Results 31 to 40 of about 1,496,412 (168)
Rare Metals, Volume 45, Issue 3, March 2026.ABSTRACT High‐entropy alloys (HEAs) have attracted considerable interest from researchers owing to their tunable chemical compositions, exceptional structural stability, and promising catalytic properties. However, their large‐scale application is often hindered by complex manufacturing techniques and poor durability.
Sheng Guo +9 more
wiley +1 more source
, 2008 多元羧酸酯水解制备相应羧酸的方法:在一定温度和水存在的条件下,使羧酸酯水解成相应的羧酸和醇;所述进行水解所要求的温度范围是: 100~400℃,作为反应物的羧酸酯和水二者的重量比为1∶1~1∶15。本发明一种多元羧酸酯水解制备相应羧酸的装置,其包含有反应蒸馏塔(7)和连接在其下部的反应塔釜(9);作为核心设备的反应蒸馏塔(7)上设置有2~ 20个高度不完全相同的羧酸酯流体入口;水进料管(5)直接连接着反应蒸馏塔(7)或通过蒸汽发生装置(6)连接着反应蒸馏塔(7)。本发明不需要预反应器和酸/碱性催化剂 ...
林培滋, 严 丽, 程显波, 丁云杰
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Gongye shui chuli, 2010 采用在水解酸化池投加FeSO4的方法来对"水解酸化—好氧氧化"(A—O)工艺进行改进。对比了水解酸化池有无投加FeSO4时,A—O工艺系统的运行结果,同时研究了FeSO4投加量对A—O工艺处理效果的影响。结果表明,投加了FeSO4的COD和色度的去除效果均好于未投加FeSO4的,当进水水质为COD 653mg/L、色度480倍、pH=9.2、水解酸化池的反应时间为7h、FeSO4投加量为30mg/L时,去除效果最佳,再经好氧反应器处理7h后,出水水质为COD 88mg/L、色度52倍。
王娟, 范迪
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Rare Metals, Volume 45, Issue 3, March 2026.ABSTRACT The development of highly efficient and stable nonprecious metal electrocatalysts for the acidic oxygen evolution reaction (OER) is crucial to advance proton exchange membrane (PEM) water electrolysis. In this work, a dual synergistic strategy was proposed by constructing a Ce‐modified MnO2/MnO heterostructure.
Chuanbin Li +7 more
wiley +1 more source
, 2014 本发明涉及到一种糖类化合物水解的方法及其催化剂,主要是将具有强弱酸性基团高密度分布的酸性材料应用于糖类化合物水解到单糖的过程,解决单糖收率较低和催化剂成本过高的问题。通过采用本发明的催化剂,糖类水解转化率可达到90%以上,低聚糖水解产物选择性可达到90%以上。本发明具有催化剂易于分离和可循环使用 ...
张晓辰 +4 more
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Rare Metals, Volume 45, Issue 3, March 2026.ABSTRACT Skin wound injuries are often accompanied by bacterial infections and severe inflammation. Especially, M1‐type macrophages at the wound site can trigger a cascade of inflammatory responses, mediating a vicious cycle of inflammation. Meanwhile, hypoxia further exacerbates vascular damage and constriction in the wound microenvironment, thereby ...
Xianfeng Wang +6 more
wiley +1 more source
, 1994 欧美诸国严重的酸雨使众多江湖酸化,鱼虾绝迹。我国酸雨南重北轻,呈区域分布和硫酸型特征。川、贵、湘、赣、桂和粤等省、区的局部地带酸雨 pH 低于4.5,接近国外重酸雨水平。重庆市郊(缙云山、南山)已发现酸化水体和酸敏感水体。酸化对各营养级水生生物的生长繁殖、生物多样性和水体生产力造成危害,破坏水体的生态平衡。如果燃煤的脱硫防尘等环保措施不力 ...
况琪军, 夏宜琤
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Gongye shui chuli, 2019 以铝箔酸洗废液为原料,通过酸溶-碱化-水解熟化工序制备聚合硫酸铁铝(PAFS)。用XRD、SEM对产品结构进行表征,并进行净水实验。实验结果表明,在酸浓度为9 mol/L、n(Fe3+):n(Al3+)为4:1、反应温度为110℃、反应时间为4.5 h、碱化度0.6、水解温度为70℃、水解时间4 h、熟化温度为50℃、熟化时间8 h的条件下,制备的聚合硫酸铁铝液体产品呈无定型、多晶体矿混合聚合物结构。污水净化结果表明,除浊率与现有聚合硫酸铁(PFS)的效果相当 ...
张骁 +7 more
doaj
Rare Metals, Volume 45, Issue 3, March 2026.ABSTRACT Efficient and durable bifunctional electrocatalysts are vital for scalable water electrolysis. Here, we realize cobalt‐vacancy (Covac) engineering in CoFeP supported on N,P‐codoped carbon nanocages (Co1‐vacFeP/NPC) through a simple route comprising a CoFe Prussian blue analog precursor, phosphidation–pyrolysis, tannic‐acid etching, and a ...
Yuan‐Liang Yuan +6 more
wiley +1 more source
, 1934 關於探討土壤酸性反應的原因,前行研究為數眾多。其中最為普遍的理由有兩種----腐殖酸(Humic Acid)及酸性含水矽酸鹽(Silicate)的存在。前者造成被稱為酸性腐殖質土的酸性土壤,後者造成了酸性礦物質土壤。酸性腐殖質土壤存在的比例,較之酸性礦物質土壤,其面積相當稀少,一般來說土壤的酸性肇因於其中大部分為酸性礦物質土壤。在前行研究中,將此酸性礦物質土壤的酸度,區別為水解性酸度(Hydrolytic acidity)、交換性酸度(exchange acidity)、活性酸度(active ...
王迸
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