期刊文献+
共找到2篇文章
< 1 >
每页显示 20 50 100
Co3O4/Biomass-rGO异质结构纳米片的微波吸收性能 被引量:1
1
作者 张德庆 刘婷婷 +2 位作者 张慧斌 程俊业 曹茂盛 《表面技术》 EI CAS CSCD 北大核心 2020年第2期56-60,74,共6页
目的调节Co3O4纳米粒子的电磁匹配,以实现最佳的电磁波吸收性能,同时实现对轻质、强吸收、宽频带、小厚度电磁波吸收材料的追求。方法通过玉米秸秆制备生物质-rGO,采用水热法将生物质-rGO引入到Co3O4纳米粒子中制备具有异质结构的Co3O4/... 目的调节Co3O4纳米粒子的电磁匹配,以实现最佳的电磁波吸收性能,同时实现对轻质、强吸收、宽频带、小厚度电磁波吸收材料的追求。方法通过玉米秸秆制备生物质-rGO,采用水热法将生物质-rGO引入到Co3O4纳米粒子中制备具有异质结构的Co3O4/biomass-rGO纳米片。通过X射线衍射分析仪、透射电子显微镜、高分辨透射电子显微镜测试,分别对Co3O4/biomass-rGO异质结构纳米片的组成、形貌以及结构进行表征,同时通过矢量网络分析仪测试分析生物质-rGO的引入对Co3O4/biomass-rGO异质结构纳米片吸波性能的影响。结果生物质-rGO的引入明显提高了Co3O4/biomass-rGO异质结构纳米片在2~18 GHz频率范围的电磁波吸收性能,不仅降低了有效吸收体厚度,同时还拓展了有效吸收频带宽度。在厚度为1.5 mm、频率为15.8 GHz时,达到–36.1 dB的最大反射损耗值。有效吸收频带宽度为15 GHz,在S、C、X、Ku波段均存在有效吸收,实现了在1.0~5.5 mm宽厚度范围内的全部有效吸收。结论通过引入生物质-rGO可以有效改善Co3O4的电磁匹配和介电损耗。 展开更多
关键词 co3o4纳米粒子 生物质-rgo 异质结构 宽频带 微波吸收
下载PDF
Interconnected 1D Co3O4 nanowires on reduced graphene oxide for enzymeless H2O2 detection 被引量:7
2
作者 Lingjun Kong Zhiyu Ren +4 位作者 Nannan Zheng Shichao Du Jun Wu Jingling Tang Honggang Fu 《Nano Research》 SCIE EI CAS CSCD 2015年第2期469-480,共12页
Enzymeless hydrogen peroxide (H2O2) detection with high sensitivity and excellent selectivity is desirable for clinical diagnosis. Herein, one-dimensional Co3O4 nanowires have been successfully constructed on reduce... Enzymeless hydrogen peroxide (H2O2) detection with high sensitivity and excellent selectivity is desirable for clinical diagnosis. Herein, one-dimensional Co3O4 nanowires have been successfully constructed on reduced graphene oxide (rGO) via a simple hydrothermal procedure and subsequent thermal treatment. These Co3O4 nanowires, assembled by small nanoparticles, are interlaced with one another and make a spider web-like structure on rGO. The formation of Co3O4-rGO hybrids is attributed to the structure-directing and anchoring roles of DDA and GO, respectively. The resulting structure possesses abundant active sites, the oriented transmission of electrons, and unimpeded pathways for matter diffusion, which endows the Co3O4-rGO hybrids with excellent electrocatalytic performance. As a result, the obtained Co3O4-rGO hybrids can serve as an efficient electrochemical catalyst for H2O2 oxidation and high sensitivity detection. Under physiological conditions, the oxidation current of H2O2 varies linearly with respect to its concentration from 0.015 to 0.675 mM with a sensitivity of 1.14 mA.mM^-1.cm^-2 and a low detection limit of 2.4 μM. Furthermore, the low potential (-0.19 V) and the good selectivity make Co3O4-rGO hybrids suitable for monitoring H2O2 generated by liver cancer HepG2 cells. Therefore, it is promising as a non-enzymatic sensor to achieve real-time quantitative detection of H2O2 in biological applications. 展开更多
关键词 interconnected nanowires co3o4-rgo hybrids synergistic effect ELECTRoCATALYSIS enzymeless H2o2 detection
原文传递
上一页 1 下一页 到第
使用帮助 返回顶部