-MS and their antioxidant capacities
  3. Effect of sodium chloride on the expression of genes involved in the salt tolerance of Bacillus sp. strain “SX4” isolated from salinized greenhouse soil
  4. GC-MS analysis of mango stem bark extracts (Mangifera indica L.), Haden variety. Possible contribution of volatile compounds to its health effects
  5. Influence of nanoscale-modified apatite-type calcium phosphates on the biofilm formation by pathogenic microorganisms
  6. Removal of paracetamol from aqueous solution by containment composites
  7. Investigating a human pesticide intoxication incident: The importance of robust analytical approaches
  8. Induction of apoptosis and cell cycle arrest by chloroform fraction of Juniperus phoenicea and chemical constituents analysis
  9. Recovery of γ-Fe2O3 from copper ore tailings by magnetization roasting and magnetic separation
  10. Effects of different extraction methods on antioxidant properties of blueberry anthocyanins
  11. Modeling the removal of methylene blue dye using a graphene oxide/TiO2/SiO2 nanocomposite under sunlight irradiation by intelligent system
  12. Antimicrobial and antioxidant activities of Cinnamomum cassia essential oil and its application in food preservation
  13. Full spectrum and genetic algorithm-selected spectrum-based chemometric methods for simultaneous determination of azilsartan medoxomil, chlorthalidone, and azilsartan: Development, validation, and application on commercial dosage form
  14. Evaluation of the performance of immunoblot and immunodot techniques used to identify autoantibodies in patients with autoimmune diseases
  15. Computational studies by molecular docking of some antiviral drugs with COVID-19 receptors are an approach to medication for COVID-19
  16. Synthesis of amides and esters containing furan rings under microwave-assisted conditions
  17. Simultaneous removal efficiency of H2S and CO2 by high-gravity rotating packed bed: Experiments and simulation
  18. Design, synthesis, and biological activities of novel thiophene, pyrimidine, pyrazole, pyridine, coumarin and isoxazole: Dydrogesterone derivatives as antitumor agents
  19. Content and composition analysis of polysaccharides from Blaps rynchopetera and its macrophage phagocytic activity
  20. A new series of 2,4-thiazolidinediones endowed with potent aldose reductase inhibitory activity
  21. Assessing encapsulation of curcumin in cocoliposome: In vitro study
  22. Rare norisodinosterol derivatives from Xenia umbellata: Isolation and anti-proliferative activity
  23. Comparative study of antioxidant and anticancer activities and HPTLC quantification of rutin in white radish (Raphanus sativus L.) leaves and root extracts grown in Saudi Arabia
  24. Comparison of adsorption properties of commercial silica and rice husk ash (RHA) silica: A study by NIR spectroscopy
  25. Sodium borohydride (NaBH4) as a high-capacity material for next-generation sodium-ion capacitors
  26. Aroma components of tobacco powder from different producing areas based on gas chromatography ion mobility spectrometry
  27. The effects of salinity on changes in characteristics of soils collected in a saline region of the Mekong Delta, Vietnam
  28. Synthesis, properties, and activity of MoVTeNbO catalysts modified by zirconia-pillared clays in oxidative dehydrogenation of ethane
  29. Synthesis and crystal structure of N,N′-bis(4-chlorophenyl)thiourea N,N-dimethylformamide
  30. Quantitative analysis of volatile compounds of four Chinese traditional liquors by SPME-GC-MS and determination of total phenolic contents and antioxidant activities
  31. A novel separation method of the valuable components for activated clay production wastewater
  32. On ve-degree- and ev-degree-based topological properties of crystallographic structure of cuprite Cu2O
  33. Antihyperglycemic effect and phytochemical investigation of Rubia cordifolia (Indian Madder) leaves extract
  34. Microsphere molecularly imprinted solid-phase extraction for diazepam analysis using itaconic acid as a monomer in propanol
  35. A nitric oxide-releasing prodrug promotes apoptosis in human renal carcinoma cells: Involvement of reactive oxygen species
  36. Machine vision-based driving and feedback scheme for digital microfluidics system
  37. Study on the application of a steam-foam drive profile modification technology for heavy oil reservoir development
  38. Ni–Ru-containing mixed oxide-based composites as precursors for ethanol steam reforming catalysts: Effect of the synthesis methods on the structural and catalytic properties
  39. Preparation of composite soybean straw-based materials by LDHs modifying as a solid sorbent for removal of Pb(ii) from water samples
  40. Synthesis and spectral characterizations of vanadyl(ii) and chromium(iii) mixed ligand complexes containing metformin drug and glycine amino acid
  41. In vitro evaluation of lactic acid bacteria with probiotic activity isolated from local pickled leaf mustard from Wuwei in Anhui as substitutes for chemical synthetic additives
  42. Utilization and simulation of innovative new binuclear Co(ii), Ni(ii), Cu(ii), and Zn(ii) diimine Schiff base complexes in sterilization and coronavirus resistance (Covid-19)
  43. Phosphorylation of Pit-1 by cyclin-dependent kinase 5 at serine 126 is associated with cell proliferation and poor prognosis in prolactinomas
  44. Molecularly imprinted membrane for transport of urea, creatinine, and vitamin B12 as a hemodialysis candidate membrane
  45. Optimization of Murrayafoline A ethanol extraction process from the roots of Glycosmis stenocarpa, and evaluation of its Tumorigenesis inhibition activity on Hep-G2 cells
  46. Highly sensitive determination of α-lipoic acid in pharmaceuticals on a boron-doped diamond electrode
  47. Synthesis, chemo-informatics, and anticancer evaluation of fluorophenyl-isoxazole derivatives
  48. In vitro and in vivo investigation of polypharmacology of propolis extract as anticancer, antibacterial, anti-inflammatory, and chemical properties
  49. Topological indices of bipolar fuzzy incidence graph
  50. Preparation of Fe3O4@SiO2–ZnO catalyst and its catalytic synthesis of rosin glycol ester
  51. Construction of a new luminescent Cd(ii) compound for the detection of Fe3+ and treatment of Hepatitis B
  52. Investigation of bovine serum albumin aggregation upon exposure to silver(i) and copper(ii) metal ions using Zetasizer
  53. Discoloration of methylene blue at neutral pH by heterogeneous photo-Fenton-like reactions using crystalline and amorphous iron oxides
  54. Optimized extraction of polyphenols from leaves of Rosemary (Rosmarinus officinalis L.) grown in Lam Dong province, Vietnam, and evaluation of their antioxidant capacity
  55. Synthesis of novel thiourea-/urea-benzimidazole derivatives as anticancer agents
  56. Potency and selectivity indices of Myristica fragrans Houtt. mace chloroform extract against non-clinical and clinical human pathogens
  57. Simple modifications of nicotinic, isonicotinic, and 2,6-dichloroisonicotinic acids toward new weapons against plant diseases
  58. Synthesis, optical and structural characterisation of ZnS nanoparticles derived from Zn(ii) dithiocarbamate complexes
  59. Presence of short and cyclic peptides in Acacia and Ziziphus honeys may potentiate their medicinal values
  60. The role of vitamin D deficiency and elevated inflammatory biomarkers as risk factors for the progression of diabetic nephropathy in patients with type 2 diabetes mellitus
  61. Quantitative structure–activity relationship study on prolonged anticonvulsant activity of terpene derivatives in pentylenetetrazole test
  62. GADD45B induced the enhancing of cell viability and proliferation in radiotherapy and increased the radioresistance of HONE1 cells
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  64. Dynamics of λ-cyhalothrin disappearance and expression of selected P450 genes in bees depending on the ambient temperature
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  66. Study on the speciation of arsenic in the genuine medicinal material honeysuckle
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  68. Conversion of furfuryl alcohol to ethyl levulinate in the presence of mesoporous aluminosilicate catalyst
  69. Review Articles
  70. Hsien Wu and his major contributions to the chemical era of immunology
  71. Overview of the major classes of new psychoactive substances, psychoactive effects, analytical determination and conformational analysis of selected illegal drugs
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  73. Mechanism underlying sevoflurane-induced protection in cerebral ischemia–reperfusion injury
  74. COVID-19 and SARS-CoV-2: Everything we know so far – A comprehensive review
  75. Challenge of diabetes mellitus and researchers’ contributions to its control
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  77. Color and composition of beauty products formulated with lemongrass essential oil: Cosmetics formulation with lemongrass essential oil
  78. The structural chemistry of zinc(ii) and nickel(ii) dithiocarbamate complexes
  79. Bioprospecting for antituberculosis natural products – A review
  80. Recent progress in direct urea fuel cell
  81. Rapid Communications
  82. A comparative morphological study of titanium dioxide surface layer dental implants
  83. Changes in the antioxidative properties of honeys during their fermentation
  84. Erratum
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  87. Corrigendum
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  89. Special Issue on 3rd IC3PE 2020
  90. Visible light-responsive photocatalyst of SnO2/rGO prepared using Pometia pinnata leaf extract
  91. Antihyperglycemic activity of Centella asiatica (L.) Urb. leaf ethanol extract SNEDDS in zebrafish (Danio rerio)
  92. Selection of oil extraction process from Chlorella species of microalgae by using multi-criteria decision analysis technique for biodiesel production
  93. Special Issue on the 14th Joint Conference of Chemistry (14JCC)
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  95. CO2 gas separation using mixed matrix membranes based on polyethersulfone/MIL-100(Al)
  96. Effect of synthesis and activation methods on the character of CoMo/ultrastable Y-zeolite catalysts
  97. Special Issue on Electrochemical Amplified Sensors
  98. Enhancement of graphene oxide through β-cyclodextrin composite to sensitive analysis of an antidepressant: Sulpiride
  99. Investigation of the spectroelectrochemical behavior of quercetin isolated from Zanthoxylum bungeanum
  100. An electrochemical sensor for high sensitive determination of lysozyme based on the aptamer competition approach
  101. An improved non-enzymatic electrochemical sensor amplified with CuO nanostructures for sensitive determination of uric acid
  102. Special Issue on Applied Biochemistry and Biotechnology 2020
  103. Fast discrimination of avocado oil for different extracted methods using headspace-gas chromatography-ion mobility spectroscopy with PCA based on volatile organic compounds
  104. Effect of alkali bases on the synthesis of ZnO quantum dots
  105. Quality evaluation of Cabernet Sauvignon wines in different vintages by 1H nuclear magnetic resonance-based metabolomics
  106. Special Issue on the Joint Science Congress of Materials and Polymers (ISCMP 2019)
  107. Diatomaceous Earth: Characterization, thermal modification, and application
  108. Electrochemical determination of atenolol and propranolol using a carbon paste sensor modified with natural ilmenite
  109. Special Issue on the Conference of Energy, Fuels, Environment 2020
  110. Assessment of the mercury contamination of landfilled and recovered foundry waste – a case study
  111. Primary energy consumption in selected EU Countries compared to global trends
  112. Modified TDAE petroleum plasticiser
  113. Use of glycerol waste in lactic acid bacteria metabolism for the production of lactic acid: State of the art in Poland
  114. Topical Issue on Applications of Mathematics in Chemistry
  115. Theoretical study of energy, inertia and nullity of phenylene and anthracene
  116. Banhatti, revan and hyper-indices of silicon carbide Si2C3-III[n,m]
  117. Topical Issue on Agriculture
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