基于CuAAC反应链间自交联有机-无机杂化水性聚氨酯的合成及性能

利用4,4’-二羟甲基-1,4-庚二炔功能单体作为扩链剂合成了一系列炔基接枝量不同的水性聚氨酯（WPU）,然后基于铜催化的叠氮-炔基环加成（CuAAC）反应,采用3-叠氮基丙基三乙氧基硅烷（APTES-N₃）改性炔基功能化WPU,制备了室温链间自交联有机-无机杂化WPU. 采用红外光谱（FTIR）和核磁氢谱（¹H NMR）表征了自交联有机-无机杂化WPU. 探讨了APTES-N₃接枝量对WPU膜性能和WPU乳液形态的影响. 结果表明,随着APTES-N₃含量增加,WPU膜的结晶性逐渐下降;耐水性、耐溶剂性和热稳定性逐渐增强;WPU乳液粒子黏连程度增加. 当APTES-N₃质量分数从0增大到12%时,WPU膜的拉伸强度从14.3 MPa增加到28.6 MPa.     

A novel silica aerogel microspheres loaded with ammonium persulfate gel breaker for mid-deep reservoirs

Sol–gel based transparent functional coatings such as easy-to-clean coatings, anti-glare coatings, anti-reflective coatings, and anti-fingerprint coatings have been developed and commercialized for display applications. These coatings can be applied by a spray process on the glass substrates followed by a low temperature curing at 100° to 150?°C. Hydrophobic easy-to-clean coatings exhibit high water contact angles at ≥115°, with an excellent wear durability by passing 10,000 cycles using #0000 steel wool under 1?kg load. In addition, easy-to-clean coatings show a silky touch feel with a coefficient of friction of less than 0.03. Anti-glare coatings without particles have a gloss value between 50 to 100 gloss units, an adhesion of 5B, a pencil hardness ≥8?H, and no sparkling issues on touch screen displays. A combination of easy-to-clean coatings on top of anti-glare coatings significantly increases the stylus pen durability. Single-layer anti-reflective coatings show a transmittance increase of 1.5% to 2.0% by spray coating on a single side of the glass substrate, or a transmittance increase of more than 4.0% by dip-coating on a polycarbonate substrate. Anti-fingerprint coatings show less obvious fingerprints on the coated glass surface compared to those on uncoated glass surface. These coating solutions have been scaled up to 1000?kg batch in PPG’s Tianjin plant, China.

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Anti-glare coatings with irregular surface microstructures formed during a spray process have a gloss value between 50 to 100 gloss units, a pencil hardness ≥8H, and no sparkling issues on touch screen displays. Optical profiler image (with ×50.3 magnification) of the anti-glare coating surface (70 gloss units) shows irregular microstructure patterns which are random locally but uniform in large area. The light scattering on the anti-glare coating surface is caused by these irregular surface microstructures. Thus the specular reflection is significantly reduced, causing glare reduction, gloss decrease, and haze increase.

     

Effects of flower-like ZnO nanowhiskers on the mechanical, thermal and antibacterial properties of waterborne polyurethane

A novel waterborne polyurethane/flower-like ZnO nanowhiskers (WPU/f-ZnO) composite with different f-ZnO content (0-4.0 wt%) was synthesized by an in-situ copolymerization process. The f-ZnO consisting of uniform nanorods was prepared via a simple hydrothermal method. In order to disperse and incorporate f-ZnO into WPU matrix, f-ZnO was modified with γ-aminopropyltriethoxysilane. Morphology of f-ZnO in WPU matrix was characterized by scanning electron microscope. The properties of WPU/f-ZnO composites such as mechanical strength, thermal stability as well as water swelling were strongly influenced by the f-ZnO contents. It was demonstrated that appropriate amount of f-ZnO with good dispersion in the WPU matrix significantly improved the performance of the composites. The mechanical property was enhanced with an increase of f-ZnO content up to the optimum content (1 wt%) and then declined. Incorporation of f-ZnO enhanced the water resistance of the composites remarkably. It was amazing to observe that the thermal degradation temperatures of the composites initially decreased significantly and then leveled off with content increase of f-ZnO, which was different from the results of other WPU composite systems reported. Antibacterial activity of WPU/f-ZnO composite films against Escherichia coli and Staphylococcus aureus was also tested. The results revealed that the antibacterial activity enhanced with the increasing f-ZnO content, and the best antibacterial activity was obtained at the loading level of 4.0 wt% f-ZnO.     

Thermal and neutron shielding properties of 10B containing UV cured hybrid coatings

¹⁰B containing organic–inorganic hybrid coating material based on a UV-curable formulation was prepared via anhydrous sol–gel technique. UV curable coatings were applied on Plexiglas (PMMA) substrates. The molecular structure of the coating material was analyzed by ATR-FTIR spectroscopy technique. The characterization of the UV-curable coating was evaluated by various techniques such as gel content, abrasion resistance, chemical resistance, pencil hardness, pendulum hardness, MEK rubbing test, contact angle, cross-cut test, gloss, transmittance test, neutron absorption, Limiting Oxygen Index and stress–strain tests. Hybrid coatings showed a significant enhancement in radiation shielding properties. The thermal behavior of coatings was also evaluated. It is observed that the thermal stability of coatings mainly depends on their boron and silicate contents. Results of all analysis conducted on hybrid films, and coatings were discussed.     

Sol–gel composite coatings from methyltriethoxysilane and polymethylhydrosiloxane

New composite coatings were prepared by mixing pre-hydrolyzed methyltriethoxysilane (MTES) sol by an acidic catalyst dibutyltin dilaurate (DBTDL) and polymethylhydrosiloxane (PMHS) in gasoline at room temperature. The gel process was thoroughly investigated regarding the use of different basic catalyst [3-aminopropyltriethoxysilane (APTES) or triethylamine (TEA)], as well as the ratios of pre-hydrolyzed MTES sol and PMHS with various content of active H. It was revealed that the composite coating from 2:1 ratio (w/w) of pre-hydrolyzed MTES sol with equimolar amounts of water and PMHS_1.55 under the catalysis of APTES demonstrated high pencil hardness, and excellent resistance against contamination and corrosion. This composite coating (MTPM21-A) was further characterized by FTIR, ²⁹Si NMR, DSC and TGA.     

Effect of 3-Aminopropyltriethoxysilane on Solvent Resistance,Thermal Stability,and Mechanical Properties of Two-Component Waterborne Polyurethane

A two-component waterborne polyurethane (2K-WPU) was obtained by the reaction between a hydroxyl-component waterborne polyurethane and a hydrophilically modified polyisocyanate. A hydroxyl-component waterborne polyurethane with a cross-link structure of Si-O-Si groups was synthesized by means of 3-aminopropyltriethoxysilane (APTES) and trimethylolpropane end-capping concurrently. Mean particle size and viscosity of the hydroxyl-component WPU mini-emulsions were examined by a laser particle analyzer and a Brookfield viscometer. Fourier transform-infrared spectroscopy (FT-IR) and X-ray photoelectron spectroscopy (XPS) were utilized to analyze the chemical structure of 2K-WPU films. The influence of APTES content on thermal stability, mechanical properties, and solvent resistance of 2K-WPU films was also investigated by thermogravimetric analysis (TGA), a universal testing machine, and an immersion test under three kinds of solvent (ethanol, acetone, and dichloromethane) for 24 h, respectively. The results show that 2K-WPU films containing APTES have excellent thermal stability, tensile strength, and breaking elongation. Additionally, these films possess the strongest resistance to ethanol, as well as resistance to acetone and dichloromethane to a certain extent at the APTES content of 4 wt.%.     

A Novel Enzymatic Glucose Biosensor and Nonenzymatic Hydrogen Peroxide Sensor Based on (3‐Aminopropyl) Triethoxysilane Functionalized Reduced Graphene Oxide

In the present study, a novel enzymatic glucose biosensor using glucose oxidase (GOx) immobilized into (3‐aminopropyl) triethoxysilane (APTES) functionalized reduced graphene oxide (rGO‐APTES) and hydrogen peroxide sensor based on rGO‐APTES modified glassy carbon (GC) electrode were fabricated. Nafion (Nf) was used as a protective membrane. For the characterization of the composites, Fourier transform infrared spectroscopy (FTIR), X‐ray powder diffractometer (XRD), and transmission electron microscopy (TEM) were used. The electrochemical properties of the modified electrodes were investigated using electrochemical impedance spectroscopy, cyclic voltammetry, and amperometry. The resulting Nf/rGO‐APTES/GOx/GC and Nf/rGO‐APTES/GC composites showed good electrocatalytical activity toward glucose and H₂O₂, respectively. The Nf/rGO‐APTES/GC electrode exhibited a linear range of H₂O₂ concentration from 0.05 to 15.25 mM with a detection limit (LOD) of 0.017 mM and sensitivity of 124.87 μA mM⁻¹ cm⁻². The Nf/rGO‐APTES/GOx/GC electrode showed a linear range of glucose from 0.02 to 4.340 mM with a LOD of 9 μM and sensitivity of 75.26 μA mM⁻¹ cm⁻². Also, the sensor and biosensor had notable selectivity, repeatability, reproducibility, and storage stability.     

纳米微晶纤维素表面改性研究

分别对纳米微晶纤维素(NCC)的表面进行醋酸酯化、羟乙基化和羟丙基化改性,利用FT-IR、TEM、13C-NMR、TGA对改性产物进行表征,研究不同的表面改性方法对纳米微晶纤维素性能的影响.结果表明,利用这几种方法改性后的NCC,经干燥后都可以重新分散在适当的溶剂中,且颗粒粒径没有明显变化,但不同改性产物的热性能有所差异.     

Effect of nanocrystalline cellulose on the curing characteristics and aging resistance properties of carbon black reinforced natural rubber

This work focused on the effect of nanocrystalline cellulose (NCC) on the curing characteristics, aging resistance and thermal stability of natural rubber (NR) reinforced with carbon black (CB). Sharing the same fillers loading of 45 parts per hundred rubber (phr), NR/NCC/CB composites with different NCC/CB ratios (i.e. 0/45, 5/40, 10/35, 15/30, 20/25 phr) were prepared and analyzed. Resorcinol and hexamethylene tetramine (RH), acting as the modifier in NR/NCC interface, was also discussed for its influence. The result showed that an relatively higher ratio of NCC/CB led to a lower torque, a shorter cure time (T ₉₀), a slightly longer scorch time (T ₁₀) and a bigger vulcanization rate constant (K). This tendency suggested that the existence of NCC accelerated the vulcanization process. Additionally, modified by RH, NR/NCC/CB compounds exhibited a short T ₁₀ and a elevated torque. And a moderate RH content would lower the E _a of vulcanization. A 10 phr substitute of CB by NCC can help to improve aging resistance in terms of mechanical properties. In a high temperature aging condition, composites with 10 phr NCC also performed the highest storage modulus (G′) among composites tested. A moderate NCC content contributed to the best retention of G′ after high temperature aging, so did the incorporation of RH. With the partial replacement of CB by NCC, the temperature of 5% weight-lose had a slight drop and the apparent crosslink density showed a decrease. Thanks to the interaction of RH with both NR and NCC, composites showed an improvement in apparent crosslink density after modified by RH.     

水性聚氨酯/功能化石墨烯纳米复合材料的非等温结晶动力学

采用差示扫描量热法DSC研究了水性聚氨酯/功能化石墨烯(WPU/FGNs)纳米复合材料的非等温结晶行为,分别采用Ozawa方程、莫志深方程研究复合材料的非等温结晶动力学,并通过Kissinger方程计算了结晶过程中的活化能。 结果表明,石墨烯在复合材料的结晶过程中起到异相成核剂的作用,提高了复合材料的结晶起始温度、峰值温度和结晶速率;增加石墨烯的质量分数,复合材料的结晶维数增加;石墨烯增加至0.3%,复合材料的活化能从-47.74 kJ/mol降低至-53.60 kJ/mol,继续增加石墨烯至1.0%,复合材料的活化能增加至-41.74 kJ/mol。     

有机硅氧烷改性St/BA/AA三元共聚乳液的制备

采用核壳乳液聚合法,制备了乙烯基三乙氧基硅烷（VTES）改性的St/BA/AA三元共聚乳液,其结构经FT IR确证。研究了VTES用量、乳化剂用量及配比和引发剂用量对单体转化率和粒径的影响。结果表明：在最优条件［48%St, 48%BA, 4%AA, 1%N-MA, 4%VTES, 8%乳化剂（OP-10/SDS=1/3）, 0.8%引发剂］下,单体转化率为95.8%,平均粒径242 nm。并研究了改性St/BA/AA乳胶膜(1)的耐溶剂性和铅笔硬度。结果表明：1具有良好的耐溶剂性,铅笔硬度为2H。     

Triazole-forming waterborne polyurethane composites fabricated with silane coupling agent functionalized nano-silica

In the research work, "click" chemistry was used to modify waterborne polyurethane (WPU) with silane coupling agent (SiCA) functionalized nano-silica. The modified WPU (CWPU) was characterized by FTIR, scanning electron microscope (SEM), thermogravimetric analysis (TGA) and contact angle measurement. The experiment results show that the modification can improve the thermal stability, hardness, and water or weather resistance of CWPU.     

Preparation of high performance composites based on aluminum nitride/poly(ether-ether-ketone) and their properties

Novel high performance aluminum nitride (AlN)/poly(ether-ether-ketone) (PEEK) composites containing 0-50 wt.% fractions of AlN were prepared by solution blending method followed by hot pressing to evaluate their density, melting temperature, crystallization, thermal stability, morphological behavior and Vickers hardness by using different characterization techniques. Differential scanning calorimetry results indicated that the AlN particles are very effective nucleating agent, which results in increase in melting point, hot crystallization temperature and crystallinity of composites as the AlN content increases. Thermogravimetric analysis showed enhanced thermal stability of the composites with respect to PEEK. Density and X-ray diffraction techniques showed that crystallinity of the composites increases as the wt.% of AlN content increases in polymer matrix. Scanning electron microscopy revealed that AlN particles were well dispersed with no porosity in composites. Vickers hardness of the samples increased from 24 kg/mm² for the pure PEEK to 35 kg/mm² for AlN/PEEK composites.     

Fabrication of functional waterborne polyurethane/montmorillonite composites by click chemistry method

"Click" chemistry method was used to fabricate novel waterborne polyurethane (WPU)/montmorillonite (MMT) composites based on alkyne-containing WPU and azide-modified montmorillonite. The morphology of these composites was characterized by x-ray diffractometer, scanning electron microscope. The mechanical properties, thermal stability, and flame resistance of the composites were investigated by tensile, thermogravimetry and cone calorimetric experiments, etc. The experimental results show that the tensile strength, water resistance and flame retardancy of the WPU/MMT composites have been reinforced efficiently owing to the linking of MMT by click reaction.     

Visible light sensitized attapulgite-based lanthanide composites: microstructure, photophysical behaviour and biological application

Attapulgite, an extremely stable fibrillar mineral present in nature, is a promising new carrier of luminescent lanthanide complexes for further applications. A europium complex Eu(DBM)(3)(H(2)O)(2) (HDBM = dibenzoylmethane) was covalently coupled onto modified attapulgites (or silica nanoparticles) via a ligand exchange reaction, generating attapulgite-based ternary europium complexes. The composites were characterized by CHN elemental analysis, inductively coupled plasma-atomic emission spectroscopy (ICP-AES) for Eu(3+) content, powder X-ray diffraction (XRD), thermogravimetry (TG) and UV-vis absorption spectra. The results indicate that the Eu(3+) complex was grafted covalently to the outer surfaces of attapulgites (or silica nanoparticles) and modifications by coupling agents containing different alkoxide groups (aminopropyltriethoxysilane (APTES) or aminopropylmethyldiethoxysilane (APMDES)) led to different grafting ratios. The structures of these composites were further evidenced by the determination of photophysical behaviours and coordinated water molecules of the complexes linked to matrices. Attapulgite-based lanthanide composites linked by APTES can be excited by visible light, with a wide excitation wavelength range from UV to visible light (a maximum at 398 nm), long luminescence lifetime (503 μs), high quantum yield (48%) and improved exposure durability. When incubated with HeLa cells at 37 °C, the fluorescence of matrix-APTES-cpa-Eu(DBM)(3) is observed on the cell membrane. Moreover, the low cytotoxicity of our present system results in potential applications for cell imaging in biological systems.     

层状复合氢氧化物的制备改性及其对热塑性硫化胶的阻燃作用

用氩载氨气泡膜限域共沉淀反应合成了层状复合氢氧化物(LDH)及其硬脂酸改性样品,与热塑性硫化胶Santoprene熔炼制成LDH/Santoprene复合材料,在EDS、XRD、IR和N2吸解表征的基础上,对LDH-Santoprene复合物的机械性能及燃烧性能进行了测试评价.结果表明所用合成方法能够实现小尺寸LDH微晶的快速合成与表面改性,微晶粒度及表面性能明显改观;改性样品对Santoprene有更好的复合效果和明显的阻燃作用.     

Hydrogen‐bonding,crystallinity, and morphological properties of poly(silicic acid)/waterborne polyurethane nanocomposites

Unique nanocomposites consisting of poly(silicic acid) nanoparticles (PNs) and waterborne polyurethane (WPU) were prepared. The aliphatic WPU prepared in this study was end‐capped with a silanol group, which could react with PNs via a sol–gel process. PNs were modified with phenyltrimethoxysilane (PTMS) and 3‐(trimethoxysilyl)propyl ester (TMPE) and then blended with WPU. The structure–property relationships were examined. Solid‐state ²⁹Si NMR spectra of WPU showed that structures T₁, T₂, and T₃ of WPU decreased and structures Q₃ and Q₄ of PN/WPU nanocomposites increased gradually. When the PN concentration increased to 10 wt %, PN/WPU nanocomposites exhibited the maximum fraction of hydrogen‐bonded carbonyl groups. In the PTMS–PN and TMPE–PN systems, the fraction of hydrogen‐bonded carbonyl groups fluctuated stably when the concentrations of PTMS–PN and TMPS–PN exceeded 5 wt %. The X‐ray diffraction results revealed that α‐form, γ‐form, or triclinic crystallization could be found in the WPU matrix. A differential scanning calorimetry spectrum showed that the crystalline structure of the hard segment of WPU was influenced by the nanoparticle concentration. The degrees of crystallinity were 88% for the PN/WPU nanocomposites, 41% for the PTMS–PN/WPU nanocomposites, and 54% for the TMPE–PN/WPU nanocomposites when the PN, PTMS–PN, and TMPE–PN concentrations were 5 wt %. © 2005 Wiley Periodicals, Inc. J Polym Sci Part B: Polym Phys 43: 1076–1089, 2005     

Study of two grafting methods for obtaining a 3-aminopropyltriethoxysilane monolayer on silica surface

In order to establish a 3-aminopropyltriethoxysilane (APTES) grafting procedure with limited number of APTESs noncovalently linked to the silica surface, two different methods of grafting (in acid-aqueous solution and in anhydrous solution) were compared. The grafted surface state was investigated by atomic force microscopy (AFM). The stability of the grafting was checked at different temperatures by AFM. Continuous and plane APTES grafted surfaces were successfully prepared using both grafting preparations. The grafting in an anhydrous solution behaves homogeneously and stably compared to the grafting in an acid-aqueous solution. Moreover, with anhydrous solution, results showed that a unique monolayer of APTES was grafted.     

纳米微晶纤维素对炭黑补强天然橡胶力学性能和动态性能的影响

采用酸水解工业微晶纤维素(MCC)制备纳米微晶纤维素(NCC),将其与天然胶乳共凝沉,混炼时加入炭黑(CB),制备了天然橡胶(NR)/NCC/CB复合材料,研究了NR/NCC/CB和NR/NCC/CB/RH(间苯二酚-六亚甲基四胺络合物)复合材料的力学性能和动态性能,并与NR/CB体系的性能进行对比.结果表明NCC可以均匀分散在天然橡胶基体中,且依拉伸方向取向,随着NCC替代炭黑的份数增加,Payne效应减弱,说明NCC本身并不构成强的填料网络,NR/NCC/CB与NR/CB比较,前者整体的网络化程度减弱,体系的损耗因子变化不大,NCC的加入改善了NR/CB的力学性能和抗屈挠龟裂性能,降低压缩疲劳温升和压缩永久形变,当NCC取代5～20 phr CB后,仍然保持高耐磨炭黑补强天然橡胶的耐磨耗性能.动态力学性能显示NR/NCC/CB的玻璃化转变温度较NR/CB变化不大,0℃的tanδ略有下降的同时60℃的tanδ明显降低.NR/NCC/CB/RH体系的Payne效应较NR/NCC/CB明显减弱,力学性能、抗屈挠龟裂性能和耐磨耗性能进一步改善,体系的压缩疲劳温升和压缩永久形变更小.     

Amino‐Containing Ultrafine Organosilica‐Nanoparticle‐Modified Au Electrode for the Determination of Cu(II) Ions

Using 3‐Aminopropyltriethoxysilane(APTES) as a single silica source, an amino‐rich ultrafine organosilica‐nanoparticle‐modified Au electrode was fabricated, following the formation of (3‐mercaptopropyl)‐trimethoxysilane (MPTS) monolayer on Au surface (MPTS/Au). With cetyltrimethylammonium bromide as an additive, APTES‐based gel particles on the electrode have a narrow particle size distribution of 4–7 nm and “crystal‐like” structure. AFM and electrochemical characterization confirmed the successful grafting of APTES nanoparticles on MPTS/Au. The APTES/MPTS/Au electrode is highly sensitive for the detection of copper(II) ions with a detection limit as low as 1.6×10^?12 mol L^?1 (S/N>3) by square wave voltammetry. The current is linear to copper(II) concentration between 1.6×10^?12 and 6.25×10^?10 mol L^?1.