Add to ORKGWe and many others are designing solar-driven mol. machines that could be used on a global scale to store solar energy by splitting water into its elemental components. We are investigating the structures and mechanisms of hydrogen evolving catalysts made from Earth abundant elements such as cobalt, iron, and nickel. We also are employing pulsed laser ablation in water for synthesis of robust oxygen evolving catalysts. To aid our research, we have recruited hundreds of students to join a Solar Army whose mission is the discovery of new materials for the prodn. of solar fuels
In response to political and environmental motivations to develop alternative energy resources, rese...
With the rapid worldwide increase of interest and excitement about the promise of artificial photosy...
Throughout history humans have taken advantage of the energy stored in the bonds of chemical fuels i...
We and many others are designing solar-driven mol. machines that could be used on a global scale to ...
The Solar Army is the international outreach effort for the NSF- funded Center for Chem. Innovation ...
Our NSF funded CCI Solar Fuels Program involves many experimentalists and theorists in an interdisci...
Mol. hydrogen has emerged as an attractive candidate for a clean, renewable fuel to meet the world's...
The efficient generation of mol. hydrogen from sunlight and water is one of the holy grails of 21st ...
We are working on heterogeneous inorg. catalysts that could be part of scalable solar fuel devices. ...
The solar resource is immense, but the power density of light striking the Earth's surface is relati...
Photoelectrochemical water splitting may one day play a major role in capturing and storing abundant...
The necessity for developing clean energy technology hasled to the surge in renewable energy researc...
HEATS Project: The University of Minnesota is developing a solar thermochemical reactor that will ef...
Solar-driven water splitting to produce renewable fuels and materials is one of the holy grails of 2...
A critical challenge for the 21st century is shifting from the predominant use of fossil fuels to re...
In response to political and environmental motivations to develop alternative energy resources, rese...
With the rapid worldwide increase of interest and excitement about the promise of artificial photosy...
Throughout history humans have taken advantage of the energy stored in the bonds of chemical fuels i...
We and many others are designing solar-driven mol. machines that could be used on a global scale to ...
The Solar Army is the international outreach effort for the NSF- funded Center for Chem. Innovation ...
Our NSF funded CCI Solar Fuels Program involves many experimentalists and theorists in an interdisci...
Mol. hydrogen has emerged as an attractive candidate for a clean, renewable fuel to meet the world's...
The efficient generation of mol. hydrogen from sunlight and water is one of the holy grails of 21st ...
We are working on heterogeneous inorg. catalysts that could be part of scalable solar fuel devices. ...
The solar resource is immense, but the power density of light striking the Earth's surface is relati...
Photoelectrochemical water splitting may one day play a major role in capturing and storing abundant...
The necessity for developing clean energy technology hasled to the surge in renewable energy researc...
HEATS Project: The University of Minnesota is developing a solar thermochemical reactor that will ef...
Solar-driven water splitting to produce renewable fuels and materials is one of the holy grails of 2...
A critical challenge for the 21st century is shifting from the predominant use of fossil fuels to re...
In response to political and environmental motivations to develop alternative energy resources, rese...
With the rapid worldwide increase of interest and excitement about the promise of artificial photosy...
Throughout history humans have taken advantage of the energy stored in the bonds of chemical fuels i...