B. Wood scite author profile

A method is presented to improve the quantitative determination of dopant concentration in semiconductor nanowire (NW) arrays using secondary ion mass spectrometry (SIMS). SIMS measurements were used to determine Be dopant concentrations in a Be-doped GaAs thin film and NW arrays of various pitches that were dry-etched from the same film. A comparison of these measurements revealed a factor of 3 to 12 difference, depending on the NW array pitch, between the secondary Be ion yields of the film and the NW arrays, despite being identically doped. This was due to matrix effects and ion beam mixing of Be from the NWs into the surrounding benzocyclobutene that was used to fill the space between the NWs. This indicates the need for etched NWs to be used as doping standards instead of 2D films when evaluating NWs of unknown doping by SIMS. Using the etched NWs as doping standards, NW arrays of various pitches grown by the vapour-liquid-solid mechanism were characterized by SIMS to yield valuable insights into doping mechanisms.

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Design and Characterization of Photoelectrodes from First Principles

Ogitsu¹,

Wood²,

Choi³

et al. 2012

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Although significant performance improvements have been realized since the first demonstration of sunlight--driven water splitting in 1972, mainstream adoption of photoelectrochemical (PEC) cells remains limited by an absence of cost--effective electrodes that show simultaneously high conversion efficiency and good durability. Here we outline current and future efforts to use advanced theoretical techniques to guide the development of a durable, high--performance PEC electrode material. Working in close collaboration with experimental synthesis and characterization teams, we use a twofold approach focusing on: 1) rational design of novel high--performance electrode materials; and 2) characterization and optimization of the electrode--electrolyte interface.

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B. Wood

Characterization of a Ga-Assisted GaAs Nanowire Array Solar Cell on Si Substrate

GaAsP nanowire-on-Si tandem solar cell

Nanowire dopant measurement using secondary ion mass spectrometry

Design and Characterization of Photoelectrodes from First Principles

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