紫外线屏蔽PDA/BC/PVB复合透明薄膜的制备及性能

聚乙烯醇缩丁醛(PVB)薄膜制品在包装材料领域得到了广泛应用,然而PVB材料的光降解导致材料的应用价值降低,因此,设计防紫外线PVB复合材料被认为是实现其应用价值的必要条件。以盐酸多巴胺(DA)、细菌纤维素(BC)和PVB为原材料,首先基于DA的氧化自聚合,在BC表面原位沉积聚多巴胺(PDA)对BC改性,得到PDA/BC纳米复合材料,然后通过溶液共混和涂膜工艺将PDA/BC与PVB共混,制备了PDA/BC/PVB复合纳米薄膜,并使用扫描电子显微镜(SEM)、紫外-可见红外分光光度计、万能材料试验机、傅里叶变换红外光谱以及X射线衍射仪研究了PDA/BC的添加量对PDA/BC/PVB复合薄膜结构与性能的影响。SEM表明,当DA的质量分数为0.1%时,反应得到的PDA可均匀覆盖在BC的表面,且制备的PDA/BC/PVB复合薄膜的截面致密;当PDA/BC质量分数小于1%时PDA/BC在PVB中分散均匀。紫外透过率结果表明,当加入质量分数为1%的PDA/BC时,PDA/BC/PVB复合材料在370 nm处紫外屏蔽效率达到98%,复合透明薄膜表现出优异的紫外线阻隔性能,材料的拉伸强度高达61.2 MPa,远高于原始PVB的强度(39.7 MPa)。光学照片显示PDA/BC的加入并未改变材料的透明性。

中医药国际在线课程教学同声传译的策略——基于一项美国中医药PDA/CEU学分项目

同声传译在中医药国际在线课程教学中具有教学过程顺畅、思路清晰、教学速度可控等优势,但译员需要较强的医学知识理解和表达能力。长期准备需要构建中西医知识框架,通过留学生临床实习带教口译训练、短期记忆训练、中西医材料笔译、中医药线下课程的交替传译等方法提高能力;短期准备主要从特定专题、主讲者和受众特点三方面解决具体问题;精力有效分配方法包括驾驭逻辑链、医学信息的视觉化、厘清中西医思维变换、顺句驱动等。

NTA-Fe@PDA/H_(2)O_(2)氧化去除废水中盐酸土霉素

利用聚多巴胺(PDA)与氮川三乙酸(NTA)接枝并螯合Fe^(3+),形成以PDA为载体、NTA为Fe^(3+)螯合剂的芬顿催化剂NTA-Fe@PDA,采用NTA-Fe@PDA/H_(2)O_(2)芬顿氧化法去除废水中盐酸土霉素(OTC).材料表征结果发现,NTA-Fe@PDA属于典型的介孔结构,Fe元素与有机配体成功螯合,PDA的聚合效果良好.探讨了H_(2)O_(2)投加量、NTA-Fe@PDA投加量和初始pH值对OTC降解的影响.结果表明,在NTA-Fe@PDA浓度为200mg/L,H_(2)O_(2)浓度为5mmol/L,初始pH值为4.85的条件下,反应60min后,20mg/L OTC的降解率达到96.23%.自由基鉴定实验表明,·OH是OTC降解过程中的主要自由基.通过LC-MS分析结果推测了OTC降解的中间产物和可能的降解路径.NTA-Fe@PDA在反应体系中重复利用8次以后,OTC的降解率仍在86.80%以上.NTA-Fe@PDA/H_(2)O_(2)芬顿法为抗生素废水处理提供了一种新思路和技术参考.

个人数字助理(PDA)在提升门急诊输液室安全护理流程中的实施价值研究

分析在门急诊输液室安全护理中,引入个人数字助理(PDA)的实施效果。方法 限定时间:2023.01-2023.12;限定对象:门急诊输液室输液患者200例;研究方法:PDA专项护理、常规护理。比较干预效果。结果 采用PDA专项护理护理质量较常规护理佳;分析组护理效果较参比组佳(P<0.05)。结论 在急诊输液室安全护理中,应用PDA专项护理,利于安全护理及护理质量提升。

粗糙度对铜基表面PDA/PTFE涂层摩擦磨损性能的影响

为了改善PTFE涂层和Cu基体的界面结合性能,采用聚多巴胺(PDA)对PTFE涂层和Cu基体之间的界面进行改性,在不同粗糙度的Cu基体表面制备了PDA/PTFE自润滑涂层,利用光学轮廓仪、扫描电镜(SEM)、接触角测量仪和摩擦磨损试验机等研究了基体粗糙度对PDA改性PTFE涂层微观组织和摩擦磨损性能的影响。结果表明:PTFE涂层的成膜受到基体粗糙度和PDA分布的综合作用;当基体粗糙度R_(a)=60 nm时,基体表面粗糙峰和粗糙谷都覆盖了PTFE涂层,涂层的厚度达到最大值(约为1.83μm),此时PDA改性PTFE涂层的耐久性达到最大值(循环次数=813),涂层的磨损率最低;当基体粗糙度过大时,粗糙峰处PDA含量减少且粗糙峰处应力集中严重,容易导致PDA改性PTFE涂层的快速失效。

Fe_(3)O_(4)/PDA复合纳米材料回收高黏度油田采出水中油相的研究

高黏度油田采出水通常呈现乳浊液的状态,难以实现油水分离。本文采用共沉淀法制备Fe_(3)O_(4)纳米颗粒,在超声波辅助下将聚多巴胺(PDA)与纳米Fe_(3)O_(4)键合,制得Fe_(3)O_(4)/PDA复合材料,并采用FTIR、显微镜、物理吸附仪等表征。在交变磁场作用下,实现油田采出水破乳,达到油水分离的目的。并考察了Fe_(3)O_(4)/PDA复合材料稳定循环使用次数、交变磁场频率对回收油相效率的影响。结果表明,在极低磁场频率6.0 Hz下,所制备材料可稳定循环使用11次,为油田采出水重复利用和高附加值油相的回收利用提供了有效、便捷的方法。

B-PDA-G/PDMS导热绝缘材料的制备及应用

为解决可穿戴电子设备中的散热问题,开发了一种高导热、高电绝缘性能的柔性热管理材料。通过选用氮化硼(BN)和石墨烯纳米片(GNPs)作为杂化导热填料,选取聚多巴胺(PDA)对杂化导热填料表面进行改性,然后与聚二甲基硅氧烷(PDMS)混合,采用热压法制备了不同填料质量分数的B-PDA-G/PDMS导热绝缘膜。利用傅里叶变换红外光谱、X射线光电子能谱和扫描电镜等表征手段,探究填料B-PDA-G与单一BN对PDMS膜导热性能的影响,并评估其在纺织领域的应用可行性。结果表明:B-PDA-G/PDMS膜在低填料质量分数时能够保持良好的力学性能、电绝缘性和导热性能。当BN与GNPs的质量比为5∶5,填料质量分数为30%时B-PDA-G/PDMS导热绝缘膜的面内导热率最高可达7.63 W/(m·K),相较于BN/PDMS和纯PDMS膜分别提高了2.8倍和27.3倍。B-PDA-G/PDMS作为封装材料应用于电热织物中表现出良好的导热和散热性能,表明其在柔性可穿戴设备和电子器件的热管理中应用潜力巨大。

PDA与GIS技术联合在森林资源规划设计调查中的具体应用

以往的森林资源二类调查主要以地面调查为主,工作量重、流程繁琐,同时存在表、图、卡片分离的情况,调查期间会牵涉大量属性数据与空间数据,其中空间数据需要在纸质地形图采集,属性数据调查结果则以代码的形式进行保存,所以业内数据录入任务重,且在工作开展中出错率高,数据更新困难,与当前林业资源管理工作的开展不相符。在卫星技术、航空航天技术、遥感数字图像计算机解译技术持续发展背景下,以GIS、RS、GPS为主的3S集成技术因独特的高效快速、低耗科学等优势在森林资源规划设计调查领域中得到了大力应用,实现了传统工作模式不足的弥补,更能满足森林资源再生性、动态性与辽阔性等特征。在现代信息技术持续发展背景下,各类功能强大设备的出现更是为先进技术的应用提供了便利,将PDA与GIS技术联合开展森林资源规划设计调查成为了现下关注的焦点,可实现工作效率与质量的提升,促森林资源管理更加规范。故而本文结合工作实际致力于这方面展开探索,以供参考。

TiO_(2)-PDA核壳结构及TiO_(2)-PDA/硅胶复合材料的制备

将多巴胺单体在纳米TiO_(2)粒子表面聚合,形成TiO_(2)-聚多巴胺(PDA)核壳结构,与硅胶(SR)共混制备了TiO_(2)-PDA/SR复合材料,并研究了其结构与性能。结果表明:使用多巴胺单体增加了TiO_(2)的分散性与相容性;PDA包覆的TiO_(2)粒子分散性明显提升,形成了较为清晰的核壳结构;PDA稳定且牢固地自聚在纳米TiO_(2)粒子外层,不易脱落;TiO_(2)-PDA/SR复合材料的起始分解温度从450.44℃提升到468.01℃,复合材料微观形貌呈海-岛结构。

PDA/Fe_(3)O_(4)上浆对碳纤维/聚酰胺6热塑性复合材料力学性能的影响

在碳纤维增强热塑性复合材料中,碳纤维(CF)与热塑性树脂基体间的界面强弱对其整体力学性能有巨大的影响。为改善CF与聚酰胺6(PA6)的界面性能,利用多巴胺(DA)的聚合与黏附特性,将纳米相四氧化三铁(Fe_(3)O_(4))引入到CF表面进行协同修饰,通过简单的浸渍共沉积,利用DA的氧化自聚合在CF表面构建聚多巴胺/纳米四氧化三铁(PDA/Fe_(3)O_(4))涂层。对CF改性前后表面微观结构与化学特性进行了表征,结果表明PDA/Fe_(3)O_(4)上浆剂能够显著提高CF表面的粗糙度与化学活性,加强纤维与树脂基体的机械啮合作用与化学相互作用。与未改性CF/PA6复合材料相比,制备得到的改性CF/PA6复合材料表现出优异的力学性能,其弯曲强度、层间剪切强度分别提高了30.8%和29.1%。

用于C_(3)H_(6)/N_(2)分离的PDA@PEBA2533膜的制备

为回收聚丙烯制备尾气中的丙烯,采用本实验室独创的浸渍-旋转法在聚醚嵌段共聚酰胺(PEBA2533)膜表面沉积聚多巴胺(PDA)膜层制备出对C3H6具有更强亲和性的PDA@PEBA2533膜。利用扫描电子显微镜(SEM)和X射线衍射(XRD)对PDA颗粒和膜进行表征。考察了PDA沉积时间对膜形貌、结构以及分离性能的影响,也考察了温度和压力等操作条件对膜分离性能的影响。探索了PDA@PEBA2533膜对不同C3H6浓度的C_(3)H_(6)/N_(2)混合气的分离效果以及膜的长时间分离稳定性。结果表明,沉积PDA于PEBA2533膜表面有效提高了膜的分离性能。当沉积时间不小于24h时,可得到连续的PDA膜层,随沉积时间的增加,膜层逐渐增厚,气体渗透速率先增大后减小,选择性持续上升,沉积24h所制备的膜分离性能最佳。增大操作温度和压力,膜对C3H6和N2的渗透速率均增大,C_(3)H_(6)/N_(2)选择性则降低。增大混合气中C3H6浓度,膜对C3H6的渗透速率和选择性均呈现先上升后下降的趋势。在所制备的分离性能最好的PDA@PEBA2533膜上,0.2MPa时,对C3H6体积分数为20%的混合气,温度从0℃提高到50℃,C3H6渗透速率从8.25GPU增加到71.42GPU,C_(3)H_(6)/N_(2)选择性从22.92降低至10.14。在130h的气体分离实验中,该膜表现出良好的稳定性。该膜与其他分离C_(3)H_(6)/N_(2)混合气膜相比具有一定的优势。

光热驱动PS-PS@PDA偏心纳米马达的制备及运动性能研究

以聚苯乙烯(PS)纳米颗粒为模板,通过模板法制备了一种光热驱动聚苯乙烯-聚苯乙烯@聚多巴胺(PS-PS@PDA)偏心纳米马达,利用扫描电子显微镜、透射电子显微镜对其形貌结构进行了表征,并评价了其光热性能和运动性能。结果表明,PS-PS@PDA偏心纳米马达由1个挤出的PS小球和1个核壳结构PS@PDA大球组成,直径分别为(134.7±12.4)nm和(229.3±6.5)nm;在近红外激光照射下,纳米马达表现出良好的光热转换性能和光热稳定性;随着激光功率密度的增加,纳米马达的扩散系数逐渐增大,当功率密度为2.0 W·cm^(-2)时,扩散系数达到15.57μm^(2)·s^(-1),比布朗运动的扩散系数提高了约32倍;此外,纳米马达在不同的生物介质中依然能够维持高效驱动。

PDA改性PVDF/PAN纤维膜的制备及其油水分离性能研究

采用静电纺丝技术制备聚偏氟乙烯(PVDF)/聚丙烯腈(PAN)纤维膜,通过控制多巴胺(DA)浓度自聚合形成聚多巴胺(PDA)纳米簇,并将其沉积在PVDF/PAN纤维膜表面,得到PDA@PVDF/PAN纤维膜。通过扫描电子显微镜、傅里叶变换红外光谱仪、接触角分析仪等对PDA@PVDF/PAN纤维膜进行表征并测试了其油水分离性能。结果表明,PDA负载到PVDF/PAN纤维膜表面,与未改性纤维膜相比,PDA@PVDF/PAN纤维膜接触角减小了102.8°,对菜籽油/水混合物的分离效率均在97%以上,经过6次循环后,分离效率未发生显著变化,对石油醚/水乳液的过滤效率高达96.6%,表现出优异的过滤效率和耐久性能。

PDA/GO/PUF聚氨酯泡沫的力学与隔热性能及其微观机理

为研究聚多巴胺/氧化石墨烯/软质聚氨酯泡沫(PDA/GO/PUF)的力学与隔热性能,采用一种新工艺制备了PDA/GO/PUF,利用压缩实验和接触角测试对PDA/GO/PUF的物理力学性能进行了测试,利用红外热像仪和燃烧实验对PDA/GO/PUF的隔热性能进行了表征,并通过热重(TG)、扫描电子显微镜(SEM)和傅里叶红外光谱(FTIR)进行了微观机理解释。结果表明:在循环荷载作用下,PDA/GO/PUF复合材料未产生永久变形,且具有较小的能量损失系数、较大的最大应力、较平稳的压缩强度和杨氏模量,表现出优异的力学稳定性和抗疲劳性能;PDA/GO/PUF表面疏水性能相较于PUF有显著提升,接触角增大了13.83°;PDA/GO/PUF较PUF表现出更优异、更稳定的隔热效果,且在燃烧过程中没有出现熔滴现象;在GO/PUF泡沫表面自聚合形成的PDA纳米涂层具有优异的黏附性,能够将脱离GO/PUF的GO颗粒也吸附在PDA/GO/PUF表面;PDA/GO/PUF在燃烧过程中形成了致密的炭层,有效地隔绝了热量并降低了PDA/GO/PUF的热分解速率,与PUF相比,其T_(-50%)分解温度提升了240℃,残炭量提升了21.65%,显著增强了材料的热稳定性;PDA/GO/PUF分别在1420 cm^(-1)和1714 cm^(-1)处出现了属于PDA涂层的N-H弯曲振动特征峰和GO的C=O伸缩振动特征峰,进一步证实了PDA/GO/PUF的成功制备。

PDA移动信息技术指导下的优化护理流程在急诊病房护理管理中的应用

目的 探究个人数字助理(PDA)移动信息技术指导下的优化护理流程在急诊病房护理管理中的应用效果。方法 选取2021年1月至2023年1月期间在本院急诊病房接受治疗的98例患者,应用随机数表法将其分为对照组及观察组,各49例,对照组接受常规护理,观察组接受PDA移动信息技术指导下的优化护理流程,对比两组护理效率、不良事件发生率、护理满意度评分。结果 观察组护理信息核对时间、护理评估时间、体征数据采集时间均短于对照组,差异均有统计学意义(P <0.05)。观察组不良事件发生率低于对照组,差异具有统计学意义(P <0.05)。观察组护理流程、护理技术、护患沟通、行为仪表满意度评分均高于对照组,差异均有统计学意义(P <0.05)。结论 急诊病房护理管理中采用PDA移动信息技术指导下的优化护理流程,可提高护理工作效率,减少风险事件,提高护理满意度。

Efficient removal of Cr(VI) by polydopamine-modified lignin from aqueous solution: Batch and XAFS studies

Lignocellulose has the potential to become a bio-based adsorbent due to its biodegradability and renewability.In this study,a novel polydopamine functionalized-lignin(lignin@PDA),prepared via self-polymerization of dopamine(PDA)on lignin,was used as a bio-based adsorbent for rapid scavenging of hexavalent chromium(Cr(VI)).The morphology,functional groups,crystalline structure,and chemical composition of lignin@PDA were characterized with a scanning electron microscope-energy dispersive spectrometer,Fourier transform infrared spectroscopy,X-ray diffraction,and X-ray photoelectron spectroscopy.The Cr(VI)adsorption process of lignin@PDA was studied using batch experiments as a function of pH,ionic strength,adsorbent dose,and contact time at room temperature.The adsorption rate of lignin@PDA was five times greater than that of the unmodified lignin,with a maximum adsorption capacity of 102.6 mg/g in an acidic medium.The adsorption of Cr(VI)on lignin@PDA fit the pseudo-secondorder equation and the Freundlich model,indicating that the adsorption process was mainly dominated by chemisorption and surface complexation.The thermodynamic parameters showed that adsorption of Cr(VI)on lignin@PDA was an endothermic and spontaneous process.The X-ray absorption fine structure results showed that sorption and reduction of Cr(VI)into Cr(II)occurred simultaneously on lignin.Moreover,PDA coating not only improved the reactivity of lignin but also promoted the complete reduction of Cr(VI)by lignin.According to these results,polydopamine functionalized-lignin is a promising bio-based adsorbent for immobilization of Cr(VI)from wastewater.

Anti-aging performance improvement and enhanced combustion efficiency of boron via the coating of PDA

Boron is an ambitious fuel in energetic materials since its high heat release values,but its application is prohibited by low combustion efficiency and oxidization during storage.The polydopamine(PDA)was introduced into boron particles,investigating the impact of PDA content on the energetic behavior of boron.The results indicated that the PDA coating formed a fishing net structure on the surface of boron particles.The heat release results showed that the combustion calorific value of B@PDA was higher than that of the raw boron.Specifically,the actual combustion heat of boron powder in B@10%PDA increased by 38.08%.Meanwhile,the DSC peak temperature decreased by 100.65℃under similar oxidation rate compared to raw boron.Simultaneously,the B@PDA@AP and B@AP composites were prepared,and their combustion properties were evaluated.It was demonstrated that B@10%PDA@AP exhibited superior performance in terms of peak pressure and burning time,respectively.The peak pressure is 12.43 kPa more than B@AP and burning time is 2.22 times higher than B@AP.Therefore,the coating of PDA effectively inhibits the oxidization of boron during storage and enhances the energetic behavior of boron and corresponding composites.

Synergistic chemotherapy/PTT/oxygen enrichment by multifunctional liposomal polydopamine nanoparticles for rheumatoid arthritis treatment

Amultifunctional liposomal polydopamine nanoparticle(MPM@Lipo)was designed in this study,to combine chemotherapy,photothermal therapy(PTT)and oxygen enrichment to clear hyperproliferating inflammatory cells and improve the hypoxic microenvironment for rheumatoid arthritis(RA)treatment.MPM@Lipo significantly scavenged intracellular reactive oxygen species and relieved joint hypoxia,thus contributing to the repolarization of M1 macrophages into M2 phenotype.Furthermore,MPM@Lipo could accumulate at inflammatory joints,inhibit the production of inflammatory factors,and protect cartilage in vivo,effectively alleviating RA progression in a rat adjuvant-induced arthritis model.Moreover,upon laser irradiation,MPM@Lipo can elevate the temperature to not only significantly obliterate excessively proliferating inflammatory cells but also accelerate the production of methotrexate and oxygen,resulting in excellent RA treatment effects.Overall,the use of synergistic chemotherapy/PTT/oxygen enrichment therapy to treat RA is a powerful potential strategy.

Polydopamine-modified metal-organic frameworks nanoparticles enhance the corrosion resistance and bioactivity of polycaprolactone coating on high-purity magnesium

Biodegradable magnesium(Mg)and its alloys exhibit excellent biocompatibility and mechanical compatibility,demonstrating tremendous potential for applications in orthopedics.However,the rapid degradation rate has limited their clinical application.Polycaprolactone(PCL)is commonly employed as a polymer coating to impede the rapid degradation of Mg.Unfortunately,its long-term anti-corrosion capability and bioactivity are inadequate.To address these issues,polydopamine(PDA)-modified zeolitic imidazolate framework-8(PZIF-8)bioactive nanoparticles are fabricated and incorporated into the PCL coating.The PZIF-8 particles,featuring catechol motifs,can enhance the compactness of the PCL coating,reduce its defects,and possess biomineralization ability,thereby effectively improving its anti-corrosive and bioactive properties.Moreover,the active substances released from the degradation of the PZIF-8 particles such as Zn^(2+)and PDA are beneficial for osteogenesis.The corrosion tests indicate that the corrosion current density of PCL-treated sample decreases by more than one order of magnitude and the amount of H_(2)released decreases from 0.23±0.12 to 0.08±0.08 ml cm^(-2)after doping with the PZIF-8.Furthermore,the improved corrosion resistance and released PDA and Zn^(2+)from the coating can promote osteogenic differentiation by up-regulating the expression of alkaline phosphatase activity,related osteogenic genes,and proteins.In addition,in vivo implantation experiments in rabbit femur defects further offer strong evidence that the doping of PZIF-8 nanoparticles accelerates bone reconstruction of the PCL coating.In summary,this work implies a new strategy to fabricate a PCL-based coating on Mg-based implants by introducing the PZIF-8 particles for orthopedic applications.

Mussel-inspired PTW@PDA composites for developing high-energy gun propellants with reduced erosion and enhanced mechanical strength

The severe erosion and inadequate mechanical strength are prominent challenges for high-energy gun propellants.To address it,novel PTW@PDA composites was prepared by polydopamine(PDA)-modifying onto potassium titanate whisker(PTW,K_(2)Ti_(6)O_(13)),and after was incorporated into gun propellant as erosion-reducing and mechanical-reinforcing fillers.The interfacial characterizations results indicated that as-prepared PTW@PDA composites exhibits an enhanced surface compatible with propellant matrix,thereby facilitating their dispersion into propellants more effectively than raw PTW materials.Compared to original propellants,PTW@PDA-modified propellants exhibited significant less erosion,with a Ti-Kbased protective coating being detected on the eroded steel.And 0.5 wt%and 1.0 wt%addition of PTW@PDA significantly improved impact,compressive and tensile strength of propellants.Despite the inevitably reduction in relative force,PTW@PDA slightly increase propellant burning rate while exerting little adverse impact on propellant dynamic activity.This strategy can provide a promising alternative to develop high-energy gun propellant with less erosion and more mechanical strength.