Fe(III) grafted MoO3 nanorods for effective electrocatalytic fixation of atmospheric N2 to NH3

Electrocatalytic nitrogen reduction reaction (ENRR) offers a carbon-neutral process to fix nitrogen into ammonia, but its feasibility depends on the development of highly efficient electrocatalysts. Herein, we report that Fe ion grafted on MoO₃ nanorods synthesized by an impregnation technique can efficiently enhance the electron harvesting ability and the selectivity of H⁺ during the NRR process in neutral electrolyte. In 0.1 M Na₂SO₄ solution, the electrocatalyst exhibited a remarkable NRR activity with an NH₃ yield of 9.66 μg h^?1 mg^?1_cat and a Faradaic efficiency (FE) of 13.1%, far outperforming the ungrafted MnO₃. Density functional theory calculations revealed that the Fe sites are major activation centers along the alternating pathway.     

Reactive Oxygen and Nitrogen Species in Defense/Stress Responses Activated by Chitosan in Sycamore Cultured Cells

Chitosan (CHT) is a non-toxic and inexpensive compound obtained by deacetylation of chitin, the main component of the exoskeleton of arthropods as well as of the cell walls of many fungi. In agriculture CHT is used to control numerous diseases on various horticultural commodities but, although different mechanisms have been proposed, the exact mode of action of CHT is still unknown. In sycamore (Acer pseudoplatanus L.) cultured cells, CHT induces a set of defense/stress responses that includes production of H₂O₂ and nitric oxide (NO). We investigated the possible signaling role of these reactive molecules in some CHT-induced responses by means of inhibitors of production and/or scavengers. The results show that both reactive nitrogen and oxygen species are not only a mere symptom of stress conditions but are involved in the responses induced by CHT in sycamore cells. In particular, NO appears to be involved in a cell death form induced by CHT that shows apoptotic features like DNA fragmentation, increase in caspase-3-like activity and release of cytochrome c from the mitochondrion. On the contrary, reactive oxygen species (ROS) appear involved in a cell death form induced by CHT that does not show these apoptotic features but presents increase in lipid peroxidation.     

Corrosion of hot-dip-galvanised steel and zinc alloy-coated steel in ammonia and ammonium chloride

There are many potential causes of corrosion in animal buildings. Animals exhale large quantities of moisture into the air creating high relative humidity in the building if the moisture is not properly vented. High humidity increases the potential for condensation. In addition, ammonia may be found in large quantities in animal buildings. Ammonia is released from manure and urine. In addition, ammonium chloride is used as a nitrogen source in fertilisers. In this study, the atmospheric corrosion of hot-dip-galvanised steel and zinc alloy-coated steel such as zinc–aluminium and zinc–aluminium–magnesium has been studied in atmospheres containing different levels of ammonia. Investigations have also been conducted at different levels of ammonium chloride. The results are discussed in view of the mechanisms of corrosion of zinc and zinc alloy-coated steel in ammonia and ammonium chloride-containing environments.     

Quantum Sensing in a Physiological‐Like Cell Niche Using Fluorescent Nanodiamonds Embedded in Electrospun Polymer Nanofibers

Fluorescent nanodiamonds (fNDs) containing nitrogen vacancy (NV) centers are promising candidates for quantum sensing in biological environments. This work describes the fabrication and implementation of electrospun poly lactic‐co‐glycolic acid (PLGA) nanofibers embedded with fNDs for optical quantum sensing in an environment, which recapitulates the nanoscale architecture and topography of the cell niche. A protocol that produces uniformly dispersed fNDs within electrospun nanofibers is demonstrated and the resulting fibers are characterized using fluorescent microscopy and scanning electron microscopy (SEM). Optically detected magnetic resonance (ODMR) and longitudinal spin relaxometry results for fNDs and embedded fNDs are compared. A new approach for fast detection of time varying magnetic fields external to the fND embedded nanofibers is demonstrated. ODMR spectra are successfully acquired from a culture of live differentiated neural stem cells functioning as a connected neural network grown on fND embedded nanofibers. This work advances the current state of the art in quantum sensing by providing a versatile sensing platform that can be tailored to produce physiological‐like cell niches to replicate biologically relevant growth environments and fast measurement protocols for the detection of co‐ordinated endogenous signals from clinically relevant populations of electrically active neuronal circuits.     

Zinc doped Fe2O3 for boosting Electrocatalytic Nitrogen Fixation to ammonia under mild conditions

Artificial nitrogen fixation is emerging as a promising approach for synthesis of ammonia at mild conditions. Inspired by biological nitrogen fixation based on bacteria containing iron, zinc doped Fe₂O₃ nanoparticles are proposed as an efficient and earth abundant electrocatalyst for converting N₂ to NH₃. In neutral media, it achieves a maximum Faradaic efficiency (FE) of 10.4% and a large NH₃ yield rate of 15.1 μg h^?1 mg^?1_cat. at ?0.5 V vs. reversible hydrogen electrode. This catalyst also exhibits excellent selectivity and stability. Theoretical calculations suggest the reaction follows the associative enzymatic mechanism and it has a barrier of as low as 0.68 eV.     

氢型丝光沸石催化剂催化α-蒎烯合成α-松油醇

在相转移助剂苄基三乙基氯化铵(BTEAC)存在下,以氢型丝光沸石(HM)为催化剂,原料α-蒎烯经开环、重排及水合反应一步法合成了α-松油醇。研究了各种因素对α-蒎烯转化率及α-松油醇收率的影响,采用5因素4水平L16(45)进行了正交实验,得出最佳的工艺条件:反应温度80℃,w(BTEAC)=15%,m(HM)∶m(α-蒎烯)=0.6,反应时间40h,m(乙酸乙酯)∶m(α-蒎烯)=0.9。在此条件下,α-蒎烯转化率为75.2%,α-松油醇收率为42.0%。用气相色谱-质谱联用仪对反应产物进行分析,共鉴定出14种化合物,主要成分为α-松油醇、α-蒎烯、柠檬烯、桉叶油素、异松油烯、龙脑等。实验得到的α-松油醇具有光学活性,旋光值[α]=+61°,同时香气纯正,可用于制作香料。     

含氮化合物对NiW体系催化剂芳烃加氢性能的影响

以γ-Al2O3、B改性的γ-Al2O3、F改性的γ-Al2O3、SiO2-Al2O3为载体制备Ni、W含量相同的四种催化剂，通过程序升温还原表征考察活性金属与不同载体的相互作用。利用氮含量不同、四氢萘含量相同的四种原料考察含氮化合物对同种NiW体系催化剂四氢萘加氢的影响以及对活性金属与载体相互作用不同的催化剂四氢萘加氢的影响。结果表明，以γ-Al2O3或SiO2-Al2O3载体制备的催化剂的金属组分与载体相互作用较强，B或F改性的γ-Al2O3能显著削弱活性金属与载体的相互作用；含氮化合物对四氢萘加氢具有强烈的抑制作用，使四氢萘加氢反应的表观活化能增加；在实验研究的四种催化剂中，金属组分与载体相互作用较弱的催化剂受含氮化合物的抑制较强。     

ADN氧化剂的合成及其在推进剂中的应用

综述了ADN的合成、性质及其在推进剂中的应用，认为球形ADN具有能量高、感度低、特征信号低，对环境无污染等优点，将其作为氧化剂在高能低特征信号推进剂中有着广阔的应用前景。     

无机阻燃剂高聚合度聚磷酸铵的研制

以五氧化二磷、磷酸铵盐、尿素为原料、氨气为保护气,制备了高聚合度聚磷酸铵无机阻燃剂。考察了五氧化二磷、磷酸铵盐、尿素的用量和反应温度对聚磷酸铵平均聚合度的影响。采用端基滴定法测定了聚磷酸铵的聚合度,并用X射线衍射(XRD)法表征了聚磷酸铵的晶体结构,同时测定了聚磷酸铵的粒度和溶解度。实验结果表明,制备聚磷酸铵的最佳反应条件为:n(磷酸氢二铵)∶n(五氧化二磷)∶n(尿素)=1∶1∶0.3,反应温度280~300℃,反应时间40m in,热处理温度250~280℃,热处理时间110m in。在此条件下制备的聚磷酸铵的平均聚合度大于600,平均粒径直径小于50μm,在水中的溶解度小于0.4g;XRD表征结果表明,所合成的物质为Ⅱ型聚磷酸铵。     

双室充氮包装机的技术改进

分析了原机型的性能特点和不足之处,介绍了改进方案。