Electroless Metallization of the Elements: Survey and Progress

Abstract: The electroless plating of metals and their alloys, oxides, and chalcogenides represents a critically important technology for the automotive, aerospace, machine tools, and, especially, the electronics industries. Since the initial efforts involving the plating of industrially important metals, such as Ni, Co, Cu, Ag, and Au, in the mid-20th century, the process has evolved to encompass a growing number of elements. At the same time, this expansion in the palette of accessible metals has enabled progress in th… Show more

“…However, the obtained low growth rate enables a fine control on the pore size that is better compared to previously reported metal growth in nanopores, for example, performed via electroless electrochemical depositions. [ 51–53 ]…”

“…However, the obtained low growth rate enables a fine control on the pore size that is better compared to previously reported metal growth in nanopores, for example, performed via electroless electrochemical depositions. [51][52][53] In order to obtain a smooth metallic structure, the samples have been annealed at 200 °C for 10 min under N 2 flux (Figure 2c,e,f; Figure S12, Note S9, Supporting Information). The annealing step is particularly effective in the case of Ag growth, where the large grains obtained after the photochemical reaction are almost completely converted into a smooth metal film after thermal annealing.…”

Plasmonic Photochemistry as a Tool to Prepare Metallic Nanopores with Controlled Diameter for Optimized Detection of Single Entities

“…However, the obtained low growth rate enables a fine control on the pore size that is better compared to previously reported metal growth in nanopores, for example, performed via electroless electrochemical depositions. [ 51–53 ]…”

“…However, the obtained low growth rate enables a fine control on the pore size that is better compared to previously reported metal growth in nanopores, for example, performed via electroless electrochemical depositions. [51][52][53] In order to obtain a smooth metallic structure, the samples have been annealed at 200 °C for 10 min under N 2 flux (Figure 2c,e,f; Figure S12, Note S9, Supporting Information). The annealing step is particularly effective in the case of Ag growth, where the large grains obtained after the photochemical reaction are almost completely converted into a smooth metal film after thermal annealing.…”

Plasmonic Photochemistry as a Tool to Prepare Metallic Nanopores with Controlled Diameter for Optimized Detection of Single Entities

Properties of surface layers of polyethylene naphthalate substrates modified by ultraviolet light irradiation for their electroless deposition

Review of indium-free, transparent and flexible metallic fibers for wearable electronics