[1]陈　静,熊惠之,喻湘华,等.聚吡咯/普鲁士蓝复合材料合成及其对H2O2的检测[J].武汉工程大学学报,2018,40(02):161-164.[doi:10. 3969/j. issn. 1674?2869. 2018. 02. 008]
　CHEN Jing,XIONG Huizhi,YU Xianghua,et al.Synthesis of Polypyrrole/Prussian Blue Composites for Detection of Hydrogen Peroxide[J].Journal of Wuhan Institute of Technology,2018,40(02):161-164.[doi:10. 3969/j. issn. 1674?2869. 2018. 02. 008]

点击复制

聚吡咯/普鲁士蓝复合材料合成及其对H₂O₂的检测(/HTML)

分享到：

参考文献/References:

［1］　WEBER D J，RUTALA W A，ANDERSON D J，et al. Effectiveness of ultraviolet devices and hydrogen peroxide systems for terminal room decontamination：focus on clinical trials ［J］. American Journal of Infection Control，2016，44（5）：77-84. ［2］　JAIN A，BALASUBRAMANIAN R，SRINIVASAN M P. Production of high surface area mesoporous activated carbons from waste biomass using hydrogen peroxide- mediated hydrothermal treatment for adsorption applications ［J］. Chemical Engineering Journal，2015，273：622-629. ［3］　YIN J，DUAN J L，CUI Z J，et al. Hydrogen peroxide- induced oxidative stress activates NF-κB and Nrf2/Keap1 signals and triggers autophagy in piglets ［J］. Rsc Advances，2015，5（20）：15479-15486. ［4］　JAMAL M A， MUNEER M ， IQBAL M. Photo- degradation of monoazo dye blue 13 using advanced oxidation process ［J］. Chemical International，2015，1（1）： 12-16. ［5］　WORAGAMON K，JONGPATIWUT S，SREETHAWONG T. Liquid-phase cyclohexene epoxidation with H2O2 over RuO2-loaded mesoporous-assembled TiO2 nanocrystals：catalyst preparation and recyclability ［J］. Catalysis Letters，2010，136（3/4）：249-259. ［6］　BISHOP G W，SATTERWHITE J E，BHAKTA S，et al. 3D-printed fluidic devices for nanoparticle preparation and flow-injection amperometry using integrated Prussian blue nanoparticle-modified electrodes ［J］. Analytical Chemistry，2015，87（10）：5437-5443. ［7］　TUO X，LI B R，CHEN C L，et al. Facile assembly of polypyrrole/Prussian blue aerogels for hydrogen peroxide reduction ［J］. Synthetic Metals，2016，213：73-77. ［8］　ZHANG W，HU S L，YIN J J，et al. Prussian blue nanoparticles as multienzyme mimetics and reactive oxygen species scavengers ［J］. Journal of the American Chemical Society，2016，138（18）：5860-5865. ［9］　LI S J，DU J M，SHI Y F，et al. Functionalization of graphene with Prussian blue and its application for amperometric sensing of H2O2 ［J］. Journal of solid State Electrochemistry，2012，16（6）：2235-2241. ［10］　SALAZAR P，MART?N M，O’NEILL R D，et al. Improvement and characterization of surfactant- modified Prussian blue screen-printed carbon electrodes for selective H2O2 detection at low applied potentials ［J］. Journal of Electroanalytical Chemistry，2012，674：48-56. ［11］　SITNIKOVA N A，KOMKOVA M A，KHOMYAKOVA I V，et al. Transition metal hexacyanoferrates in electrocatalysis of H2O2 reduction：an exclusive property of Prussian blue ［J］. Analytical Chemistry，2014，86（9）：4131-4134. ［12］　ZHAO H Y， JI X P ，WANG B B， et al. An ultra-sensitive acetylcholinesterase biosensor based on reduced graphene oxide-Au nanoparticles-β- cyclodextrin / Prussian blue-chitosan nanocomposites for organophosphorus pesticides detection ［J］. Biosensors and Bioelectronics，2015，65：23-30. ［13］　LAI G S，ZHANG H L，YU A M，et al. In situ deposition of Prussian blue on mesoporous carbon nanosphere for sensitive electrochemical immunoassay ［J］. Biosensors and Bioelectronics，2015，74：660-665. ［14］　JIANG Y Z，YU S L，WANG B Q，et al. Prussian Blue@C composite as an ultrahigh-rate and long-life sodium-ion battery cathode ［J］. Advanced Functional Materials，2016，26（29）：5315-5321. ［15］　CHEN L，WANG X J，ZHANG X T，et al. 3D porous and redox-active prussian blue-in-graphene aerogels for highly efficient electrochemical detection of H2O2 ［J］. Journal of Materials Chemistry，2012，22（41）：22090-22096.

相似文献/References: