Ye Yin, Shao Ming-wang, Wu Zheng-cui, Ni You-bao
College of Chemistry and Materials Science, Anhui Normal University, Wuhu 241000, China.
Guang Pu Xue Yu Guang Pu Fen Xi. 2005 Apr;25(4):553-5.
Nanocrystalline silver sulfide was successfully synthesized at room temperature and ambient pressure via a novel, safe, convenient and inexpensive redox reaction, using silver oxide, sulfur and polyformaldehyde as reactants and ethylenediamine as solvent. The products were characterized with XPS, XRD and TEM. XRD spectrum demonstrates a monoclinic Ag2S; TEM shows the products are rod-like nanoparticles with average diameter of 100 nm, its corresponding SAED reveals clear diffraction spots indexed as (120) and (303); XPS confirms the formation of Ag2S and indicates the sample's surface stoichiometry of Ag:S=1:0.453. The control experiments show polyformaldehyde and ethylenediamine are both important in the formation of products. Ethylenediamine accelerates the reactions via dissolving silver oxide and sulfur and neutralizing the by-product formic acid.
以氧化银、硫和多聚甲醛为反应物,乙二胺为溶剂,通过一种新颖、安全、便捷且廉价的氧化还原反应,在室温和常压下成功合成了纳米晶硫化银。采用XPS、XRD和TEM对产物进行了表征。XRD谱表明为单斜晶系的Ag2S;TEM显示产物为平均直径100 nm的棒状纳米颗粒,其对应的SAED显示出清晰的衍射斑点,标定为(120)和(303);XPS证实了Ag2S的形成,并表明样品表面的Ag:S化学计量比为1:0.453。对照实验表明,多聚甲醛和乙二胺在产物形成过程中均起着重要作用。乙二胺通过溶解氧化银和硫并中和副产物甲酸来加速反应。
