The use of hydrogen as a fuel, when generated from water using semiconductor photocatalysts and driven by sunlight, is a sustainable alternative to fossil fuels. Polymeric photocatalysts are based on Earth-abundant elements and have the advantage over their inorganic counterparts in that their electronic properties are easily tuneable through molecular engineering. Polymeric photocatalysts have developed rapidly over the past decade, resulting in the discovery of many active materials. However, our understanding of the key properties underlying their photoinitiated redox processes has not kept pace, and this impedes further progress to generate cost-competitive technologies. Here, we discuss state-of-the-art polymeric photocatalysts and our...
Structure–property–activity relationships in solution processable polymer photocatalysts for hydroge...
Many of the highest-performing polymer photocatalysts for sacrificial hydrogen evolution from water ...
Direct photocatalytic water splitting is an attractive strategy for clean energy production, but mul...
The use of hydrogen as a fuel, when generated from water using semiconductor photocatalysts and driv...
Solar fuel generation has attracted vast research interest as an environmentally benign means of pro...
In pursuit of inexpensive and earth abundant photocatalysts for solar hydrogen production from water...
Conjugated polymers have sparked much interest as photocatalysts for hydrogen production. However, b...
Converting solar energy to fuels has attracted substantial interest over the past decades because it...
The direct conversion of sunlight into hydrogen through water splitting and by converting carbon dio...
Polymeric photocatalysts have been identified as promising materials for H2 production from water du...
Polymer photocatalysts have shown potential as for light-driven hydrogen evolution from water. Here ...
Methods of storing renewable energy are urgently required to meet future energy demands. Photocataly...
Organic polymers have demonstrated promise as photocatalysts, but their photocatalytic efficiencies ...
The most common strategy for introducing porosity into organic polymer photocatalysts has been the s...
The necessity for developing clean energy technology has led to the surge in renewable energy resear...
Structure–property–activity relationships in solution processable polymer photocatalysts for hydroge...
Many of the highest-performing polymer photocatalysts for sacrificial hydrogen evolution from water ...
Direct photocatalytic water splitting is an attractive strategy for clean energy production, but mul...
The use of hydrogen as a fuel, when generated from water using semiconductor photocatalysts and driv...
Solar fuel generation has attracted vast research interest as an environmentally benign means of pro...
In pursuit of inexpensive and earth abundant photocatalysts for solar hydrogen production from water...
Conjugated polymers have sparked much interest as photocatalysts for hydrogen production. However, b...
Converting solar energy to fuels has attracted substantial interest over the past decades because it...
The direct conversion of sunlight into hydrogen through water splitting and by converting carbon dio...
Polymeric photocatalysts have been identified as promising materials for H2 production from water du...
Polymer photocatalysts have shown potential as for light-driven hydrogen evolution from water. Here ...
Methods of storing renewable energy are urgently required to meet future energy demands. Photocataly...
Organic polymers have demonstrated promise as photocatalysts, but their photocatalytic efficiencies ...
The most common strategy for introducing porosity into organic polymer photocatalysts has been the s...
The necessity for developing clean energy technology has led to the surge in renewable energy resear...
Structure–property–activity relationships in solution processable polymer photocatalysts for hydroge...
Many of the highest-performing polymer photocatalysts for sacrificial hydrogen evolution from water ...
Direct photocatalytic water splitting is an attractive strategy for clean energy production, but mul...