Add to ORKGHerein we demonstrate a novel electroless etching synthesis of monolithic, single-crystalline, mesoporous silicon nanowire arrays with a high surface area and luminescent properties consistent with conventional porous silicon materials. The photoluminescence of these nanowires suggest they are composed of crystalline silicon with small enough dimensions such that these arrays may be useful as photocatalytic substrates or active components of nanoscale optoelectronic devices. A better understanding of this electroless route to mesoporous silicon could lead to facile and general syntheses of different narrow bandgap semiconductor nanostructures for various applications
Hierarchically nanostructured silicon was produced by regenerative electroless etching (ReEtching) o...
Silicon nanowire (SiNW) ensembles, with vertical and zigzag architectures have been realized using w...
A now low-cost, top-down nanowire fabrication technology Is presented not requiring nanolithography ...
Herein we demonstrate a novel electroless etching synthesis of monolithic, single-crystalline, mesop...
Herein we demonstrate a novel electroless etching synthesis of monolithic, single-crystalline, mesop...
Herein, orientation controlled growth of single crystalline mesoporous Si nanowires (NWs) by Ag assi...
Porous silicon nanowires (SiNWs) have shown excellent properties like low reflection and high lumine...
Porous silicon nanowires have shown several advantages including low reflection and high luminescenc...
Samples containing silicon nanowires (Si-NWs) and highly porous structures (P-Si) were prepared by e...
This review reports on a new process for the synthesis of Si nanowires (NWs), based on the wet etchi...
Silicon nanowire-based devices have properties that can outperform their traditional counterparts in...
We present a novel approach for the direct synthesis of ultrathin Si nanowires (NWs) exhibiting room...
We report intense red luminescence from mesoporous n+-Si(100) nanowires (NWs) and nanocrystal-decora...
A method for fabricating single crystal silicon nanowires is presented using top-down optical lithog...
Silicon nanowire (SiNW) ensembles, with vertical and zigzag architectures have been realized using w...
Hierarchically nanostructured silicon was produced by regenerative electroless etching (ReEtching) o...
Silicon nanowire (SiNW) ensembles, with vertical and zigzag architectures have been realized using w...
A now low-cost, top-down nanowire fabrication technology Is presented not requiring nanolithography ...
Herein we demonstrate a novel electroless etching synthesis of monolithic, single-crystalline, mesop...
Herein we demonstrate a novel electroless etching synthesis of monolithic, single-crystalline, mesop...
Herein, orientation controlled growth of single crystalline mesoporous Si nanowires (NWs) by Ag assi...
Porous silicon nanowires (SiNWs) have shown excellent properties like low reflection and high lumine...
Porous silicon nanowires have shown several advantages including low reflection and high luminescenc...
Samples containing silicon nanowires (Si-NWs) and highly porous structures (P-Si) were prepared by e...
This review reports on a new process for the synthesis of Si nanowires (NWs), based on the wet etchi...
Silicon nanowire-based devices have properties that can outperform their traditional counterparts in...
We present a novel approach for the direct synthesis of ultrathin Si nanowires (NWs) exhibiting room...
We report intense red luminescence from mesoporous n+-Si(100) nanowires (NWs) and nanocrystal-decora...
A method for fabricating single crystal silicon nanowires is presented using top-down optical lithog...
Silicon nanowire (SiNW) ensembles, with vertical and zigzag architectures have been realized using w...
Hierarchically nanostructured silicon was produced by regenerative electroless etching (ReEtching) o...
Silicon nanowire (SiNW) ensembles, with vertical and zigzag architectures have been realized using w...
A now low-cost, top-down nanowire fabrication technology Is presented not requiring nanolithography ...