octadecylsilane and acetonitrile

Poly(stearyl methacrylate-co-methacrylic acid) (P(SMA-co-MAA)) was induced as pseudostationary phase (PSP) in electrokinetic chromatography (EKC). The n-octadecyl groups in SMA were the same as that in octadecylsilane (ODS) C18 column. Thus, the present work focused on the comparison of selectivity between polymeric PSP and ODS stationary phase (SP), and the effect of organic modifiers on the selectivity of polymeric PSP and ODS SP. 1-butanol could directly interacted with PSP as a Class I modifier, and improved both of the methylene selectivity and polar group selectivity. When the analysis times were similar, the polymeric PSP exhibited better methylene selectivity and polar group selectivity. Although the hydrophobic groups were similar, the substituted benzenes elution order was different between polymeric PSP and ODS SP. Linear solvation energy relationships (LSER) model analysis found that polymeric PSP and ODS SP exhibited two same key factors in selectivity: hydrophobic interaction and hydrogen bonding acidity. But polymeric PSP exhibited relatively strong n- and π-electrons interaction to the analytes.

Topics: Acetonitriles; Chromatography, High Pressure Liquid; Chromatography, Micellar Electrokinetic Capillary; Chromatography, Reverse-Phase; Methanol; Polymers; Silanes

The retention behavior of nine MPAEs has been studied, using commercial LC columns with octadecylsilane (ODS), phenyl, and amide-type SPs. First, it was found that the use of methanol in the mobile phase is not advisable, because induce a transesterification reaction of MPAEs in the electrospray ion source, regardless of the SP used. On the other hand, different responses were observed when representing the logarithm of retention factors (k) vs. the volume fraction of ACN (φ) in the mobile phase, for the three SPs tested. A quite linear trend was obtained for ODS (at φ values below 0.80) and Phenyl columns. On the contrary, the Amide column shows a striking U-shape trend, typical of both hydrophobic and hydrophilic retention mechanisms. Therefore, the separation process was mainly hydrophobic in the ODS and phenyl SPs, but in the amide-type a dual retention mechanism was found, showing zones with predominant hydrophobic or hydrophilic interactions, depending on both the compound and the experimental conditions. A high content of acetonitrile (>75%) and low concentration of formic acid in the mobile phase promote the hydrophilic separation mechanism for MPAEs on the amide SP. So, this dual separation mechanism can be modulated modifying the pH and content of organic modifier in the mobile phase, allowing greater flexibility to develop improved methods. Taking advantage of this, a separation method was optimized in this amide column using a Box-Wilson Central Composite experimental design, which allows separating the studied MPAEs with a time-saving of around 40% comparing to the conventional phenyl SP.

Topics: Acetonitriles; Amides; Chemistry Techniques, Analytical; Chromatography, Liquid; Hydrophobic and Hydrophilic Interactions; Methanol; Phthalic Acids; Silanes

In this work, 53 selected pesticides of different chemical groups were extracted from Chinese herbal medicines and determined by ultra-high-performance liquid chromatography (UHPLC)-tandem mass spectrometry (MS/MS) using both electrospray ionization (ESI) and atmospheric-pressure chemical ionization (APCI). Extracts were obtained using the acetonitrile-based quick, easy, cheap, effective, rugged, and safe (QuEChERS) sample preparation technique. Cleanup was performed by dispersive solid-phase extraction using primary secondary amine, graphitized carbon black, and octadecylsilane. Two atmospheric-pressure interfaces, ESI and APCI, were checked and compared. The validation study, including detection limits, linearity, and matrix effects, was conducted on fritillaria, radix ginseng, folium isatidis, semen persicae, and flos lonicerae in multiple reaction monitoring mode. These matrices represent a variety of plants used in traditional Chinese medicine. Fritillaria and radix ginseng were chosen as representatives for roots, folium isatidis was chosen as a representative for leaves, semen persicae was chosen as a representative for seeds, and flos lonicerae was chosen as a representative for flowers. The limits of detection for pesticides were lower in the UHPLC-ESI-MS/MS method than in the UHPLC-APCI-MS/MS method. Matrix effects on the two ionizations were evaluated for the five matrices. Soft signal enhancement in UHPLC-APCI-MS/MS and signal suppression in UHPLC-ESI-MS/MS were observed.

Topics: Acetonitriles; Chromatography, High Pressure Liquid; Drugs, Chinese Herbal; Humans; Limit of Detection; Pesticides; Plant Components, Aerial; Plant Roots; Pressure; Silanes; Solid Phase Extraction; Spectrometry, Mass, Electrospray Ionization; Tandem Mass Spectrometry

A few complicated and time-consuming methods are available for the determination of residual fentanyl in Durotep MT transdermal patches, however, their application to clinical settings is limited. The aim of this study was to develop a simple and rapid HPLC-UV method using an ultrafine particle octadecylsilane (ODS) for the determination of residual fentanyl in applied Durotep MT transdermal matrix patches. Patch extraction involved sonicating a shredded Durotep MT patch in acetonitrile for 15 min. Fentanyl separation was completed within 2 min using a 2.3-μm particle ODS column (50 × 4.6 mm i.d.) at a flow rate of 1.5 mL/min. No peaks interfering with fentanyl (1.27 min) and papaverine (0.89 min) as an internal standard were observed. The calibration curve for fentanyl was linear over the range of 0.015-9.0 mg as a Durotep MT patch. The intra- and inter-assay precisions and accuracies of each patch were within 5.3% and 103.9-110.5% and within 8.2% and 97.1-104.3%, respectively. The validated method was applied to determine residual fentanyl in Durotep MT patches used in 35 cancer patients. Although the plasma fentanyl concentration was significantly correlated with its measured absorption rate, the measured absorption rate normalized fentanyl concentration showed a large inter-individual variation. The validated simple and rapid HPLC-UV method established in the present study is helpful for evaluating the absorption rate of fentanyl in patients receiving Durotep MT patches.

Topics: Acetonitriles; Adult; Aged; Aged, 80 and over; Chromatography, High Pressure Liquid; Female; Fentanyl; Humans; Male; Middle Aged; Silanes; Sonication; Spectrophotometry, Ultraviolet; Transdermal Patch

Plots of the retention factor against mobile phase composition were used to organize a varied group of solutes into three categories according to their retention mechanism on an octadecylsiloxane-bonded silica stationary phase HyPURITY C18 with methanol-water and acetonitrile-water mobile phase compositions containing 10-70% (v/v) organic solvent. The solutes in category 1 could be fit to a general retention model, Eq. (2), and exhibited normal retention behavior for the full composition range. The solutes in category 2 exhibited normal retention behavior at high organic solvent composition with a discontinuity at low organic solvent compositions. The solutes in category 3 exhibited a pronounced step or plateau in the middle region of the retention plots with a retention mechanism similar to category 1 solutes at mobile phase compositions after the discontinuity and a different retention mechanism before the discontinuity. Selecting solutes and appropriate composition ranges from the three categories where a single retention mechanism was operative allowed modeling of the experimental retention factors using the solvation parameter model. These models were then used to predict retention factors for solutes not included in the models. The overwhelming number of residual values [log k (experimental) - log k (model predicted)] were negative and could be explained by contributions from steric repulsion, defined as the inability of the solute to insert itself fully into the stationary phase because of its bulkiness (i.e., volume and/or shape). Steric repulsion is shown to strongly depend on the mobile phase composition and was more significant for mobile phases with a low volume fraction of organic solvent in general and for mobile phases containing methanol rather than acetonitrile. For mobile phases containing less than about 20 % (v/v) organic solvent the mobile phase was unable to completely wet the stationary phase resulting in a significant change in the phase ratio and for acetonitrile (but less so methanol) changes in the solvation environment indicated by a discontinuity in the system maps.

Topics: Acetonitriles; Chromatography, Liquid; Pharmaceutical Preparations; Silanes; Siloxanes; Water

Continued development of a new sequence-specific algorithm for peptide retention prediction in RP HPLC is reported. Our discovery of the large effect on the apparent hydrophobicity of N-terminal amino acids produced by the ion-pairing retention mechanism has led to the development of sequence-specific retention calculator (SSRCalc) algorithms. These were optimized for a set of approximately 2000 tryptic peptides confidently identified by off-line microHPLC-MALDI MS (MS/MS) (300-A pore size C18 sorbent, linear water/acetonitrile gradient, and trifluoroacetic acid as ion-pairing modifier). The latest version of the algorithm takes into account amino acid composition, position of the amino acid residues (N- and C-terminal), peptide length, overall hydrophobicity, pI, nearest-neighbor effect of charged side chains (K, R, H), and propensity to form helical structures. A correlation with R2 approximately 0.98 was obtained for the 2000-peptide optimization set. A flexible structure for the SSRC programming code allows easy adaptation to different chromatographic conditions. This was demonstrated by adapting the algorithm (approximately 0.98 R2 value) for a set of approximately 2500 peptides separated on a 100-A pore size C18 column. The SSRCalc algorithm has also been extensively tested for a number of real samples, providing solid support for protein identification and characterization; correlations in the range of 0.95-0.97 R2 value have normally been observed.

Topics: Acetonitriles; Algorithms; Amino Acids; Chromatography, High Pressure Liquid; Hydrophobic and Hydrophilic Interactions; Molecular Weight; Particle Size; Peptides; Porosity; Protein Structure, Secondary; Silanes; Spectrometry, Mass, Matrix-Assisted Laser Desorption-Ionization; Trifluoroacetic Acid; Water

Topics: Acetates; Acetonitriles; Benzhydryl Compounds; Chloroform; Chromatography, High Pressure Liquid; Epoxy Compounds; Epoxy Resins; Hexanes; Polymers; Silanes; Silicon Dioxide; Temperature