Celle solari di terza generazione (a fotosintesi )

Similar documents

Organic semiconductors

Asian Journal on Energy and Environment

High Efficiency Black Polymer Solar Cells November 2012 Annual Report

Light management for photovoltaics using surface nanostructures

Solar Hydrogen Generation For Energy Storage. Laura Meda Istituto eni-donegani Via Fauser 4, Novara

Synthesis of titanium dioxide nanostructures and their effects on current-voltage (I-V) performance in dye sensitized solar cells

Magneto-Optical Studies on Internal Photovoltaic Processes in Organic Solar Cells

Lecture 15 - application of solid state materials solar cells and photovoltaics. Copying Nature... Anoxygenic photosynthesis in purple bacteria

A metal-free polymeric photocatalyst for hydrogen production from water under visible light

Project 2B Building a Solar Cell (2): Solar Cell Performance

Spectral Characterisation of Photovoltaic Devices Technical Note

Nanomateriali per applicazioni high tech

Chapter 8. Exciton solar cells ORGANIC SOLAR CELLS

Solar Photovoltaic (PV) Cells

Quantum Dot Solar Cells. Semiconductor Nanocrystals as Light Harvesters

Materials for Organic Electronic. Jeremy Burroughes FRS FREng

Soft lithography for diffractive microfabrications

Structural, Photocatalytic Activity and Photovoltaic Properties of Mesoporous Anatase Titania Nanopowders Prepared by Hydrothermal Method

Ricerca su celle fotovoltaiche innovative

2 Absorbing Solar Energy

POLYMER BASED PHOTOVOLTAICS

NANO SILICON DOTS EMBEDDED SIO 2 /SIO 2 MULTILAYERS FOR PV HIGH EFFICIENCY APPLICATION

Chemical Synthesis. Overview. Chemical Synthesis of Nanocrystals. Self-Assembly of Nanocrystals. Example: Cu 146 Se 73 (PPh 3 ) 30

Rosalinda Inguantaa*, Emanuele Scadutoa, Patrizia Livrerib, Salvatore Piazzaa, Carmelo Sunseria

Solar Cell Parameters and Equivalent Circuit

The Status and Outlook for the Photovoltaics Industry. David E. Carlson March 14, 2006

Personal information. Rome (Italy), 14th May 1983

Applied Physics of solar energy conversion

Artificial Photosynthesis: A Workshop in Solar Cell Design

Chapter 5. Second Edition ( 2001 McGraw-Hill) 5.6 Doped GaAs. Solution

Laboratory #3 Guide: Optical and Electrical Properties of Transparent Conductors -- September 23, 2014

Solar PV Cells Free Electricity from the Sun?

SIMULATION OF THE MARS SURFACE SOLAR SPECTRA FOR OPTIMIZED PERFORMANCE OF TRIPLE- JUNCTION SOLAR CELLS

FUNDAMENTAL PROPERTIES OF SOLAR CELLS

Silicon Wafer Solar Cells

Basic principles and mechanisms of NSOM; Different scanning modes and systems of NSOM; General applications and advantages of NSOM.

Deposition of Conducting Oxide Thin Films as Anode for Solar Cell Device

Esnek Güneş Pilleri ve Fotovoltaik Tekstiller

Preparation of ZnS and SnS Nanopowders by Modified SILAR Technique

Optical Hyperdoping: Transforming Semiconductor Band Structure for Solar Energy Harvesting

Arizona Institute for Renewable Energy & the Solar Power Laboratories

Introduction to Quantum Dot Nanocrystals and Nanocrystal Solids. Nuri Yazdani,

Magnetic Data Storage and Nanoparticles Ernie Chang

Searching New Materials for Energy Conversion and Energy Storage

Exciton dissociation in solar cells:

WŝŽŶĞĞƌŝŶŐ > ĞǆƉĞƌŝĞŶĐĞ ƐŝŶĐĞ ϭϵϳϰ WŝĐŽƐƵŶ ^he > Ρ ZͲƐĞƌŝĞƐ > ƐǇƐƚĞŵƐ ƌŝěőŝŷő ƚśğ ŐĂƉ ďğƚǁğğŷ ƌğɛğăƌđś ĂŶĚ ƉƌŽĚƵĐƟŽŶ d, &hdhz K& d,/e &/>D /^, Z

Graphene a material for the future

Coating Thickness and Composition Analysis by Micro-EDXRF

Wafer-based silicon PV technology Status, innovations and outlook

EE 332 Photovoltaic Cell Design Iowa State University Electrical and Computer Engineering Dept

Hard Condensed Matter WZI

Solar Hydrogen Generation For Energy Storage

Dependence of the characteristics of organic solar cells on cathode polymer interface

PELICULAS DELGADAS DE NUEVOS MATERIALES PARA CELDAS SOLARES CdTe/CdS. R. Castro-Rodríguez

Solid State Detectors = Semi-Conductor based Detectors

Titanium Dioxide Raspberry Solar Cell 2012, 2011, 2005 by David A Katz. All rights reserved

Durability and Scale-Up of PerovskiteBased Mesoscopic Solar Cells

h e l p s y o u C O N T R O L

Production of Solar Energy Using Nanosemiconductors

Light management for photovoltaics. Ando Kuypers, TNO Program manager Solar

High and Low Bandgap Polyfluorene Copolymers for Organic Solar Cells Xiwen Chen

Microstockage d énergie Les dernières avancées. S. Martin (CEA-LITEN / LCMS Grenoble)

Characteristic curves of a solar cell

Simple and scalable fabrication approaches of Nanophotonic structures for PV

Phase Characterization of TiO 2 Powder by XRD and TEM

Focused Ion beam nanopatterning: potential application in photovoltaics

OPTIMIZING OF THERMAL EVAPORATION PROCESS COMPARED TO MAGNETRON SPUTTERING FOR FABRICATION OF TITANIA QUANTUM DOTS

The Current status of Korean silicon photovoltaic industry and market Sangwook Park LG Electronics Inc.

Introduction OLEDs OTFTs OPVC Summary. Organic Electronics. Felix Buth. Walter Schottky Institut, TU München. Joint Advanced Student School 2008

First Principles Computational Modelling of Solid/Liquid Interfaces for Solar Energy and Solar Fuels

Nanoelectronics 09. Atsufumi Hirohata Department of Electronics. Quick Review over the Last Lecture

ELG4126: Photovoltaic Materials. Based Partially on Renewable and Efficient Electric Power System, Gilbert M. Masters, Wiely

Application of a Hybrid Blocking Layer in Dye-Sensitized Solar Cells. Dissertation

The study of structural and optical properties of TiO 2 :Tb thin films

- SOLAR ENERGY WHITE PAPER - WHERE WE ARE NOW AND WHAT S AHEAD

ASI OEM Outdoor Solar Modules

PHOTOELECTROCHEMICAL CHARACTERIZATION OF DYE SOLAR CELLS BASED ON NANOSTRUCTURED ZINC OXIDE SUBSTRATES

Evaluating Surface Roughness of Si Following Selected Lapping and Polishing Processes

CHAPTER 2 EXPERIMENTAL. g/mol, Sigma-Aldrich, Germany Magnesium acetate tetrahydrate (C 4 H 6 MgO. 4 4H 2 O), assay 99.0%,

Keywords: Planar waveguides, sol-gel technology, transmission electron microscopy

IXOLAR TM High Efficiency SolarMD.

From Nano-Electronics and Photonics to Renewable Energy

Over the last 50 years, commercial silicon photovoltaics

Ion Beam Sputtering: Practical Applications to Electron Microscopy

Scanning Near Field Optical Microscopy: Principle, Instrumentation and Applications

JOURNAL INTEGRATED CIRCUITS AND SYSTEMS, VOL 1, NO. 3, JULY

Transcription:

Celle solari di terza generazione (a fotosintesi ) Esempi: photoelectrochemical cells, polymer solar cells (quarta generazione), nanocrystal solar cells (a quantum dots), Dye-sensitized solar cells Celle fotovoltaiche a film sottile nanocristallino dye sensitized solar cell. Il loro principio di funzionamento è diverso dalle comuni celle fotovoltaiche: si basa sullo stesso meccanismo della fotosintesi clorofilliana. Il ruolo della clorofilla è svolto da complessi organici di metalli transizione quali Osmio e Rutenio. Questi assorbono la luce incidente e con l energia raccolta eccitano i loro elettroni. Il ruolo della membrana lipidica è svolto da una membrana ceramica diossido di titanio (TiO2).

Dye sensitized solar cell

Dye sensitized solar cell Elettrolita e mediatore catodo Anodo o controelettrodo

Photocurrent action spectra obtained using simulated sunlight (AM 1.5) in above type of dye-sensitized solar cells using three representative Ru-polypyridyl complexes: [(CN)(bpy)2Ru-CN-Ru(dcbpy)2-NCRu(bpy)2], [Ru(4,4-bis(carboxy)-bpy)2(NCS)2] and [Ru(2,2',2"-(COOH)3-terpy)(NCS)3]. Plotted on the left is incident photon-to-current conversion efficiency (IPCE) as a function of the excitation wavelength (for monochromatic excitation). The IPCE value is the ratio of the observed photocurrent divided by the incident photon flux, uncorrected for reflective losses for optical excitation through the conducting glass electrode.

Dye sensitized solar cell

Nanocrystalline TiO2

Nano-TiO2 Titania Synthesis by Ti Alkoxide and nonionic surfactant 10.83 g of Titanium tetra isoproproxide 5 g of polyoxyethylene(18) tridecyl ether 10 ml of water Chemicals Titanium Tetraisoproproxide polyoxyethylene(18) tridecyl ether, 60 C C 13 EO 18

Mesoporous titania synthesis : TiO 2 from Ti alkoxide 300 ºC for 6 hours 350 ºC for 1 hour FE-SEM images of titanium oxide powder after calcination.

Mesoporous titania synthesis XRD and FTIR patterns of titanium oxide powders calcined at different temperatures.

Mesoporous titania synthesis FE-SEM images of titanium oxide powder after calcination at 350 ºC for 120 hours.

Mesoporous titania synthesis FE-SEM images of titanium oxide powder after calcination at 450 ºC for 6 hours.

Mesoporous titania synthesis (TiO 2 from titanatrane complex) TEM images of titanium oxide powder after calcination at 450 ºC for 6 hours.

Preliminary investigation of Dye-sensitized solar cell Titania gel Scotch tape Sintering 400 o C for 2 h Titanium plate Pt Doctor blading SnO 2 /ITO Ruthenium dye solution (N719) bis(tetrabutylammonium) cis di(thiocyanato) bis(2,2 -bipyridine-4,4 -carboxylic acid) Ruthenium (II) I-V characteristic : Simulated sun light (CEP2000): -AM 1.5,100 mw/cm 2 Cell size : 0.5 cm x 0.5 cm

Preliminary investigation of Dye-sensitized solar cell Current Density (ma/cm 2 ) 10.00 9.00 8.00 7.00 6.00 5.00 4.00 3.00 2.00 1.00 0.00 0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 Voltage (V) Jsc 8.83 ma/cm 2 Voc 0.73 V Power output 4.85 mw Vmax 0.6 V Jmax 8.09 ma FF 0.75 Efficiency 4.85

Nanocristalline ZnO SEM images of ZnO nanowires (Inset in (d) shows transmission electron diffraction pattern obtained from a nanowire with many secondary nanowires emanating from its surface. Scale bar is 5 mm in (a) and (c) and 200nm in (b) and (d)

Excitonic Solar Cells There are three prototypes of these solar cells: dye sensitized nanocrystalline thin film (Gratzel solar cell), organic polymer, and nanoparticle/organic polymer composite

Organic Solar Cells Organic solar cells: (a) single crystal heterojunction and (b) conjugated polymer/fullerene plastic solar cell.

Single Layer Organic Solar Cell Schematic of a single layer device with a Schottky contact at the aluminum contact. Photogenerated excitons can only be dissociated in a thin depletion layer W, and thus the device is exciton diffusion limited. 2004_JMaterRes_(H Hoppe)

Energy Levels and Light Harvesting 2004_SolEngMat_(H Spanggaard)

Heterojunction Organic Solar Cells Exciton dissociation at the donor acceptor interface. The electron goes to the acceptor while the hole stays on the donor. A two-layer heterojunction photovoltaic cell. The electron accepting C60-layer contacts the Au electrode, while the electron donating MEH-PPV layer contacts the ITO electrode. 2004_SolEngMat_(H Spanggaard)

Conjugated polymer solar cells

Eterogiunzioni

2004_SolEngMat_(H Spanggaard) Different morphologies of heterojunction cells. Top, left: Two-layered structure of fullerenes and polymer chains. Top, right: dispersed heterojunction. Middle, left: fullerenes with polymer chains attached. Middle, right: self-assembled layered structure of double-cable polymers. Bottom: selfassembled layered structure of diblock copolymers. The layered structure of double-cable polymers and diblock copolymers are expected to facilitate efficient electron and hole transport.

Polymer solar cells

Quantum dots (QD) solar cells e nuovi concetti

Quantum Dot Tunable Bandgap

Quantum Dot Versatile in Form Colloidal synthesis Low processing temperature

Quantum Dots Stability and Lifetime Protective shell to increase stability

banda di conduzione banda intermedia (quantum dots) banda di valenza

QD-sensitized TiO 2 Solar Cell 2002_PhysicaE_(A Nozik)

QD / Polymer Solar Cell 2002_PhysicaE_(A Nozik)