Carrier Dynamics Engineering for High-Performance Electron-Transport-Layer-free Perovskite Photovoltaics
Type
Journal articleSubject
Science & TechnologyPhysical Sciences
Chemistry, Multidisciplinary
Chemistry
SOLAR-CELLS
COMPACT LAYER
HALIDE PEROVSKITES
EFFICIENT
STABILITY
HYSTERESIS
CH3NH3PBI3
INTERFACE
LENGTHS
FILMS
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https://hdl.handle.net/10161/17644Published Version (Please cite this version)
10.1016/j.chempr.2018.08.004Publication Info
(2018). Carrier Dynamics Engineering for High-Performance Electron-Transport-Layer-free Perovskite
Photovoltaics. CHEM, 4(10). pp. 2405-2417. 10.1016/j.chempr.2018.08.004. Retrieved from https://hdl.handle.net/10161/17644.This is constructed from limited available data and may be imprecise. To cite this
article, please review & use the official citation provided by the journal.
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Show full item recordScholars@Duke
Jeffrey Glass
Professor of Electrical and Computer Engineering
Jeffrey T. Glass is a Professor in the Department of Electrical and Computer Engineering
and Director of the Institute for Enterprise Engineering. He holds the Hogg Family
endowed chair in Engineering Management and Entrepreneurship. Formerly, he was the
Co-Director of The Institute for the Integration of Management and Engineering at
Case Western Reserve University (CWRU) and held the Joseph F. Toot, Jr. endowed chair
in the Case School of Engineering. Prior to these university appointment
Jie Liu
George Barth Geller Distinguished Professor of Chemistry
Dr. Liu’s research interests are focusing on the chemistry and material science of
nanoscale materials. Specific topics in his current research program include: Self-assembly
of nanostructures; Preparation and chemical functionalization of single
walled carbon nanotubes; Developing carbon nanotube based chemical and biological
sensors; SPM based fabrication and modification of functional nanostructures.
Jie Liu
George Barth Geller Distinguished Professor of Chemistry
Dr. Liu’s research interests are focusing on the chemistry and material science of
nanoscale materials. Specific topics in his current research program include: Self-assembly
of nanostructures; Preparation and chemical functionalization of single
walled carbon nanotubes; Developing carbon nanotube based chemical and biological
sensors; SPM based fabrication and modification of functional nanostructures.
David Mitzi
Simon Family Distinguished Professor
David Mitzi received his B.S. in Electrical Engineering and Engineering Physics from
Princeton University in 1985 and his Ph.D. in Applied Physics from Stanford University
in 1990. Prior to joining the faculty at Duke in 2014, Dr. Mitzi spent 23 years at
IBM’s T.J. Watson Research Center, where his focus was on the search for and application
of new electronic materials, including organic-inorganic perovskites and inorganic
materials for photovoltaic, LED, transistor and memory app
Michael J. Therien
William R. Kenan, Jr. Distinguished Professor of Chemistry
Our research involves the synthesis of compounds, supramolecular assemblies, nano-scale
objects, and electronic materials with unusual ground-and excited-state characteristics,
and interrogating these structures using state-of-the-art transient optical, spectroscopic,
photophysical, and electrochemical methods. Over chemical dimensions that span molecules
to materials, we probe experimental and theoretical aspects of charge migration reactions
and ultrafast electron transfer processes. Insights
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