Synergistic effect of iodide ions and bark resin of Schinus molle for the corrosion inhibition of API5L X70 pipeline steel in H2SO4

The synergistic effect of bark resin of Schinus molle (BRSM) and iodide ions in 0.5 M sulfuric acid has been studied for the first time by potentiodynamic polarization and electrochemical impedance spectroscopy measurements; also, the surface morphology has been analyzed by scanning electron microscopy–energy-dispersive X-ray spectroscopic analysis in the present work. The results show that the BRSM and iodide ions have an evident synergistic inhibition effect in a 0.5-M sulfuric acid solution. The adsorption of the BRSM/iodide ion system follows the Langmuir adsorption isotherm and acts as a mixed-type inhibitor in sulfuric acid. The BRSM/iodide ion system is an effective inhibitor for API5L X70 pipeline steel in the 0.5-M sulfuric acid solution. The maximum percentage inhibition efficiency is equal to 99% at 1 g/L BRSM + 2 mM KI.     

酞菁蓝/蒽醌蓝研磨复配炭黑对织物印花色相的影响

将酞菁蓝颜料及蒽醌蓝与炭黑复配,以木质素磺酸钠为分散剂,用砂磨法制备纯黑色相炭黑色浆。结果显示,研磨1 h后粒径在108 nm左右,炭黑分布较窄,PDI为0. 083 9;SEM测试显示分散体颗粒大小分布均匀,分散性良好;该水性炭黑色浆体系稳定性较好。随着体系蓝色用量增加2. 5%,色浆a^*、b^*值均趋近于0,接近于纯黑色相。     

炭化活化条件对Cu/AC表面Cu价态及其催化降解苯酚的影响

采用前体浸渍法研制了生物质基载铜活性炭催化剂（Cu/AC），利用N₂-吸附脱附、X射线光电子能谱等技术对Cu/AC性质进行了表征，在固定床反应器中研究了不同炭化活化条件所得Cu/AC催化湿式氧化降解苯酚性能。结果表明：Cu/AC表面Cu物种以Cu²⁺和（Cu⁺+Cu⁰）共存。随着制备Cu/AC炭化温度的升高，炭化过程中产生更多的挥发分，促进Cu²⁺还原为Cu⁺和Cu⁰，（Cu⁺+Cu⁰）含量增大，Cu/AC降解苯酚催化活性逐渐升高；随着炭化时间延长，（Cu⁺+Cu⁰）含量下降，Cu₂O、CuO较好地并入载体使晶格氧含量增加，催化活性先升高后下降；随着活化温度升高和活化时间延长，Cu/AC比表面积达到1096.1m²/g并有大量微孔生成，大量含氧官能团分解将炭化过程中还原生成的（Cu⁺+Cu⁰）氧化为Cu²⁺，晶格氧含量增加，催化活性随着活化温度的升高而升高，随着活化时间的延长先升高后下降。催化湿式氧化降解苯酚过程中，Cu/AC具有良好的稳定性和低的Cu离子浸出浓度。Cu/AC的最优制备条件为炭化温度800℃，炭化时间2h，活化温度880℃，活化时间为2h，所得Cu/AC在反应8.5h时实现98.5%的苯酚转化率和91.1%的COD转化率。     

磁性石墨烯/聚氨酯柔性复合材料的制备及自修复效能

为了提高复合材料的导电、导热及自修复性能，在传统共混法的基础上采用化学沉积法将四氧化三铁（Fe₃O₄）修饰到石墨烯上，得到磁性石墨烯，并将其与聚氨酯、碳纳米管共混后经磁场干预控制石墨烯片层的排列得到磁性石墨烯/聚氨酯柔性复合材料。采用SEM、Raman、FTIR对柔性复合材料的微观形貌、分子结构进行表征，并通过激光导热仪、四探针电阻率测定仪和万能试验机分析磁场调控对复合材料电、热、力学以及修复性能的影响。结果表明：磁场下柔性复合材料中的石墨烯片层排列规则，且层次分明，轮廓清晰可见；其热扩散系数相比于未加磁场提高了10 %~12 %，且在高温下具有稳定性，缺陷修复时间减少了50 %；对比出现缺陷前及修复后的复合材料发现，表面电阻率和抗拉强度分别相差0.006Ω·cm和2.4MPa，而无磁场环境下的变化量是其 3～4倍。     

扬子江城市群工业能源碳排放与经济增长脱钩水平及驱动因素

扬子江城市群地处长江经济带的下游重要门户地区，是江苏省“1+3”重点功能区发展的龙头引擎，打造扬子江城市群的绿色生态走廊对建设“强富美高”新江苏和落实长江大保护均具有重要战略意义。论文聚焦扬子江城市群工业能源碳排放脱钩及其驱动因素分析，研究得出：1）扬子江城市群整体工业碳排放量呈现波动上升的变化趋势，其中南京市和苏州市的碳排放增量明显大于其他城市；2）扬子江城市群工业能源碳排放脱钩大致经历了扩张连接、强脱钩以及弱脱钩3个阶段，整体上脱钩水平逐渐提高，但稳定性不高，各城市工业能源碳排放脱钩水平差异较大，但在逐步优化中；3）从驱动因素看，碳排放强度效应和能源强度效应对脱钩水平有促进作用，工业经济规模效应、区域经济比重和能源结构则相反。基于此，论文提出加强低碳城市试点建设、探索构建全域碳权交易市场、调整优化能源结构、推动科技创新等建议，以促进扬子江城市群工业建设高质量发展。     

One‐Step Construction of N,P‐Codoped Porous Carbon Sheets/CoP Hybrids with Enhanced Lithium and Potassium Storage

Despite the desirable advancement in synthesizing transition‐metal phosphides (TMPs)‐based hybrid structures, most methods depend on foreign‐template‐based multistep procedures for tailoring the specific structure. Herein, a self‐template and recrystallization–self‐assembly strategy for the one‐step synthesis of core–shell‐like cobalt phosphide (CoP) nanoparticles embedded into nitrogen and phosphorus codoped porous carbon sheets (CoP?NPPCS), is first proposed. Relying on the unusual coordination ability of melamine with metal ions and the cooperative hydrogen bonding of melamine and phytic acid to form a 2D network, a self‐synthesized single precursor can be attained. Importantly, this approach can be easily expanded to synthesize other TMPs?NPPCS. Due to the unique compositional and structural characteristics, these CoP?NPPCSs manifest outstanding electrochemical performances as anode materials for both lithium‐ and potassium‐ion batteries. The unusual hybrid architecture, the high specific surface area, and porous features make the CoP?NPPCS attractive for other potential applications, such as supercapacitors and electrocatalysis.     

Photophoretic Levitation of Macroscopic Nanocardboard Plates

Scaling down miniature rotorcraft and flapping-wing flyers to sub-centimeter dimensions is challenging due to complex electronics requirements, manufacturing limitations, and the increase in viscous damping at low Reynolds numbers. Photophoresis, or light-driven fluid flow, was previously used to levitate solid particles without any moving parts, but only with sizes of 1–20 µm. Here, architected metamaterial plates with 50 nm thickness are leveraged to realize photophoretic levitation at the millimeter to centimeter scales. Instead of creating lift through conventional rotors or wings, the nanocardboard plates levitate due to light-induced thermal transpiration through microchannels within the plates, enabled by their extremely low mass and thermal conductivity. At atmospheric pressure, the plates hover above a solid substrate at heights of ≈0.5 mm by creating an air cushion beneath the plate. Moreover, at reduced pressures (10–200 Pa), the increased speed of thermal transpiration through the plate's channels creates an air jet that enables mid-air levitation and allows the plates to carry small payloads heavier than the plates themselves. The macroscopic metamaterial structures demonstrate the potential of this new mechanism of flight to realize nanotechnology-enabled flying vehicles without any moving parts in the Earth's upper atmosphere and at the surface of other planets.     

多孔石墨烯/碳纳米管@V2O5柔性电极材料制备及性能研究

以氧化石墨、碳纳米管、三异丙氧基氧化钒为原料,采用化学刻蚀法、水热法、真空抽滤法制备一种具有三维离子扩散通道和整体导电网络结构的致密多孔石墨烯/碳纳米管@五氧化二钒(PGNs/CNT@V2O5)复合薄膜材料。电化学性能测试结果表明,在1 mol/L LiNO3水系条件中,电流密度为1 A/g时,比容量高达187 F/g,在100 mV/s扫描速度下,循环5000次后,容量保持率仍为83.4%。     

珍贵橙色束丝放线菌发酵产安丝菌素P-3的分离纯化工艺优化

安丝菌素是从珍贵橙色束丝放线菌的发酵液中分离出来的苯安莎类抗生素，具有显著的抗肿瘤活性。常采用乙酸乙酯对发酵液进行分离萃取，然而其发酵液成分复杂，除菌丝体外还含有许多杂蛋白质及易溶于有机溶剂的色素，这对后续提取和精制有很大的影响，影响产品质量和回收率。本文通过对AP-3发酵液进行预处理，将AP-3发酵液调整pH至3后，用10g/L硅藻土辅助抽滤；收集滤液，添加20g/L活性炭于60℃吸附2h，然后用洗脱液乙酸乙酯对活性炭进行脱附处理，2h后达到动态洗脱平衡，对洗脱液采用中性氧化铝柱层析，以乙酸乙酯和石油醚作为洗脱剂进行梯度洗脱，最终获得AP-3纯度86.15%，经重结晶后得到AP-3纯品，经过HPLC检测AP-3纯度达95%。