1) Pd/Fe
Pd/Fe
1.
Studies on dechlorination of chlorophenols with Pd/Fe and nanoscale Pd/Fe;
Pd/Fe及纳米Pd/Fe对氯酚的脱氯研究
2.
Comparison of kinetics of acid violet red B reduced by Pd/Fe and normal Fe~0;
Pd/Fe与Fe~0催化还原降解酸性紫红B的动力学比较
3.
Catalytic Dechlorination of Chlorinated Endocrine Disrupting Chemicals in Water by Pd/Fe;
水中有机氯类环境内分泌干扰物的Pd/Fe催化还原研究
2) Pd/Fe
钯/铁
3) Pd-Fe
钯铁
4) supported nanoscale Pd/Fe
负载型纳米Pd/Fe
1.
Some volatile chlorinated hydrocarbons such as VC,1,1-DCE,TCE,PCE, γ-HCH,were dechlorinated by synthesized supported nanoscale Pd/Fe.
采用实验室制备的负载型纳米Pd/Fe对几种常见的挥发性氯代烃:四氯乙烯(PCE)、三氯乙烯(TCE)、1,1-二氯乙烯(1,1-DCE)、氯乙烯(VC)和林丹(-γHCH)进行了还原脱氯研究。
2.
In order to investigate the removal ability of chlorinated hydrocarbons,the most widely existent pollutants,dichloroethylene(1,1-DCE) and Lidane(γ-HCH)were chosen as the aim pollutants,and the synthetical supported nanoscale Pd/Fe were chosen as the reaction medium.
以水体中最常见的氯代烃污染物1,1-二氯乙烯(1,1-DCE)、林丹(γ-HCH)为主要目标污染物,探讨了不同条件下负载型纳米Pd/Fe对氯代烃的去除效果。
5) Pd-Fe/C catalyst
Pd-Fe/C催化剂
1.
Pd-Fe/C catalysts with different ratios of Pd to Fe were prepared.
以活性炭为载体制备了Pd:Fe原子比分别为1∶1、2∶1、1∶2的Pd-Fe/C催化剂。
2.
Pd-Fe/C catalysts were prepared by the impregnation-reduction method.
用Fe作为掺杂元素,以活性炭为载体,通过浸溃还原方法制备了Pd:Fe原子比分别为1:1、2:1、1:2的Pd-Fe/C催化剂。
6) Pd-Fe/TiO_2
Pd-Fe/TiO2
1.
The process for preparing 3-chloro-4-fluoroaniline from 3-chloro-4-fluoro nitrobenzene via hydrogenation under atmosphere pressure using Pd-Fe/TiO_2 as the catalyst was studied.
研究了以Pd-Fe/TiO2作催化剂,3-氯-4-氟硝基苯常压加氢制备3-氯-4-氟苯胺的方法,考察了该催化剂对3-氯-4-氟硝基苯的常压加氢反应的性能,探讨了影响加氢反应的主要因素。
参考词条
Pd-Fe alloy
Pd-Fe/Al_2O_3
nanoscale Pd/Fe bimetal
Pd/Fe bimetal
Pd-Fe/Al_2O_3 catalyst
Pd/Fe bimetal
nanoscale Pd-Fe particles
Pd/Fe magnetic films
Ni、 Gd、 Pd、 Fe、 Bi
Pd-Fe-O_x/NaZSM-5
nanoscale Pd/Fe bimetallic particles
membrane stabilized nanoscale Pd/Fe bimetallic particles
超F1紧集
塔型数据结构
补充资料:Au-Pd-Cr-Pt-Fe-Al-Y alloys
分子式:
CAS号:
性质:金基与钯、铬、铂、铁、铝和钇的多元合金,电阻系数最高。生产方法参见金钯铬合金。可用作高温应变材料。
CAS号:
性质:金基与钯、铬、铂、铁、铝和钇的多元合金,电阻系数最高。生产方法参见金钯铬合金。可用作高温应变材料。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。