Developing functional materials for advanced energy applications is a critical step in minimizing our use of fossil fuels for energy. The first part of this dissertation describes pseudocapacitive energy storage materials for fast charge storage applications. In this section, nanostructured transition metal oxides and sulfides are examined as attractive pseudocapacitive materials. These materials discussed in this dissertation show the hallmarks of pseudocapacitors, and consistently delivered more than 100 mAh/g at 100C (~30 seconds) and thousands of (dis)charge cycles. Synchrotron operando X-ray diffraction studies of these materials establish a clear structural charge storage mechanism that is responsible for the extremely fast kinetics a...
Jiao, FengBatteries have become ubiquitous in modern society by powering small, consumer electronic...
The finite nature of fossil fuels and environmental problems caused by traditional energy sources ca...
Pseudocapacitive materials provide a high energy density solution to fast charging, long cycle life ...
The need for energy storage continues to grow due to our increasing use of consumer electronics, and...
In this dissertation, nanostructured materials are examined for electrochemical energy storage devic...
The increasing role of technology in our lives necessitates the development of advanced energy stora...
The development of new materials for energy applications is necessary to create new solutions to min...
Pseudocapacitive energy storage is a promising energy storage mechanism which can lead to both high ...
Novel battery technology must be capable of providing both increased energy density and power densit...
Developing novel functional materials for applications in energy storage and conservation is essenti...
Driven by the flourishing of renewable energy sources and increasing demands of portable electronics...
This dissertation presents the synthesis and characterization of new types of nanostructured materia...
In this thesis, the synthesis of nanosized transition metal oxides, which exhibit pseudocapacitive c...
The proliferation of portable consumer electronics has been built upon the breakthrough in electrode...
University of Minnesota Ph.D. dissertation. May 2020. Major: Chemistry. Advisor: Andreas Stein. 1 co...
Jiao, FengBatteries have become ubiquitous in modern society by powering small, consumer electronic...
The finite nature of fossil fuels and environmental problems caused by traditional energy sources ca...
Pseudocapacitive materials provide a high energy density solution to fast charging, long cycle life ...
The need for energy storage continues to grow due to our increasing use of consumer electronics, and...
In this dissertation, nanostructured materials are examined for electrochemical energy storage devic...
The increasing role of technology in our lives necessitates the development of advanced energy stora...
The development of new materials for energy applications is necessary to create new solutions to min...
Pseudocapacitive energy storage is a promising energy storage mechanism which can lead to both high ...
Novel battery technology must be capable of providing both increased energy density and power densit...
Developing novel functional materials for applications in energy storage and conservation is essenti...
Driven by the flourishing of renewable energy sources and increasing demands of portable electronics...
This dissertation presents the synthesis and characterization of new types of nanostructured materia...
In this thesis, the synthesis of nanosized transition metal oxides, which exhibit pseudocapacitive c...
The proliferation of portable consumer electronics has been built upon the breakthrough in electrode...
University of Minnesota Ph.D. dissertation. May 2020. Major: Chemistry. Advisor: Andreas Stein. 1 co...
Jiao, FengBatteries have become ubiquitous in modern society by powering small, consumer electronic...
The finite nature of fossil fuels and environmental problems caused by traditional energy sources ca...
Pseudocapacitive materials provide a high energy density solution to fast charging, long cycle life ...