Technical Papers

Nanopore-Type Black Silicon Anti-Reflection Layers Fabricated by a One-Step Silver-Assisted Chemical Etching
Yen-Tien Lu and Andrew R. Barron
Phys. Chem. Chem. Phys., 2013, 15, 986

Antireflection and SiO2 Surface Passivation by Liquid-Phase Chemistry for Efficient Black Silicon Solar Cells
Hao-Chih Yuan(1), Jihun Oh(1), Yuanchang Zhang(2), Oleg A. Kuznetsov(2), Dennis J. Flood(2), and Howard M. Branz(1)
1 National Renewable Energy Laboratory, Golden, CO, United States
2 Natcore Technology, Red Bank, NJ, United States

Dielectric Coated Si Or Ge QDs For Improvement Of Solar Cells
Brittany L. Oliva-Chatelain, Andrew R. Barron
Department of Chemistry
Rice University

Solar Cells and Quantum Dots – A White Paper
Dr. Dennis J. Flood
Natcore Technology, Inc.

Natcore Black Silicon Antireflection Technology
Dennis J. Flood, Chief Technology Officer
Natcore Technology
(Inter PV)

Thin film CdSe/CuSe photovoltaic on a flexible single walled carbon nanotube substrate†
Christopher E. Hamilton, Dennis J. Flood and Andrew R. Barron
Phys. Chem. Chem. Phys., 2013, 15, 3930—3938

Quantum Dot Solar Cells: A Potential Game Changer For World Energy Production
By Dr. Dennis J. Flood
Chief Technical Officer
NOIC Nov 2013

Solar Energy White Paper – Where We Are Now And What’s Ahead
A summary provided by Platinum Sponsor Natcore Technology, Inc.
Dr. Dennis J. Flood, CTO
October 24, 2012

Imbedding germanium quantum dots in silica by a modified Stöber method
Hannah Rutledge, Brittany L. Oliva-Chatelain, Samuel J. Maguire-Boyle, Dennis L. Flood, Andrew R. Barron