<--- Back to Details
First PageDocument Content
Technology / Solar cells / Semiconductor devices / Alternative energy / Photovoltaics / National Renewable Energy Laboratory / Gallium arsenide / Multijunction photovoltaic cell / Spectrolab / Energy / Chemistry / Energy conversion
Date: 2013-10-07 14:42:25
Technology
Solar cells
Semiconductor devices
Alternative energy
Photovoltaics
National Renewable Energy Laboratory
Gallium arsenide
Multijunction photovoltaic cell
Spectrolab
Energy
Chemistry
Energy conversion

NREL Spurred the Success of Multijunction Solar Cells

Add to Reading List

Source URL: www.nrel.gov

Download Document from Source Website

File Size: 314,02 KB

Share Document on Facebook

Similar Documents

Materials for stretchable electronics in bioinspired and biointegrated devices Dae-Hyeong Kim, Nanshu Lu, Yonggang Huang, and John A. Rogers Inorganic semiconductors such as silicon, gallium arsenide, and gallium nitride

DocID: 1sH6i - View Document

Chemistry / Energy / Nature / Energy conversion / Energy harvesting / Physical chemistry / Solar cell / Heterojunction / Solar panel / Gallium arsenide

Spis publikacji dr hab. Agata Zdyb, prof. PL telefon: +1994 

DocID: 1rocH - View Document

Chemistry / Condensed matter physics / Electromagnetism / Charge carriers / Optoelectronics / Semiconductor device fabrication / Solar cells / Extrinsic semiconductor / Doping / Semiconductor / Intrinsic semiconductor / Gallium arsenide

EE 121 INTRO. TO ELECTRONIC DEVICES Materials and device structures for applications in analog and digital electronics. Topics include characteristics and basic circuits for diodes, field-effect transistors, bipolar jun

DocID: 1rhUz - View Document

Condensed matter physics / Chemistry / Physics / Mesoscopic physics / Quantum electronics / Nanoelectronics / Quantum mechanics / Spintronics / Quantum point contact / Aluminium gallium arsenide / Heterojunction / Electron

[1] Tunnel splitting in a one–electron double quantum dot 1 1

DocID: 1rce0 - View Document

Chemistry / Gallium arsenide / Optoelectronics / Field-effect transistor / Email / Fet / Electrical components / ANADIGICS / High-electron-mobility transistor

PDF Document

DocID: 1qQPv - View Document