The past decade has seen a revived interest in the study of photoeffects at semiconductor/liquid interfaces. Most of the recent attention to this field has been spurred by the desire to utilize such junctions for the conversion and storage of solar energy (1-4). The possibility of direct fuel formation the semiconductor/liquid interface, combined with the potential low cost and ease of junction formation, are frequently cited as the most attractive features of these systems
This article describes theoretical treatments and experimental data focused on the rates of interfac...
Solar-assisted water splitting can potentially provide an efficient route for large-scale renewable ...
International audienceThe photoelectrochemical charge-transfer process occurring at semiconductor su...
Given the urgent need to develop a sustainable, carbon neutral energy storage system on a global sca...
Historically, the investigation of the solid–liquid interface has seen four major breakthroughs: van...
International audienceWidely investigated in the 70’s and 80’s, photo-electrochemistry of semiconduc...
This is the first of two comps group presentations that will introduce the research of Professor Nat...
A quantitative analysis of the theoretical value for the open-circuit photovoltage, Voc, of a semico...
The semiconductor/electrolyte interface, as applicable to solar energy conversion, was studied using...
Semiconductor|liquid junctions are a critical component of photoelectrochemical (PEC) devices for th...
The study of photochemical and photophysical processes at various liquid interfaces using second har...
We present three examples on the application of UHV based synchrotron induced photoelectron-spectros...
ABSTRACT: Unlike their solid-state counterparts, semiconductorliquid junctions are versatile in that...
Photoelectrochemical (PEC) cells based on semiconductor/liquid interfaces provide a method of conver...
This chapter provides an introduction to many of the key concepts that underlie electrochemical, pho...
This article describes theoretical treatments and experimental data focused on the rates of interfac...
Solar-assisted water splitting can potentially provide an efficient route for large-scale renewable ...
International audienceThe photoelectrochemical charge-transfer process occurring at semiconductor su...
Given the urgent need to develop a sustainable, carbon neutral energy storage system on a global sca...
Historically, the investigation of the solid–liquid interface has seen four major breakthroughs: van...
International audienceWidely investigated in the 70’s and 80’s, photo-electrochemistry of semiconduc...
This is the first of two comps group presentations that will introduce the research of Professor Nat...
A quantitative analysis of the theoretical value for the open-circuit photovoltage, Voc, of a semico...
The semiconductor/electrolyte interface, as applicable to solar energy conversion, was studied using...
Semiconductor|liquid junctions are a critical component of photoelectrochemical (PEC) devices for th...
The study of photochemical and photophysical processes at various liquid interfaces using second har...
We present three examples on the application of UHV based synchrotron induced photoelectron-spectros...
ABSTRACT: Unlike their solid-state counterparts, semiconductorliquid junctions are versatile in that...
Photoelectrochemical (PEC) cells based on semiconductor/liquid interfaces provide a method of conver...
This chapter provides an introduction to many of the key concepts that underlie electrochemical, pho...
This article describes theoretical treatments and experimental data focused on the rates of interfac...
Solar-assisted water splitting can potentially provide an efficient route for large-scale renewable ...
International audienceThe photoelectrochemical charge-transfer process occurring at semiconductor su...
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