Boosting the Dynamic Range for Electrochemical Sensing of Hydrogen Peroxide by Enhanced Integration of Pd Nanoparticles in 3D Porous Si Framework

Abstract: Three‐dimensional porous silicon framework (3D‐pSi) integrated with various nanostructures is highly potential for functional devices usage such as micro fuel cells or sensing chips. For noble metal deposition in highly directional Si nanowire array or porous Si with large aspect ratios, one difficulty is the restriction on the depth of deposition available. Herein, we would like to introduce a facile route to enhance the integration of Pd nanoparticles with anisotropic Si porous structure. By converting Si na… Show more

“…This is because of the permeation of water molecules between the layers of sensing nanomaterials, leading to their slow desorption. Recently, tremendous efforts have been devoted to judiciously engineering functional nanomaterials into 3D porous structures utilizing template methods [ 45 ], chemical etching methods [ 155 ] or hydrothermal methods [ 156 ]. Among them, the template method is a desired approach due to its facile and highly productive fabrication processes.…”

Multifunctional Flexible Humidity Sensor Systems Towards Noncontact Wearable Electronics

“…This is because of the permeation of water molecules between the layers of sensing nanomaterials, leading to their slow desorption. Recently, tremendous efforts have been devoted to judiciously engineering functional nanomaterials into 3D porous structures utilizing template methods [ 45 ], chemical etching methods [ 155 ] or hydrothermal methods [ 156 ]. Among them, the template method is a desired approach due to its facile and highly productive fabrication processes.…”

Multifunctional Flexible Humidity Sensor Systems Towards Noncontact Wearable Electronics

Dynamic range boosting for electrochemical sensing by morphological optimization of three-dimensional silicon porous framework@Au nanoparticles