Startseite Fluorescence study of 5-nitroisatin Schiff base immobilized on SBA-15 for sensing Fe3+
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Fluorescence study of 5-nitroisatin Schiff base immobilized on SBA-15 for sensing Fe3+

  • Muhammad Riza Ghulam Fahmi , Adroit T.N. Fajar , Nurliana Roslan , Leny Yuliati , Arif Fadlan , Mardi Santoso und Hendrik O. Lintang EMAIL logo
Veröffentlicht/Copyright: 24. August 2019
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Open Chemistry
Aus der Zeitschrift Open Chemistry Band 17 Heft 1

Abstract

N’-(5-nitro-2-oxoindolin-3-ylidene) thiophene-2-carbohydrazide (NH) was successfully synthesized as a ligand, then grafted onto the surface of mesoporous silica SBA-15via an aminopropyl bridge. The successful grafting of ligand NH onto the hybrid nanomaterial (SBA-15/APTES-NH) was confirmed by infrared spectroscopy. On excitation at 276 and 370 nm, the ligand NH and the hybrid nanomaterial SBA-15/APTES-NH showed a strong and narrow emission peak centered at 533 nm. By dispersing SBA-15/APTES-NH in an aqueous solution containing metal ions, the resulting solid materials showed a higher binding of NH sensing site to Fe3+ ions as compared to the others with a quench of the emission intensity up to 84%. This result showed that the hybrid nanomaterial is a potential chemosensor that requires development for the detection of metal ions.

Keywords: chemosensor; hybrid material; metal ions; SBA-15; Schiff base

1 Introduction

Amongst heavy metals, iron plays an important function in living organisms and their metabolism such as oxygen-carrying and the formation of the hemoglobin [1]. However, excessive Fe3+ in the human body causes various problems such as cancers and dysfunction of organs while an iron deficiency can lead to anemia [2,3]. For these reasons, detecting iron ions have been an interesting area of research. For example, several analytical techniques for detecting iron ions have been generally developed using instrumental techniques such as Voltammetry, Inductively Coupled Plasma Atomic Emission Spectrometry (ICP-AES), and Flame Atomic Absorption Spectrometry (FAAS) [4,5]. However, these techniques become inaccessible because of some inherent limitations such as being expensive, complicated sample pretreatments and due to usage of harmful solvents [2,6]. Recently, fluorescent chemosensors have significantly became an interest because these compounds or materials can be used in environmental research with high sensing capabilities such as easy detection, quick response, good selectivity, high sensitivity, and low costs [7,8].

Schiff base derivatives have played an important role as a chemosensor due to their chromogenic and azomethine groups [9,10]. Schiff base could be easily prepared by condensation between a primary amine and an aldehyde or a ketone group [11]. The lone pair of electrons at the cyanide and carbonyl groups provided a good possibility for chelating to transition metal ions. It is due to the formation of π electrons in the six-membered rings [12, 13, 14]. Therefore, Schiff base can be applied as a chelating agent for the detection of many metal ions. For examples, Schiff base derived from isatin has been widely reported for chemosensors such as isatin N-phenylsemicarbazone [15], rhodamine-isatin [16], 2’,7’-diamino-2-oxo-1’,4’-dihydrospiro[indoline3,4’-quinoline]-3’-carbonitriles [17], and N-methyl isatin [18].

Functionalized mesoporous silica has gained wide attention due to their applications such as membranes, drug delivery, chemosensor, and biosensor [19, 20, 21, 22]. SBA-15, one of the mesoporous silica, is a promising material to be used as inorganic support because of the high thermal stability, large pore size and high surface area [20,23,24]. Besides that, the presence of OH groups from the silanol on the surface of SBA-15 can be attached by various organic chromophores [25,26]. Moreover, for chemosensor applications [27, 28, 29, 30, 31, 32, 33], the regularly arranged pores in its SBA-15 mesostructure can enhance the selectivity to particular guests like organic substance and/or metal ions [34]. For Schiff base ligands as fluorescent chemosensors in the hybrid mesoporous silica materials, several reports have been published for sensing Al3+ [35], Hg2+ [36], Pb2+ [37], Zn2+ [38, 39, 40], and Cu2+ ions [41, 42, 43]. In particular, Wang et al. [44] and Afshani et al. [45] have reported that the grafting of bis-Schiff base N,N′-(1,4-phenylenedimethyli-dyne)bis(1,4-benzenediamine) (PMBA) and salicylaldehyde with SBA-15 can be used for sensing Fe3+ at a less intense blue-emission peak of the binding site consisting of a broad peak. By using isatin-isonicotinohydrazide functionalized SBA-15, Lashgari et al. in 2017 [46] showed that the hybrid nanomaterial can be used as a chemosensor of the same metal ion. However, the sensing capability was only found up to 70% quenching of its less intense and broad emission peak at 420 nm. Hence, it is necessary to develop chemosensors with more bright emission especially in the area closed to near infrared so that the identification and evaluation can be easily carried out and is more sensitive. On the other hands, Schiff-base from 5-nitroisatin type fluorescent chemosensors have been rarely reported [44, 45, 46] and 2-thiophene carboxylic acid hydrazide was reported as Schiff base for the fluorescent probe of 2-hydroxy-1-naphthaldehyde in the detection of Al3+ ions with a broad green-emission at 476 nm [47]. To the best of our knowledge, 5-nitroisatin Schiff base immobilized on SBA-15 hybrid nanomaterials for sensing Fe3+ is one of the potential chemosensor with bright fluorescence and high sensing capability. Herein, we report the first example of hybrid fluorescent chemosensors with strong and intense emission at the green-to-red (533 nm) area using SBA-15 with a Schiff-base nitroisatin based on 2-thiophene carboxylic acid hydrazide, called as N’-(5-nitro-2-oxoindolin-3-ylidene) thiophene-2-carbohydrazide, for the detection of Fe3+ ions. In particular, the new hybrid chemosensor shows high sensing capability up to 84% with low limit of detection and high reusability.

2 Experimental

2.1 Materials and Method

The materials, 5-nitroisatin (Aldrich N17807), 2-thiophenecarboxylic acid hydrazide (Aldrich T1388), aquades, dimethyl sulfoxide anhydrous (Merck 8.02912), ethanol (Merck 1.00983), sulfuric acid, ethyl acetate, acetone, n-hexane, chloroform, and SBA-15 were obtained in the previous study [48]. Infrared spectra are measured using FT-IR JASCO 6800 with ATR disc, UV-Vis spectra were measured using spectrophotometer JASCO V-760, and fluorescence analysis were measured using spectrofluorometer JASCO FP-8500ST. 1H-NMR spectra were obtained at 500 MHz and 13C-NMR spectra were measured at 125 MHz using JMN-ECA 500 NMR machine. DMSO-d6 was used as an internal standard and solvent. Mass spectra were obtained using Waters LCT Premier XE instrument.

2.2 Synthesis of Schiff base

Schiff base ligand NH was synthesized by diluting 5-nitroisatin (0.15 g; 0.80 mmol) in 20 mL of ethanol and placed in a round bottom flask as shown in scheme 1. Three drops of sulfuric acid were added and then refluxed for 20 minutes. 2-Thiophenocarboxylic acid hydrazide (0.11 g; 0.80 mmol) in 10 mL ethanol was added to the mixture and it was refluxed further at 78°C for 2 hours (the current reaction was monitored with thin layer chromatography). The mixture was cooled to room temperature and the solvent was evaporated. The remaining solid was washed with cold ethanol (2x5 mL), dried thoroughly desiccator, and identified by FT-IR, NMR and MS spectrometers.

Scheme 1 Synthesis route of N’-(5-nitro-2-oxoindolin-3-ylidene) thiophene-2-carbohydrazide.
Scheme 1

Synthesis route of N’-(5-nitro-2-oxoindolin-3-ylidene) thiophene-2-carbohydrazide.

2.3 Synthesis of SBA-15/APTES

The mesoporous silica, SBA-15, was prepared in the previous study [48]. 3-Aminopropyl triethoxysilane (APTES) was used as the silylation reagent on the aminopropyl grafting onto SBA-15. Typically, one gram of SBA-15 was mixed to APTES (2.2 mL) in 50 mL chloroform and then stirred at room temperature for 12 hours. After that, the mixture was filtered, washed with chloroform and dried at room temperature. The resulting white solid was characterized by using FT-IR spectrometer.

2.4 Synthesis of SBA-15/APTES-NH

For the grafting of an organic compound, SBA-15/APTES (200 mg) and ligand NH thiophene-2-carbohydrazide (57 mg) were refluxed in ethanol solution (50 mL) for 24 hours. This mixture was filtered with a Whatman paper and washed with ethanol until the filtrate did not show yellow color. The resulting yellow solid was dried at room temperature and characterized by FT-IR and fluorescent spectrometers.

2.5 Fluorescent Chemosensor of Metal Ions

Sensing properties of SBA-15/APTES-NH were evaluated by using the solid method. Iron ions in chloride salt (FeCl3) were dissolved in water with a concentration of 50, 100, 150, and 200 mM. After that, 1 mL of Fe3+ ion was mixed with 5 mg of SBA-15/APTES-NH and sonicated for 5 minutes. The mixture was centrifuged for 15 minutes, decantated and dried at 50O_C. The resulting solid sample was measured their changes in emission and excitation by using fluorescence spectroscopy. Other metal ions such as Ca2+, Co2+, Cu2+, Fe3+, K+, Mg2+, Mn2+, and Zn2+ in 100 mM were also evaluated with the same experiment procedure.

3 Result and Discussion

The synthesis of ligand NH was prepared by adapting the previous method [49]. Typically, as shown in Scheme 1, 5-nitroisatin was refluxed with 2-thiophenocarboxylic hydrazide in ethanol under acidic conditions using sulfuric acid to give ligand NH in 92% yield. Figure 1 shows the FT-IR spectrum of the ligand NH, SBA-15, SBA-15/APTES and the hybrid materials SBA-15/APTES-NH. The vibration peaks at 3149 and 1529 cm-1 were assigned to N-H and C=N functional groups, indicating the formation of Schiff base as the ligand NH. Other important vibration peaks of the ligand NH were identified at 1662 and 1340 cm-1 for carbonyl (C=O) and C=C aromatic groups. Moreover, the 1H-NMR spectrum shows a singlet signal of NH hydrazide proton at chemical shift (δ) of 13.12 ppm and NH isatin proton at δ of 11.93 ppm. In addition, aromatic protons have shown their signals at δ of 7.15, 7.31, 7.97, 8.10, 8.29 and 8.30 ppm with a number of protons for 6H from isatin and thiophene rings. Mass spectrum shows the molecular ion peaks [M+H]+ at m/z 317.3164 Da and [M+Na]+ at m/z 339.3615 Da. The calculation of exact mass for ligand NH shows the molecular ion peaks [M+H]+ at

Figure 1 FT-IR spectrum of SBA-15 (black line), SB-15/APTES (red line), SBA-15/APTES-NH (blue line) and ligand NH (pink line).
Figure 1

FT-IR spectrum of SBA-15 (black line), SB-15/APTES (red line), SBA-15/APTES-NH (blue line) and ligand NH (pink line).

m/z 317.3000 Da and [M+Na]+ at m/z 339.2818 Da that are closed to the observed ones. These results confirm that the ligand NH has been successfully formed.

In the synthesis of hybrid nanomaterial, the unmodified SBA-15 was firstly characterized using FT-IR spectrometer. It showed the vibration bands at 3300-3750, 1080, 970-950 and 461 cm-1 for OH, Si–O–Si, Si–OH, and Si–O, respectively. When compared with SBA-15, the intensity of silanol groups at 3467 cm-1 was decreased in SBA-15/APTES concomitant with increasing intensity of N-H bands of the APTES aminopropyl groups. Besides that, the presence of original vibration bands in the range of 2881–2990 cm−1 for stretching of methylene vibrations from the propyl chain were still observed, indicating the successful grafting of APTES with SBA-15 to give SBA-15/APTES. Moreover, since the characteristics of vibration peaks for ligand NH and SBA-15/APTES were still observed, the ligand NH was successfully grafted onto the surface of SBA-15/APTES to give SBA-15/APTES-NH.

Figure 2 shows the fluorescent studies of ligand NH and hybrid material SBA-15/APTES-NH. The fluorescence of these hybrid materials appears at a definite excitation wavelength because the ligand NH can produce strong fluorescence. Commonly, SBA-15 did not show fluorescence due to the absence of chromophore groups. By excitation at 276 and 370 nm for the ligand NH, it gave emission peaks centered at 308 and 533 nm from respective isatin and thiophene chromophores [47,50]. By using the same excitation peaks, the monitoring spectrum for the hybrid materials showed the same narrow and intense emission peak. Such small decrease in the emission intensity in the hybrid material can be observed due to the degree of loading for the organic moieties not only onto the surface but also in the silicate channels as found in many reports of functionalization mesoporous silica with functional groups [51].

Figure 2 Excitation (dash line) and emission (straight line) spectrum of (a) ligand NH and (b) hybrid material SBA-15/APTES-NH.
Figure 2

Excitation (dash line) and emission (straight line) spectrum of (a) ligand NH and (b) hybrid material SBA-15/APTES-NH.

The sensing properties of SBA-15/APTES-NH were conducted by the solid method. Solid methods or solid-contact have major advantages such as minimizing waste from organic solvents when compared to chemosensors which were used as organic solvents such as dimethylsulfoxide and acetonitrile [52,53]. Besides that, the organic solvent can interfere with the sensing process and change the responsive optical properties of certain chemosensors [54]. Figure 3 shows that the changes in excitation and emission properties of hybrid material SBA-15/APTES-NH after getting mixed with the solution of 100 mM metal ions (Ca2+, Co2+, Cu2+, Fe3+, K+, Mg2+, Mn2+, and Zn2+). By using the same excitation for monitoring emission properties of the hybrid material, it was found that the SBA-15/APTES-NH showed a decrease in its emission intensities for Fe3+ in 77% (Figure 3a) and 84% (Figure 3b) at 276 and 374 nm. In this case, DI/I0 described as the sensing capability of the host (SBA-15/APTES-NH) for sensing same guest (metal ions) [25,55] where the value DI is I-I0, (I0 is the fluorescent intensity for the only composite SBA-15/APTES-NH while I is the fluorescent intensity for the sensor with metal ions). As can be seen in Figure 4a, the largest ΔI/I0 (approximately 0.84) is observed in the presence of Fe3+, whereas a small change was observed in the presence of other metal ions. Thus, hybrid material SBA-15/APTES-NH shows a remarkable sensitivity for the fluorescent chemosensor of Fe3+ ions.

Figure 3 Emission spectral changes of the hybrid material SBA-15/APTES-NH with excitation wavelengths at (a) 276 and (b) 370 nm after sensing various metal ions.
Figure 3

Emission spectral changes of the hybrid material SBA-15/APTES-NH with excitation wavelengths at (a) 276 and (b) 370 nm after sensing various metal ions.

Figure 4 (a) Sensing capability (DI/I0) of SBA-15/APTES-NH for the detection of various metal ions and (b) changes in emission intensity in the presence of a mixture of Fe3+ and Cu2+ in an equal concentration of 100 mM with an excitation at 370 nm.
Figure 4

(a) Sensing capability (DI/I0) of SBA-15/APTES-NH for the detection of various metal ions and (b) changes in emission intensity in the presence of a mixture of Fe3+ and Cu2+ in an equal concentration of 100 mM with an excitation at 370 nm.

Interestingly, as shown in Figure 4a, the SBA-15/APTES-NH showed the second highest in the decrease of emission intensity for sensing Cu2+ ions in 33% and 45% upon monitoring at 276 and 370 nm. Such sensing capability is almost half of the performance in the detection of Fe3+. Of interest to the real sample, the SBA-15/APTES-NH was used to detect the mixture of both ions with the same concentration (100 mM) in order to evaluate the selectivity and/or interference. Since the decrease of the emission intensity is between the response of the hybrid chemosensor for sensing sample containing Cu2+ and Fe3+ ions, the presence of Cu2+ ions in the mixture was found to reduce the performance of the hybrid material around 7% only in the detection of Fe3+ ions (as shown in Figure 4b). From this finding, it can also be concluded that the hybrid chemosensor is more selective to detect Fe3+ than Cu2+ ions with only small interference to the presence of Cu2+ ions.

The sensing capability of SBA-15/APTES-NH was studied by addition of various concentrations of Fe3+ ions in the range of 50-200 mM. Figure 5a and 5b shows the changes in the emission intensities of SBA-15/APTES-NH upon monitoring at excitation wavelengths of 276 and 370 nm. From that evaluation, the chemosensor showed gradually quenching of its emission intensity with an increasing concentration of Fe3+ ions up to 200 mM. Moreover, the Stern-Volmer plot (as shown in Figure 5c) with a variation of the concentration indicates that the

Figure 5 Effect of Fe3+ concentrations on the emission spectra changes of SBA-15/APTES-NH at (a) 276 and (b) 370 nm and (c) Stern-Volmer plot (wavelength excitation at 370 nm) between relative emission intensity at 533 nm as well as (d) changes in emission intensity with variation concentration of Fe3+ ions at 276 and 370 nm with SD error bars.
Figure 5

Effect of Fe3+ concentrations on the emission spectra changes of SBA-15/APTES-NH at (a) 276 and (b) 370 nm and (c) Stern-Volmer plot (wavelength excitation at 370 nm) between relative emission intensity at 533 nm as well as (d) changes in emission intensity with variation concentration of Fe3+ ions at 276 and 370 nm with SD error bars.

changes in emission intensities upon detection of the Fe3+ ions are linearly dependent on the increase in the concentration of the guest for both excitation wavelengths. Such changes can be identified as dynamical interaction of the sensing site toward the presence of Fe3+ ions. The limit of detection (LOD) of SBA-15/APTES-NH can be calculated with the equation LOD = 3 SD/Ksv [56,57], where SD is the standard deviation of the blank signals and Ksv is the quenching constant of Stern-Volmer. The result of SD and Ksv is 0.006905426 and 0.0139 mM-1, respectively. Therefore, the detection limit of SBA-15/APTES-NH is 1.49 mM, which indicates that the SBA-15/APTES-NH is potentially used for detection of Fe3+ ions even in the lower concentration. Otherwise, the SBA-15/APTES-NH sensor can be potentially applied to detect Fe3+ ions in the environmental and pharmaceutical fields [58,59]. Moreover, limit of quantification (LOQ) can be also calculated with the equation of LOQ = 10 SD/Ksv [60]. The LOQ value of SBA-15/APTES-NH is 6.32 mM. By using the calibration curve as the relative emission intensity of SBA-15/APTES-NH at 533 nm versus Fe3+ concentration, the quantitative analysis can be performed in the presence of real samples. In the linear range between 50 to 200 mM, the calibration curve is not straightforward with a high relative coefficient due to the inhomegenous distribution of organic moieties in the grafting with SBA-15/APTES. Such drawback in the loading of organic functional groups has been discussed in many reports [52]. Of interest, the good reproducibility of SBA-15/APTES-NH was shown with the small RSD value in 2.7 and 7.4% for both excitation wavelengths of 276 and 370 nm (Figure 5d).

Reusability testing is important factors for the development of novel chemosensors in practical applications. Previously, chemosensors for the detection of Fe3+ ions based on functionalized SBA-15 have not yet reported the reversibility testing [44,61]. In this study, the reversibility of the Fe3+ was treated by the addition of the binding agent of potassium thiocyanate (KSCN) in hydrochloric acid (HCl) (pH = 1) to the hybrid chemosensor consisting of Fe3+ ions. The testing was performed until the color of the solution of KSCN in HCl changes from red to a colorless solution. As shown in Figure 6, the hybrid chemosensor can be recycled up to three times with only a small decrease in the performance. Such reusability result is an important achievement for the fabrication of Fe3+ fluorescent chemosensors.

Figure 6 Reversibility testing with changes in fluorescent intensity of SBA-15/APTES-NH at 533 nm upon addition to KSCN in HCl solution.
Figure 6

Reversibility testing with changes in fluorescent intensity of SBA-15/APTES-NH at 533 nm upon addition to KSCN in HCl solution.

The FT-IR spectrum of the SBA-15/APTES-NH with the absence and presence of Fe3+ ions was particularly analyzed in the range of 1800-400 cm-1 using ATR (Figure 7a). The FT-IR spectrum of SBA-15/APTES-NH shows characteristic vibration peaks at 1707, 1662, 1341 and 751 cm-1, which are assigned to the vibrations of carbonyl amide,

Figure 7 (a) FT-IR spectrum of the SBA-15/APTES-NH with the absence and presence of Fe3+ ions and (b) Job’s plot for Fe3+ ions versus nett volume of ligand NH to Fe3+ ion.
Figure 7

(a) FT-IR spectrum of the SBA-15/APTES-NH with the absence and presence of Fe3+ ions and (b) Job’s plot for Fe3+ ions versus nett volume of ligand NH to Fe3+ ion.

C=N, C-N and C-S groups, respectively. Moreover, the vibration peak of N-H bending from isatin ring, Schiff base, and aminopropyl (from APTES) groups were observed at 1624, 1603, and 1530 cm-1. Upon addition of Fe3+ ions to the chemosensor, the N-H bending of Schiff base and C=O peaks slightly shifted with small changes in their intensities from 1707 to 1706 cm-1, 1603 to 1605 cm-1 and 1530 to 1529 cm-1. In shall be noted that the vibration peak of the N-H from Schiff base was increased in 1.25 times of its intensity while vibration peak for C=N was broadened and vibration peaks for C-N and C-S were reduced significantly. Such changes clearly suggest that Fe3+ ions have formed strong interactions with the Schiff base and thiophene ring while a weak interaction can also be possible with aminopropyl-bridged nitro isatin group [53]. Further analysis with Job’s plot for binding analysis of the ligand NH to Fe3+ ions in the solution phase as shown in Figure 7b confirmed that the interaction were initially closed to 1:1 of Fe3+ ions to ligand NH and then gradually changed to 1:4 to form the stable binding interactions. Based on the above finding, the interactions of Fe3+ ions with the sensing site of hybrid material SBA-15/APTES-NH can be proposed as shown in Figure 8.

Figure 8 Proposed plausible mechanism for the interaction of ligand NH as the sensing site in the hybrid material SBA-15/APTES-NH for the detection of Fe3+ ions.
Figure 8

Proposed plausible mechanism for the interaction of ligand NH as the sensing site in the hybrid material SBA-15/APTES-NH for the detection of Fe3+ ions.

4 Conclusion

The organic-inorganic hybrid SBA-15/APTES-NH was synthesized and characterized using the mesoporous silica SBA-15 and the new nitroisatin (ligand NH). This hybrid SBA-15/APTES-NH was successfully applied as a chemosensor and showed a good sensing capability towards Fe3+ ions from its emission changes at 533 nm with an quenching phenomenon up to 84%, low LOD, and RSD as well as high reusability. From the Stern-Volmer diagram, the SBA-15/APTES-NH showed a linear graphic with the excitation of wavelengths at 276 and 370 nm for a good relationship of the emission changes with the increasing concentration of Fe3+ ions. All of the obtained results suggest that the new hybrid material SBA-15/APTES-NH with an intense and narrow emission peak is a potential fluorescent chemosensor for the detection of Fe3+ ions.

Acknowledgment

The authors thank Ministry of Research, Technology and Higher Education, The Republic of Indonesia for financial support through Higher Education Excellent Applied Research Grant (Penelitian Terapan Unggulan Perguruan Tinggi) 2019 with Agreement No. 006/MACHUNG/LPPM/SP2H-LIT-MULTI/III/2019. This research was partially financed by COMSTECH-TWAS Joint Research Grants Programme with a contract agreement number of 17-139RG/MSN/AS_C-FR3240300067.

  1. Conflict of interest: Authors declare no conflict of interest.

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Received: 2018-09-11
Accepted: 2019-02-12
Published Online: 2019-08-24

© 2019 Muhammad Riza Ghulam Fahmi et al., published by De Gruyter

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

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  137. Improved thermally stable oligoetherols from 6-aminouracil, ethylene carbonate and boric acid
  138. The role of a chemical loop in removal of hazardous contaminants from coke oven wastewater during its treatment
  139. Combating paraben pollution in surface waters with a variety of photocatalyzed systems: Looking for the most efficient technology
  140. Special Issue on Chemistry Today for Tomorrow 2019
  141. Applying Discriminant and Cluster Analyses to Separate Allergenic from Non-allergenic Proteins
  142. Chemometric Expertise Of Clinical Monitoring Data Of Prolactinoma Patients
  143. Chemomertic Risk Assessment of Soil Pollution
  144. New composite sorbent for speciation analysis of soluble chromium in textiles
  145. Photocatalytic activity of NiFe2O4 and Zn0.5Ni0.5Fe2O4 modified by Eu(III) and Tb(III) for decomposition of Malachite Green
  146. Photophysical and antibacterial activity of light-activated quaternary eosin Y
  147. Spectral properties and biological activity of La(III) and Nd(III) Monensinates
  148. Special Issue on Monitoring, Risk Assessment and Sustainable Management for the Exposure to Environmental Toxins
  149. Soil organic carbon mineralization in relation to microbial dynamics in subtropical red soils dominated by differently sized aggregates
  150. A potential reusable fluorescent aptasensor based on magnetic nanoparticles for ochratoxin A analysis
  151. Special Issue on 13th JCC 2018
  152. Fluorescence study of 5-nitroisatin Schiff base immobilized on SBA-15 for sensing Fe3+
  153. Thermal and Morphology Properties of Cellulose Nanofiber from TEMPO-oxidized Lower part of Empty Fruit Bunches (LEFB)
  154. Encapsulation of Vitamin C in Sesame Liposomes: Computational and Experimental Studies
  155. A comparative study of the utilization of synthetic foaming agent and aluminum powder as pore-forming agents in lightweight geopolymer synthesis
  156. Synthesis of high surface area mesoporous silica SBA-15 by adjusting hydrothermal treatment time and the amount of polyvinyl alcohol
  157. Review of large-pore mesostructured cellular foam (MCF) silica and its applications
  158. Ion Exchange of Benzoate in Ni-Al-Benzoate Layered Double Hydroxide by Amoxicillin
  159. Synthesis And Characterization Of CoMo/Mordenite Catalyst For Hydrotreatment Of Lignin Compound Models
  160. Production of Biodiesel from Nyamplung (Calophyllum inophyllum L.) using Microwave with CaO Catalyst from Eggshell Waste: Optimization of Transesterification Process Parameters
  161. The Study of the Optical Properties of C60 Fullerene in Different Organic Solvents
  162. Composite Material Consisting of HKUST-1 and Indonesian Activated Natural Zeolite and its Application in CO2 Capture
  163. Topical Issue on Environmental Chemistry
  164. Ionic liquids modified cobalt/ZSM-5 as a highly efficient catalyst for enhancing the selectivity towards KA oil in the aerobic oxidation of cyclohexane
  165. Application of Thermal Resistant Gemini Surfactants in Highly Thixotropic Water-in-oil Drilling Fluid System
  166. Screening Study on Rheological Behavior and Phase Transition Point of Polymer-containing Fluids produced under the Oil Freezing Point Temperature
  167. The Chemical Softening Effect and Mechanism of Low Rank Coal Soaked in Alkaline Solution
  168. The Influence Of NO/O2 On The NOx Storage Properties Over A Pt-Ba-Ce/γ-Al2O3 Catalyst
  169. Special Issue on the International conference CosCI 2018
  170. Design of SiO2/TiO2 that Synergistically Increases The Hydrophobicity of Methyltrimethoxysilane Coated Glass
  171. Antidiabetes and Antioxidant agents from Clausena excavata root as medicinal plant of Myanmar
  172. Development of a Gold Immunochromatographic Assay Method Using Candida Biofilm Antigen as a Bioreceptor for Candidiasis in Rats
  173. Special Issue on Applied Biochemistry and Biotechnology 2019
  174. Adsorption of copper ions on Magnolia officinalis residues after solid-phase fermentation with Phanerochaete chrysosporium
  175. Erratum
  176. Erratum to: Sand Dune Characterization For Preparing Metallurgical Grade Silicon
https://doi.org/10.1515/chem-2019-0053
Schlagwörter für diesen Artikel
chemosensor; hybrid material; metal ions; SBA-15; Schiff base
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Artikel in diesem Heft

  1. Regular Articles
  2. Research on correlation of compositions with oestrogenic activity of Cistanche based on LC/Q-TOF-MS/MS technology
  3. Efficacy of Pyrus elaeagnifolia subsp. elaeagnifolia in acetic acid–induced colitis model
  4. Anti-inflammatory and antinociceptive features of Bryonia alba L.: As a possible alternative in treating rheumatism
  5. High efficiency liposome fusion induced by reducing undesired membrane peptides interaction
  6. Prediction of the Blood-Brain Barrier Permeability Using RP-18 Thin Layer Chromatography
  7. Phytic Acid Extracted from Rice Bran as a Growth Promoter for Euglena gracilis
  8. Development of a validated spectrofluorimetric method for assay of sotalol hydrochloride in tablets and human plasma: application for stability-indicating studies
  9. Topological Indices of Hyaluronic Acid-Paclitaxel Conjugates’ Molecular Structure in Cancer Treatment
  10. Thermodynamic properties of the bubble growth process in a pool boiling of water-ethanol mixture two-component system
  11. Critical Roles of the PI3K-Akt-mTOR Signaling Pathway in Apoptosis and Autophagy of Astrocytes Induced by Methamphetamine
  12. Characteristics of Stable Hydrogen and Oxygen Isotopes of Soil Moisture under Different Land Use in Dry Hot Valley of Yuanmou
  13. Specific, highly sensitive and simple spectrofluorimetric method for quantification of daclatasvir in HCV human plasma patients and in tablets dosage form
  14. Chromium-modified cobalt molybdenum nitrides as catalysts for ammonia synthesis
  15. Langerhans cell-like dendritic cells treated with ginsenoside Rh2 regulate the differentiation of Th1 and Th2 cells in vivo
  16. Identification of Powdery Mildew Blumeria graminis f. sp. tritici Resistance Genes in Selected Wheat Varieties and Development of Multiplex PCR
  17. Computational Analysis of new Degree-based descriptors of oxide networks
  18. The Use Of Chemical Composition And Additives To Classify Petrol And Diesel Using Gas Chromatography–Mass Spectrometry And Chemometric Analysis: A Uk Study
  19. Minimal Energy Tree with 4 Branched Vertices
  20. Jatropha seed oil derived poly(esteramide-urethane)/ fumed silica nanocomposite coatings for corrosion protection
  21. Calculating topological indices of certain OTIS interconnection networks
  22. Energy storage analysis of R125 in UIO-66 and MOF-5 nanoparticles: A molecular simulation study
  23. Velvet Antler compounds targeting major cell signaling pathways in osteosarcoma - a new insight into mediating the process of invasion and metastasis in OS
  24. Effects of Azadirachta Indica Leaf Extract, Capping Agents, on the Synthesis of Pure And Cu Doped ZnO-Nanoparticles: A Green Approach and Microbial Activity
  25. Aqueous Micro-hydration of Na+(H2O)n=1-7 Clusters: DFT Study
  26. A proposed image-based detection of methamidophos pesticide using peroxyoxalate chemiluminescence system
  27. Phytochemical screening and estrogenic activity of total glycosides of Cistanche deserticola
  28. Biological evaluation of a series of benzothiazole derivatives as mosquitocidal agents
  29. Chemical pretreatments of Trapa bispinosa's peel (TBP) biosorbent to enhance adsorption capacity for Pb(ll)
  30. Dynamic Changes in MMP1 and TIMP1 in the Antifibrotic Process of Dahuang Zhechong Pill in Rats with Liver Fibrosis
  31. The Optimization and Production of Ginkgolide B Lipid Microemulsion
  32. Photodynamic Therapy Enhanced the Antitumor Effects of Berberine on HeLa Cells
  33. Chiral and Achiral Enantiomeric Separation of (±)-Alprenolol
  34. Correlation of Water Fluoride with Body Fluids, Dental Fluorosis and FT4, FT3 –TSH Disruption among Children in an Endemic Fluorosis area in Pakistan
  35. A one-step incubation ELISA kit for rapid determination of dibutyl phthalate in water, beverage and liquor
  36. Free Radical Scavenging Activity of Essential Oil of Eugenia caryophylata from Amboina Island and Derivatives of Eugenol
  37. Effects of Blue and Red Light On Growth And Nitrate Metabolism In Pakchoi
  38. miRNA-199a-5p functions as a tumor suppressor in prolactinomas
  39. Solar photodegradation of carbamazepine from aqueous solutions using a compound parabolic concentrator equipped with a sun tracking system
  40. Influence of sub-inhibitory concentration of selected plant essential oils on the physical and biochemical properties of Pseudomonas orientalis
  41. Preparation and spectroscopic studies of Fe(II), Ru(II), Pd(II) and Zn(II) complexes of Schiff base containing terephthalaldehyde and their transfer hydrogenation and Suzuki-Miyaura coupling reaction
  42. Complex formation in a liquid-liquid extraction-chromogenic system for vanadium(IV)
  43. Synthesis, characterization (IR, 1H, 13C & 31P NMR), fungicidal, herbicidal and molecular docking evaluation of steroid phosphorus compounds
  44. Analysis and Biological Evaluation of Arisaema Amuremse Maxim Essential Oil
  45. A preliminary assessment of potential ecological risk and soil contamination by heavy metals around a cement factory, western Saudi Arabia
  46. Anti- inflammatory effect of Prunus tomentosa Thunb total flavones in LPS-induced RAW264.7 cells
  47. Collaborative Influence of Elevated CO2 Concentration and High Temperature on Potato Biomass Accumulation and Characteristics
  48. Methods of extraction, physicochemical properties of alginates and their applications in biomedical field – a review
  49. Characteristics of liposomes derived from egg yolk
  50. Preparation of ternary ZnO/Ag/cellulose and its enhanced photocatalytic degradation property on phenol and benzene in VOCs
  51. Influence of Human Serum Albumin Glycation on the Binding Affinities for Natural Flavonoids
  52. Synthesis and antioxidant activity of 2-methylthio-pyrido[3,2-e][1,2,4] triazolo[1,5-a]pyrimidines
  53. Comparative study on the antioxidant activities of ten common flower teas from China
  54. Molecular Properties of Symmetrical Networks Using Topological Polynomials
  55. Synthesis of Co3O4 Nano Aggregates by Co-precipitation Method and its Catalytic and Fuel Additive Applications
  56. Phytochemical analysis, Antioxidant and Antiprotoscolices potential of ethanol extracts of selected plants species against Echinococcus granulosus: In-vitro study
  57. Silver nanoparticles enhanced fluorescence for sensitive determination of fluoroquinolones in water solutions
  58. Simultaneous Quantification of the New Psychoactive Substances 3-FMC, 3-FPM, 4-CEC, and 4-BMC in Human Blood using GC-MS
  59. Biodiesel Production by Lipids From Indonesian strain of Microalgae Chlorella vulgaris
  60. Miscibility studies of polystyrene/polyvinyl chloride blend in presence of organoclay
  61. Antibacterial Activities of Transition Metal complexes of Mesocyclic Amidine 1,4-diazacycloheptane (DACH)
  62. Novel 1,8-Naphthyridine Derivatives: Design, Synthesis and in vitro screening of their cytotoxic activity against MCF7 cell line
  63. Investigation of Stress Corrosion Cracking Behaviour of Mg-Al-Zn Alloys in Different pH Environments by SSRT Method
  64. Various Combinations of Flame Retardants for Poly (vinyl chloride)
  65. Phenolic compounds and biological activities of rye (Secale cereale L.) grains
  66. Oxidative degradation of gentamicin present in water by an electro-Fenton process and biodegradability improvement
  67. Optimizing Suitable Conditions for the Removal of Ammonium Nitrogen by a Microbe Isolated from Chicken Manure
  68. Anti-inflammatory, antipyretic, analgesic, and antioxidant activities of Haloxylon salicornicum aqueous fraction
  69. The anti-corrosion behaviour of Satureja montana L. extract on iron in NaCl solution
  70. Interleukin-4, hemopexin, and lipoprotein-associated phospholipase A2 are significantly increased in patients with unstable carotid plaque
  71. A comparative study of the crystal structures of 2-(4-(2-(4-(3-chlorophenyl)pipera -zinyl)ethyl) benzyl)isoindoline-1,3-dione by synchrotron radiation X-ray powder diffraction and single-crystal X-ray diffraction
  72. Conceptual DFT as a Novel Chemoinformatics Tool for Studying the Chemical Reactivity Properties of the Amatoxin Family of Fungal Peptides
  73. Occurrence of Aflatoxin M1 in Milk-based Mithae samples from Pakistan
  74. Kinetics of Iron Removal From Ti-Extraction Blast Furnace Slag by Chlorination Calcination
  75. Increasing the activity of DNAzyme based on the telomeric sequence: 2’-OMe-RNA and LNA modifications
  76. Exploring the optoelectronic properties of a chromene-appended pyrimidone derivative for photovoltaic applications
  77. Effect of He Qi San on DNA Methylation in Type 2 Diabetes Mellitus Patients with Phlegm-blood Stasis Syndrome
  78. Cyclodextrin potentiometric sensors based on selective recognition sites for procainamide: Comparative and theoretical study
  79. Greener synthesis of dimethyl carbonate from carbon dioxide and methanol using a tunable ionic liquid catalyst
  80. Nonisothermal Cold Crystallization Kinetics of Poly(lactic acid)/Bacterial Poly(hydroxyoctanoate) (PHO)/Talc
  81. Enhanced adsorption of sulfonamide antibiotics in water by modified biochar derived from bagasse
  82. Study on the Mechanism of Shugan Xiaozhi Fang on Cells with Non-alcoholic Fatty Liver Disease
  83. Comparative Effects of Salt and Alkali Stress on Antioxidant System in Cotton (Gossypium Hirsutum L.) Leaves
  84. Optimization of chromatographic systems for analysis of selected psychotropic drugs and their metabolites in serum and saliva by HPLC in order to monitor therapeutic drugs
  85. Electrocatalytic Properties of Ni-Doped BaFe12O19 for Oxygen Evolution in Alkaline Solution
  86. Study on the removal of high contents of ammonium from piggery wastewater by clinoptilolite and the corresponding mechanisms
  87. Phytochemistry and toxicological assessment of Bryonia dioica roots used in north-African alternative medicine
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  91. Topical Issue on Applications of Mathematics in Chemistry
  92. Zagreb Connection Number Index of Nanotubes and Regular Hexagonal Lattice
  93. The Sanskruti index of trees and unicyclic graphs
  94. Valency-based molecular descriptors of Bakelite network BNmn
  95. Computing Topological Indices for Para-Line Graphs of Anthracene
  96. Zagreb Polynomials and redefined Zagreb indices of Dendrimers and Polyomino Chains
  97. Topological Descriptor of 2-Dimensional Silicon Carbons and Their Applications
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  99. Words for maximal Subgroups of Fi24
  100. Generators of Maximal Subgroups of Harada-Norton and some Linear Groups
  101. Special Issue on POKOCHA 2018
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  103. Effects of Supercritical Carbon Dioxide Extraction (SC-CO2) on the content of tiliroside in the extracts from Tilia L. flowers
  104. Impact of xanthan gum addition on phenolic acids composition and selected properties of new gluten-free maize-field bean pasta
  105. Impact of storage temperature and time on Moldavian dragonhead oil – spectroscopic and chemometric analysis
  106. The effect of selected substances on the stability of standard solutions in voltammetric analysis of ascorbic acid in fruit juices
  107. Determination of the content of Pb, Cd, Cu, Zn in dairy products from various regions of Poland
  108. Special Issue on IC3PE 2018 Conference
  109. The Photocatalytic Activity of Zns-TiO2 on a Carbon Fiber Prepared by Chemical Bath Deposition
  110. N-octyl chitosan derivatives as amphiphilic carrier agents for herbicide formulations
  111. Kinetics and Mechanistic Study of Hydrolysis of Adenosine Monophosphate Disodium Salt (AMPNa2) in Acidic and Alkaline Media
  112. Antimalarial Activity of Andrographis Paniculata Ness‘s N-hexane Extract and Its Major Compounds
  113. Special Issue on ABB2018 Conference
  114. Special Issue on ICCESEN 2017
  115. Theoretical Diagnostics of Second and Third-order Hyperpolarizabilities of Several Acid Derivatives
  116. Determination of Gamma Rays Efficiency Against Rhizoctonia solani in Potatoes
  117. Studies On Compatibilization Of Recycled Polyethylene/Thermoplastic Starch Blends By Using Different Compatibilizer
  118. Liquid−Liquid Extraction of Linalool from Methyl Eugenol with 1-Ethyl-3-methylimidazolium Hydrogen Sulfate [EMIM][HSO4] Ionic Liquid
  119. Synthesis of Graphene Oxide Through Ultrasonic Assisted Electrochemical Exfoliation
  120. Special Issue on ISCMP 2018
  121. Synthesis and antiproliferative evaluation of some 1,4-naphthoquinone derivatives against human cervical cancer cells
  122. The influence of the grafted aryl groups on the solvation properties of the graphyne and graphdiyne - a MD study
  123. Electrochemical modification of platinum and glassy carbon surfaces with pyridine layers and their use as complexing agents for copper (II) ions
  124. Effect of Electrospinning Process on Total Antioxidant Activity of Electrospun Nanofibers Containing Grape Seed Extract
  125. Effect Of Thermal Treatment Of Trepel At Temperature Range 800-1200˚C
  126. Topical Issue on Agriculture
  127. The effect of Cladophora glomerata exudates on the amino acid composition of Cladophora fracta and Rhizoclonium sp.
  128. Influence of the Static Magnetic Field and Algal Extract on the Germination of Soybean Seeds
  129. The use of UV-induced fluorescence for the assessment of homogeneity of granular mixtures
  130. The use of microorganisms as bio-fertilizers in the cultivation of white lupine
  131. Lyophilized apples on flax oil and ethyl esters of flax oil - stability and antioxidant evaluation
  132. Production of phosphorus biofertilizer based on the renewable materials in large laboratory scale
  133. Human health risk assessment of potential toxic elements in paddy soil and rice (Oryza sativa) from Ugbawka fields, Enugu, Nigeria
  134. Recovery of phosphates(V) from wastewaters of different chemical composition
  135. Special Issue on the 4th Green Chemistry 2018
  136. Dead zone for hydrogenation of propylene reaction carried out on commercial catalyst pellets
  137. Improved thermally stable oligoetherols from 6-aminouracil, ethylene carbonate and boric acid
  138. The role of a chemical loop in removal of hazardous contaminants from coke oven wastewater during its treatment
  139. Combating paraben pollution in surface waters with a variety of photocatalyzed systems: Looking for the most efficient technology
  140. Special Issue on Chemistry Today for Tomorrow 2019
  141. Applying Discriminant and Cluster Analyses to Separate Allergenic from Non-allergenic Proteins
  142. Chemometric Expertise Of Clinical Monitoring Data Of Prolactinoma Patients
  143. Chemomertic Risk Assessment of Soil Pollution
  144. New composite sorbent for speciation analysis of soluble chromium in textiles
  145. Photocatalytic activity of NiFe2O4 and Zn0.5Ni0.5Fe2O4 modified by Eu(III) and Tb(III) for decomposition of Malachite Green
  146. Photophysical and antibacterial activity of light-activated quaternary eosin Y
  147. Spectral properties and biological activity of La(III) and Nd(III) Monensinates
  148. Special Issue on Monitoring, Risk Assessment and Sustainable Management for the Exposure to Environmental Toxins
  149. Soil organic carbon mineralization in relation to microbial dynamics in subtropical red soils dominated by differently sized aggregates
  150. A potential reusable fluorescent aptasensor based on magnetic nanoparticles for ochratoxin A analysis
  151. Special Issue on 13th JCC 2018
  152. Fluorescence study of 5-nitroisatin Schiff base immobilized on SBA-15 for sensing Fe3+
  153. Thermal and Morphology Properties of Cellulose Nanofiber from TEMPO-oxidized Lower part of Empty Fruit Bunches (LEFB)
  154. Encapsulation of Vitamin C in Sesame Liposomes: Computational and Experimental Studies
  155. A comparative study of the utilization of synthetic foaming agent and aluminum powder as pore-forming agents in lightweight geopolymer synthesis
  156. Synthesis of high surface area mesoporous silica SBA-15 by adjusting hydrothermal treatment time and the amount of polyvinyl alcohol
  157. Review of large-pore mesostructured cellular foam (MCF) silica and its applications
  158. Ion Exchange of Benzoate in Ni-Al-Benzoate Layered Double Hydroxide by Amoxicillin
  159. Synthesis And Characterization Of CoMo/Mordenite Catalyst For Hydrotreatment Of Lignin Compound Models
  160. Production of Biodiesel from Nyamplung (Calophyllum inophyllum L.) using Microwave with CaO Catalyst from Eggshell Waste: Optimization of Transesterification Process Parameters
  161. The Study of the Optical Properties of C60 Fullerene in Different Organic Solvents
  162. Composite Material Consisting of HKUST-1 and Indonesian Activated Natural Zeolite and its Application in CO2 Capture
  163. Topical Issue on Environmental Chemistry
  164. Ionic liquids modified cobalt/ZSM-5 as a highly efficient catalyst for enhancing the selectivity towards KA oil in the aerobic oxidation of cyclohexane
  165. Application of Thermal Resistant Gemini Surfactants in Highly Thixotropic Water-in-oil Drilling Fluid System
  166. Screening Study on Rheological Behavior and Phase Transition Point of Polymer-containing Fluids produced under the Oil Freezing Point Temperature
  167. The Chemical Softening Effect and Mechanism of Low Rank Coal Soaked in Alkaline Solution
  168. The Influence Of NO/O2 On The NOx Storage Properties Over A Pt-Ba-Ce/γ-Al2O3 Catalyst
  169. Special Issue on the International conference CosCI 2018
  170. Design of SiO2/TiO2 that Synergistically Increases The Hydrophobicity of Methyltrimethoxysilane Coated Glass
  171. Antidiabetes and Antioxidant agents from Clausena excavata root as medicinal plant of Myanmar
  172. Development of a Gold Immunochromatographic Assay Method Using Candida Biofilm Antigen as a Bioreceptor for Candidiasis in Rats
  173. Special Issue on Applied Biochemistry and Biotechnology 2019
  174. Adsorption of copper ions on Magnolia officinalis residues after solid-phase fermentation with Phanerochaete chrysosporium
  175. Erratum
  176. Erratum to: Sand Dune Characterization For Preparing Metallurgical Grade Silicon
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