图4展示了在pH为3、9和自然条件下CuFe-MOFs活化PMS降解罗丹明B的结果,硫酸根自由基在降解过程中占主导地位。不同pH条件下罗丹明B去除率仅存在微小差异,这可能是由于硫酸盐自由基的氧化及其向羟基自由基的转化有助于氢离子的产生,从而...
Herein, a novel immunoprobe was fabricated by utilizing 2D CuFe-MOF composed by Cu and Fe as metal nodes and 1,4-benzenedicarboxylic acid (H 2 BDC) as an organic ligand. Due to the planar conjugated structure of the ligand, electronic transition can be greatly promoted. This property of ...
双配体CuFe@MOFs材料为前驱体的催化剂的组分调控对CO_(2)加氢制C_(2+)醇性能的影响 收稿日期:2021⁃01⁃28。收修改稿日期:2021⁃04⁃25。国家科技支撑计划项目(No.2013BAC14B04)、国家自然科学基金(No.21336006)、山西省重点研发计划项目(No.201803D421099,201803D121043)和山西省留学基金委资助项目(...
Design of metal–organic framework (MOF) derived metal oxides is an effective approach for environmental remediation. The current study describes the fabrication of MIL-53-derived perforated CuFe 2 O 4 /Fe 2 O 3 using a facile, one-step, post-thermal solid-state approach by varying Cu/Fe ra...
MOF199-PBAs包裹普鲁士蓝复合材料 MoS2-PBNCs普鲁士蓝立方块-二硫化钼纳米 P4VP聚4-乙烯基吡啶负载光敏剂普鲁士蓝材料 PAMAM-聚N-异丙基丙烯酰胺PNIPAAm载光敏剂普鲁士蓝材料 PANI-PBAs聚苯胺-普鲁士蓝微米复合材料 PB/SiO2普鲁士蓝-二氧化硅 PBAs-ZIFs PB-CdS PB-CuO-AAO-GC PB-Dopa-Au PB-MnFe2O4磁性普鲁士蓝...
In addition, the temperature in the synthesis of CuFe(BDC-NH2)S and CuFe(BDC-NH2)D was 150 °C which increased the crystal growth rate and size of the MOF [30]. Figure 2. SEM images of different CuFe-MOFs: (a) CuFe(BDC-NH2)R; (b) CuFe(BDC-NH2)S; and (c) CuFe(BDC-NH2)D...
No CuFeO2 was found since the s1a0mofp1l6e was exposed to the 5% O2 atmosphere for a long time (over several hours), so no evidence on the otrnantshietiotnrapnhsiatsioencopuhldasbee coobutaldinebde. Ionbtoaridneerdt.oIenluocrideartettohieslmuceicdhaatenisthmisinmpeacrhtiacnuilsamr, ...
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CuFeN/CNT composite with optimal Fe doping derived from urchin-shaped CuFeMOF exhibited a greatly enhanced OER performance comparable to that of precious metal catalyst, affording a current density as high as 236.3 mA at an overpotential of 420 mV (RuO2, 215.3 mA). Furthermore, excellent ...