选择性富集分离虎杖中白藜芦醇苷的分子印迹聚合物的制备及分子识别性能研究

以白藜芦醇苷(POL)为模板分子,分别以丙烯酰胺(AM)、4-乙烯基吡啶(4-VP)、甲基丙烯酸羟乙酯(HEMA)、甲基丙烯酸(MAA)为功能单体,二甲基丙烯酸乙二醇酯(EGDMA)为交联剂,偶氮二异丁腈(AIBN)为引发剂,采用本体聚合法制备白藜芦醇苷分子印迹聚合物。采用静态平衡结合实验研究了印迹聚合物对模板分子及不同底物的识别性能。结果表明,以丙烯酰胺为功能单体的印迹聚合物(MIP1)对模板分子的识别性能最好,其次是以4-VP为功能单体的聚合物(MIP2),以HEMA为功能单体的聚合物(MIP3)以及以MAA为功能单体的聚合物(MIP4)的分子识别性能较差。表明功能单体与模板分子之间相互作用的强弱对MIP的识别能力有较大的影响。静态平衡结合法以及Scatchard分析法表明,MIP1对模板分子呈现较好的结合能力和选择性,该印迹聚合物中形成了2类不同的结合位点,离解常数分别为7.43×10-5、3.70×10-3mol/L。将MIP1用于虎杖提取物中POL的固相萃取分离,效果良好。     

胆酸印迹聚合物的制备及在含水介质中的结合性能

为了在含水介质中进行有效印迹,本研究中以双甲基丙烯酰-β-环糊精（BMA-β-CD）和2-(二乙基胺基)乙基甲基丙烯酸酯(DEAEM)为功能单体制备了胆酸印迹聚合物MIP1,并用平衡结合实验研究了MIP1在含水介质中对模板分子的识别能力。结果表明,MIP1比单独以BMA-β-CD或DEAEM为功能单体制备的印迹聚合物MIP2和MIP3,显示出对模板分子更好的选择性结合能力。MIP1的特异性吸附量ΔCP为38.81μmol/g,印迹因子IF为2.46。研究表明,在含水介质中,利用模板分子与功能单体之间的疏水作用和离子作用是提高印迹聚合物分子识别能力的关键。研究还表明,在识别过程中,疏水作用在驱动分子进入印迹孔穴时起重要作用。     

烟酸分子印迹聚合物的制备及分子识别性能的研究

以烟酸(NA)为模板分子、4-乙烯基吡啶(4-VP)为功能单体、二甲基丙烯酸乙二醇酯(EGDMA)为交联剂、偶氮二异丁腈(AIBN)为引发剂,分别采用本体聚合法和溶胀聚合法制备了分子印迹聚合物MIP1及MIP2.静态平衡结合实验表明,MIP1、MIP2对NA的结合量Q分别为193.56、215.35 μmol/g,均大...     

绿原酸分子印迹体系的计算模拟及复合膜的制备

以绿原酸为模板分子, 以丙烯酰胺(AM)、丙烯酸(AA)、4-乙烯基吡啶(4-VP)、2-乙烯基吡啶(2-VP)四种物质分别作为功能单体, 使用密度泛函理论(DFT)方法和PM3半经验法, 运用Gaussian 03软件模拟模板分子与不同功能单体的分子印迹聚合物预组装体系的构型、能量及复合反应的结合能(ΔE), 以讨论不同功能单体对分子印迹聚合物识别性能的影响, 结果丙烯酰胺的印迹效应最好. 以聚偏氟乙烯微孔滤膜为支撑膜, 绿原酸为模板分子, AM, AA, 4-VP, 2-VP四种物质分别作为功能单体, 用紫外光引发表面修饰聚合制备了绿原酸分子印迹复合膜, 测量底物绿原酸在几种印迹膜上吸附量的大小, 得出的实验结论和理论计算的结果相一致. Scatchard 分析表明, 在所研究的浓度范围内分子印迹复合膜中存在两类不同性能的吸附位点, 结合位点的平衡离解常数K_d1和K_d2分别为0.151和0.480 mmol/L. 底物(绿原酸)的结合和渗透选择性实验表明, 分子印迹复合膜对绿原酸有较好的结合性能, 结合量分别是14.934和28.123 μmol/g.     

林可霉素分子印迹聚合物的制备及吸附性能研究

以林可霉素(LIN)为模板,利用分子模拟方法模拟丙烯酰胺(AM)、甲基丙烯酸(MAA)、2-乙烯基吡啶(2-VP)和4-乙烯基吡啶(4-VP)4种常见的功能单体与模板分子的结合能,结果表明4-VP结合能最强为-98.25 kJ/mol。用悬浮聚合法制备林可霉素分子印迹聚合物(MIP)并对其性能进行评价。使用气相色谱检测各功能单体制备的印迹聚合物的吸附量,结果4-VP制备的印迹聚合物吸附量最大为102.8μmol/g,分子模拟结果与吸附试验结果一致,表明分子模拟可以为功能单体选择提供依据。采用静态吸附试验和动态吸附试验对印迹聚合物吸附性能表征,并进行了Scatchard模型分析。结果印迹因子为2.54,并且在150 min内较快地达到吸附平衡,表明林可霉素分子印迹聚合物具有较高的选择吸附性,可用于林可霉素的富集。     

由不同功能单体合成的对羟基苯甲酸分子印迹聚合物识别特性的实验和理论研究

以对羟基苯甲酸(p—HB)为模板分子,以4-乙烯吡啶(4-Vpy)、丙烯酰胺(AM)或二者等摩尔比的混合物为功能单体制备了相应的分子印迹聚合物(Molecularly imprinted polymer,MIP),考察了MIP作为高效液相色谱柱固定相时模板分子及其类似物的保留行为,同时也考察了在乙腈流动相中添加剂乙酸或水对色谱保留的影响．三种MIPs的保留大小顺序为：当功能单体为4-Vpy时,MIP对模板及其类似物的保留最强;当以4-Vpy和AM作为混合单体时,保留次之;而功能单体为AM时,保留最差．以H2O作为添加剂时MIP的识别效果要优于以CH3CO2H为添加剂的情况．使用半经验量化法之一,PM3方法,借助Gaussian94软件对以p—HB与相应的功能单体体系进行了计算模拟．结果表明,聚合前单体与模板复合物结合能量的大小与实验所得的容量因子间具有正相关性．即结合能越高,容量因子k′值越大．     

农药丙溴磷分子印迹聚合物微球的制备与结合性能研究

采用分子印迹技术,以丙溴磷为模板分子,分别以α-甲基丙烯酸和丙烯酰胺为功能单体,在乙腈溶液中合成了2种对丙溴磷具有选择性结合能力的分子印迹聚合物.紫外光度法研究表明,模板分子丙溴磷与α-甲基丙烯酸之间的作用强于其与丙烯酰胺之间的作用;扫描电镜的研究则表明以α-甲基丙烯酸为功能单体合成的分子印迹聚合物呈微球形,粒径约为0.5 ～2 μm;利用平衡结合实验研究了不同功能单体制备的聚合物对模板分子的结合能力及其对底物的选择性,经Scatchard模型分析,求出了聚合物的最大表观结合量(Qmax)和平衡离解常数(Kd)分别为49.44 μmol/g 和1.05 mmol/L.研究表明以α-甲基丙烯酸为功能单体合成的分子印迹聚合物对丙溴磷表现出更强的结合能力和更高的选择性.     

基于制备接枝型分子印迹膜构建农药电位型电化学传感器及其检测性能研究

基于分子设计,以氯甲基化聚砜(CMPSF)为基膜,阴离子单体对苯乙烯磺酸钠(SSS)为功能单体,N,N'-亚甲基双丙烯酰胺(MBA)为交联剂,在表面引发体系-NH2/S2O2-8的作用下,采用"接枝聚合与分子印迹同步进行"的分子表面印迹新技术,制备了接枝型农药抗蚜威分子印迹膜(MIM)。采用红外光谱(FITR)和光学显微镜(OM)对该分子印迹膜进行表征,通过等温结合实验与竞争吸附实验,考察了抗蚜威分子印迹膜的分子识别性能与机理。以该印迹膜作为敏感膜,构建了抗蚜威电位型传感器,并对其检测性能进行了考察。结果表明,所制备的接枝型印迹膜对模板抗蚜威分子具有特异的识别选择性和优良的结合亲和性,结合容量高达92μg/cm2,相对于分子结构与抗蚜威相似的阿特拉津,印迹膜对抗蚜威的选择性系数为4.537。在p H 4.0的水介质中,传感器膜电极的电位响应与抗蚜威浓度对数在1.0×10-6~1.0×10-3mol/L范围内呈良好的线性关系(r=0.999 9),其检出限为2.5×10-8mol/L;以抗蚜威分子印迹膜为敏感膜所构建的电位型传感器,其构建过程简捷,检测灵敏准确,电位响应快速(t10 s)。     

青霉素V钾分子印迹聚合物的制备及性能研究

以α-甲基丙烯酸(MAA)为功能单体,乙二醇二甲基丙烯酸酯(EGDMA)为交联剂,偶氮二异丁腈(AIBN)为引发剂,β-内酰胺类抗生素青霉素V钾为模板,制备了分子印迹聚合物(MIP),通过紫外吸收光谱法研究发现模板分子与单体之间产生了氢键相互作用,二者的结合常数为2.889×109L3/mol3,化学配位比为3。通过吸附实验,探讨了印迹聚合物对模板分子的识别特性,结果印迹因子为2.31,最大表观结合量为8.63μg·mg-1,表明MIP对模板青霉素V钾有较强的特异识别性,为进一步将其应用于实际样品中抗生素的残留分析奠定了基础。     

橙皮苷印迹聚合物的识别性能及机理研究

为了制备对橙皮苷(HES)具有特定识别能力的吸附材料,以HES为模板分子,丙烯酰胺(AM)为功能单体,甲基丙烯酸乙二醇酯(EDMA)为交联剂,在甲醇中制备了HES印迹聚合物(MIP),采用平衡吸附实验方法研究了聚合物的吸附性能和选择性能,探讨了聚合物的印迹机理和识别机理.结果表明,MIP对HES具有较高的亲和性和选择性.当HES浓度为0.048 mmol/L时,MIP及相应NMIP对HES的分配系数KD分别为10.17 和2.973,印迹因子α达到3.421.MIP对结构相似物芦丁及柚皮苷的选择因子β分别为2.446和1.246.机理研究表明识别位点来自AM与HES苯甲酰系统的氢键作用,吸附溶液中水含量的增加对MIP的识别能力有较大的影响.最后,以高效液相色谱研究了MIP在样品中的分离富集能力,表明该印迹聚合物具有一定的应用潜能.     

Sulfamethoxazole-imprinted polymer for selective determination of sulfamethoxazole in tablets

A sulfamethoxazole (SMO)-imprinted polymer (MIP) was prepared in acetonitrile using the mixture of acrylamide and 4-vinylpyridine as functional monomers. The molecular recognition properties of the polymer was evaluated in both acetonitrile and aqueous acetonitrile mobile phases. SMO contents in two kinds of tablets were determined satisfactorily using the MIP packed HPLC column with aqueous mobile phase.     

水胺硫磷分子印迹传感器的制备与应用

在磷酸盐缓冲溶液(PBS)中,以邻苯二胺(o-PD)和没食子酸(GA)为功能单体,水胺硫磷(ICP)为模板分子,采用电位循环扫描法在玻碳电极(GCE)表面进行电聚合,形成绝缘性的分子印迹膜,通过电化学阻抗谱(EIS)和循环伏安法(CV)对分子印迹膜进行表征.在最佳实验条件下,以铁氰化钾[ K3Fe(CN)6]为探针,用差分脉冲伏安法( DPV)对ICP进行定量分析.该传感器在2.00×10 -7～2.00×10-4 mol/L范围内,传感器的响应信号与ICP的浓度呈良好的线性关系,检测限为6.06×10-s mol/L( S/N=3).将其用于蔬果等实际样品中ICP的测定,回收率为95.6％～104.0％.     

Microwave synthesis of gibberellin acid 3 magnetic molecularly imprinted polymer beads for the trace analysis of gibberellin acids in plant samples by liquid chromatography-mass spectrometry detection

In this study, novel GA3 magnetic molecularly imprinted polymer (mag-MIP) beads were synthesized by a microwave irradiation method, and the beads were applied for the trace analysis of gibberellin acids (GAs) in plant samples including rice and cucumber coupled with high performance liquid chromatography-mass spectrometry (HPLC-MS). The microwave synthetic procedure was optimized in detail. In particular, the interaction between GA3 and functional monomers was further studied for the selection of the optimal functional monomers during synthesis. It can be seen that the interaction between GA3 and acrylamide (AM) finally selected was stronger than that between GA3 and other functional monomers. GA3 mag-MIP beads were characterized by a series of physical tests. GA3 mag-MIP beads had a porous and homogeneous surface morphology with stable chemical, thermal and magnetic properties. Moreover, GA3 mag-MIP beads demonstrated selective and specific absorption behavior for the target compounds during unsaturated extraction, which resulted in a higher extraction capacity (～708.4 pmol for GA3) and selectivity than GA3 mag-non-imprinted polymer beads. Finally, an analytical method of GA3 mag-AM-MIP bead extraction coupled with HPLC-MS detection was established and applied for the determination of trace GA1, GA3, GA4 and GA7 in rice and cucumber samples. It was satisfactory that GA4 could be actually found to be 121.5 ± 1.4 μg kg(-1) in real rice samples by this novel analytical method. The recoveries of spiked rice and cucumber samples were found to be 76.0-109.1% and 79.9-93.6% with RSDs of 2.8-8.8% and 3.1-7.7% (n = 3), respectively. The proposed method is efficient and applicable for the trace analysis of GAs in complicated plant samples.     

Spacer effect of novel bifunctional organophosphorus monomers in metal-imprinted polymers prepared by surface template polymerization

The interfacial activity and the molecular structure of functional monomers are critical factors that determine the success of synthesizing metal-imprinted polymers by surface template polymerization. From this point of view, first we prepared three distinct novel bifunctional organophosphorus monomers that are interspaced, in each case, by an alkyl spacer having a specific length. Each monomer carries two phosphonic acid groups and two aromatic groups in its molecular structures. Further, by using the synthesized bifunctional monomers, we prepared highly selective Zn(II)-imprinted polymers by the surface template polymerization initiated from a water-in-oil emulsion. To evaluate the template effect, we conducted diagnostic adsorption studies on Zn(II)-imprinted and unimprinted polymers with zinc ions. A high interfacial activity was found to be required for the functional monomers to create the predominant template effect. It became clear that Zn(II)-imprinted polymers having bifuctional monomers with 12-length alkyl chains (1,12-dodecanediol-O, O′-diphenyl phosphonic acid: DDDPA) yielded the best results. Moreover, analysis results of adsorption behavior supported a high-performance of the Zn(II)-imprinted polymers with DDDPA. © 1998 John Wiley & Sons, Inc. J Polym Sci A: Polym Chem 36: 2727–2734, 1998     

Chemically Modified Chitosan Beads as Molecularly Imprinted Polymer Matrix for Adsorptive Separation of Proteins

In a phosphate buffer, a hemoglobin (Hb)-imprinted polymer complex was preparedusing maleic anhydride (MAH) modified chitosan beads as matrix, acrylamide (AM) as functionalmonomer, N,N-methylenebisacrylamide (MBA) as cross-linker and potassiumpersulfate (KPS) /sodium hydrogen sulfite (NaHSO3) as initiators. Langmuir analysis showed that an equal class ofadsorption was formed in the molecular imprinting polymer (MIP), and the MIP has highadsorption capacity and selectivity for the imprinted molecule. The MIP can be reused and therecovery was approximately 100% at low concentration.     

A computational and experimental investigation of the interaction between the template molecule and the functional monomer used in the molecularly imprinted polymer

A computational approach to screening monomer for preparing molecularly imprinted polymer (MIP) was proposed, using the binding energy, ΔE, of a template molecule and a monomer as a measure of their interaction. For a specified template molecule, a monomer of higher ΔE is suitable for preparing the MIP. To examine the validity of this approach, theophylline (THO) was chosen as the template molecule and methacrylic acid (MAA), acrylamide (AA) and 2-(trifluoromethyl)acrylic acid (TFMAA) were as the functional monomers, respectively. Density functional theory (DFT) at B3LYP/6-31+G**//B3LYP/3-21G level was used to calculate ΔE. It was shown that TFMAA gave the largest ΔE while AA gave the smallest. The details of the interaction between the THO with these monomers were also given by this computing approach. The adsorption of THO on the MIP synthesized using different monomers was studied. The MIP synthesized using TFMAA as monomer showed the highest selectivity to THO while the MIP from AA gave the lowest, as predicted from the ΔE calculation. ¹H NMR spectroscopy showed that, compared to MAA and AA, a stronger H-bond interaction is formed between TFMAA and THO. FT-IR analysis of the MIPs prepared using these three monomers confirmed the existence of CO and OH groups, which forms H-bond with THO. The results described above have given an insight into the interaction between THO and the monomers, and shown the use of ΔE to facilitate the selection of monomers for the synthesis of MIP.     

Selectivity features of molecularly imprinted polymers recognising the carbamate group

The molecular recognition properties of molecular imprinted polymers which bind the carbamate function were studied. Functional monomers potentially able to form non-covalent interactions with the model molecule N,O-dibenzylcarbamate were selected on the basis of a computational approach describing possible interactions between the template and a small library of vinylic monomers. These results were in accordance with N,O-dibenzylcarbamate batch-rebinding measurements performed on several miniMIPs prepared with the same library. From these preliminary results, four polymers were prepared by thermoinduced radical polymerization, using ethylene dimethacrylate as a cross-linker, chloroform (MIP1, MIP3) or acetonitrile (MIP2, MIP4) as porogens and methacrylic acid (MIP1, MIP2) or acrylamide (MIP3, MIP4) as functional monomers. Molecular recognition features of these materials were studied by high-performance liquid chromatography. In this manner selectivity was evaluated by considering the column retention of a library of sixteen structural analogues of dibenzylcarbamate, characterized by the transformation of the carbamate into a related function, or by the alteration of the molecular structure.The experimental results show that methacrylic acid is more efficient than acrylamide as a functional monomer (imprinting factors: MIP1 = 24.1, MIP2 = 25.6, MIP3 = 13.3, MIP4 = 2.44), and that chloroform enhances polymer selectivity. As regards structural motifs which conditionate the selectivity, the carbamate function strictly controls the presence/absence of molecular recognition, while shape and dimension of the substituents modulate the recognition itself. In particular, a marked recognition for analogs which were slightly bigger than the template was observed (N-benzyl-O-phenethylcarbamate: MIP1 α = 1.13, MIP2 α = 1.41, MIP3 α = 0.97; N-phenethyl-N-benzylcarbamate: MIP1 α = 1.61, MIP2 α = 1.17, MIP3 α = 0.81; N,O-diphenethylcarbamate: MIP1 α = 0.89, MIP2 α = 1.20, MIP3 α = 0.55).     

Optimization of polymerization parameters for the sorption of oseltamivir onto molecularly imprinted polymers

Molecularly imprinted polymers (MIPs) are tailor-made polymers with high selectivity for a given analyte, or group of structurally related compounds. The influence of the process parameters (the moles of functional monomer and cross-linker, the selection of functional monomer and solvent) on the preparation of oseltamivir (OS)-imprinted polymers was investigated. A mathematical method for uniform design to optimize these selected parameters and to increase the MIP selectivity for template molecules was applied. The optimal conditions to synthesize MIP were 0.69 mmol 30% acrylamide (AA) + 70% 4-Vinylpyridine (4-VP) and 5.0 mmol ethylene glycol dimethacrylate (EGDMA) copolymerized in 5 ml toluene in the presence of 0.1 mmol OS. MIP showed high affinity and selectivity for separation of the template molecule from other compounds. In the present study, we have established an effective LC-MS/MS method to identify and quantify OS with good sensitivity, accuracy and precision.     

Molecular imprinting solid phase extraction for selective detection of methidathion in olive oil

A specific adsorbent for extraction of methidathion from olive oil was developed. The design of the molecularly imprinted polymer (MIP) was based on the results of the computational screening of the library of polymerisable functional monomers. MIP was prepared by thermal polymerisation using N,N’-methylene bisacrylamide (MBAA) as a functional monomer and ethylene glycol dimethacrylate (EGDMA) as a cross-linker. The polymers based on the itaconic acid (IA), methacrylic acid (MAA) and 2-(trifluoromethyl)acryl acid (TFMAA) functional monomers and one control polymer which was made without functional monomers with cross-linker EGDMA were also synthesised and tested. The performance of each polymer was compared using corresponding imprinting factor. As it was predicted by molecular modelling the best results were obtained for the MIP prepared with MBAA. The obtained MIP was optimised in solid-phase extraction coupled with high performance liquid chromatography (MISPE-HPLC-UV) and tested for the rapid screening of methidathion in olive oil. The proposed method allowed the efficient extraction of methidathion for concentrations ranging from 0.1 to 9 mg L⁻¹ (r² = 0.996). The limits of detection (LOD) and quantification (LOQ) in olive oil were 0.02 mg L⁻¹ and 0.1 mg L⁻¹, respectively. MIPs extraction was much more effective than traditional C18 reverse-phase solid phase extraction.