1. TYPES OF SOLAR CELL
Submitted by-
Abhishek Ranjan
Batch 11,S5
ISP,CUSAT.
2. A QUICK RECAP
What Is Solar Cell?
How Does It Work?
Where Are Its Applications?
What Are Its Advantages?
What Are Its Disadvantages?
3. TYPES OF SOLAR CELL
Organic Solar Cell
Cadmium Telluride Solar Cell
Quantum Dot Solar Cell
Dye Synthesized Solar Cell
Plasmonics Solar Cell
4. ORGANIC SOLAR CELL
A Kind Of Polymer Solar Cell,which Makes Use Of Organic
Electronics,for Light Absorption And Charge Transport To Produce
Electrical Energy From Sunlight Via Photovoltaic Effect.
5. SALIENT FEATURES OF
OSC
The Optical Absorbtion Coefficient Of Organic Materials Is High.
Low-cost Of Organic Materials, so Can Be Produced In High
Volumes.
We Can Change The Band Gap By Changing The Length And The
Functional Group of Organic Molecules.
It Has Less Efficiency, low Stability, low Strength Against
Temperatures.
6. WORKING
When these materials absorb a photon, an excited state is created
and confined to a molecule or a region of a polymer chain.
The excited state can be regarded as an electron-hole pair bound
together by electrostatic interactions, i.e. excitons.
In photovoltaic cells, excitons are broken up into free electron-hole
pairs by effective fields. The effective fields are set up by creating a
heterojunction between two dissimilar materials
10. CADMIUM TELLURIDE
SOLAR CELLS
Based On The Use Of Cadmium Telluride As A Thin Film
Semiconductor For Producing Electricity.
Cdte Pv Is The Ecologically Leading Technology As It Provides A
Key Solution To Ecological Issues Like Climate Change,energy
Security Etc.
Cdte Pv Has The Smallest Carbon Fotprint,and Fastest Energy
Payback Time Of All Solar Technologies.
13. Advantages Of CdTe SC
Cadmium Is Abundant-this Makes It Lesss Costly,than Traditional
Silcon Sc.
Matching With Sunlight-can Absorb Light Of Lower Wavelengths
Too.
Ease Of Manufacturing-the Electric Field Which Makes The Solar
Energy Into Electricity Stems From The Properties Of Cadmium
Telluride And Cadmium Sulphide, This Makes Manufacturing Easier.
14. CHALLENGES OF CDTE PV
Tellurium Supply-it Is One Of The Rare Materials.
Lower Efficiency-this Cell Has A Efficiency Of 10.6% Which Is
Lower Than Monocrystalline And Polycrystalline Silicon Cells.
Toxicity Of Solar Cells-cadmium Is One Of The 6 Most Deadliest
Element,and Can Cause Various Heart Or Kidney Disorders.
15. QUANTUM DOT SOLAR
CELL
Quantum Dot Solar Cell Is Based On The Use Of Quantum Dots
For Absorbing Light.
It Attempts To Replace Bulk Materials Like Silicon Cadmium
Telluride,gallium Arsenide Etc.
Quantum Dots Have Tuneable Band Gaps Across A Wide Range
Of Energy Level By Changing The Dots Size.
16. QUANTUM DOTS
Quantum Dots Are Nanocrystals Made Of Semiconductors
Which Are Small Enough To Give Mechanical Properties.
Its Excitons Are Confined In All Three Dimensions.
Electronic Characteristics Of Quantum Dots Are Closely Related
To Its Shape And Size.
20. FEATURES OF QUANTUM
DOT SOLAR CELL
Generated By Various Advanced Epitaxial Techniques In
Nanocrystals, produced By Chemical Methods Or Ion Implantation.
Deposited By Spin Coating.
Quantum Confinement Takes Place In Semiconductors This Is
Because Different Sized Quantum Dots Show Different Properties.
21. DYE-SYNTHESIZED SOLAR
CELL
Dye-synthesized Pv Is A Thin Film, low Cost Solar Cell Based On
A Semiconductor formed Between Photo-sensitized Anode And An
Electrolyte.
The Modern Version Of Dye-synthesized Cell Is Called Gratzel
Solar Cell.
22. FEATURES OF DSSC
Semi-transparent And Semi-flexible Which Offers A Variety Of Uses
Not Possible With Glass –Based Systems.
Simple To Manufacture Using Roll-to-roll Printing.
Materials Used Are Of Low Cost.
Efficient Even At Higher Temperatures.
Work Even Under Low-light Condition.
Most Efficient Third-generation Solar Cells
23. DSSC TECHNOLOGY
It Arose From The Concept Of Artificial Photosynthesis,
attempting The Ability To Plants To Turn Sunlight Into Energy.
In DSSCs, chlorophyll is replaced by a light absorbing dye, the
molecules of which are excited into a higher energetic state by
incoming light.
This energy is collected by a structure of electrolytes and catalysts,
much like the surrounding structure of a leaf in photosynthesis.
24.
25. PLASMONICS SOLAR CELL
They Form A Class Of Solar Cells Which Convert Light Into
Electricity Using Plasmons.
They Are A Type Of Thin Film Pvs Basically 1-5 Um Thick.
They Use Substrates Which Are Cheaper Than Glass ,Silicon
,Plasticor Steel.
26. METAL NANOPARTICE
PLASMONIC CELL
Nanoparticles Are Deposited At The Surface Of Thin Film Sc.
When Light Hits The Surface At Spr,light Is Scattered In Many
Directions.
This Allows Light To Travel Along Sc And Bounce Between
Substrate And Nanoparticle Which Allows More Light To Be
Captured.
28. METAL FILM PSC
A Thin Film Of Silicon Is Taken And A Thin Film Is Deposited
On The Lower Surface
The Light Will Travel To Silicon And Create Surface Plasmons At
The Interface Of Metal And Silicon
This Generates Electric Field and Thus Creates Electricity.
30. SURFACE PLASMON
RESONANCE
It Is Collective Oscillation Of Electrons In Solids Or Liquids.
Resonance Condition Is Established When Frequency Of Incident
Photon Matches With The Natural Frequency Of Electrons Vibrating
Under The Restoring Force Of Positive Nuclei..
31. EFFICIENCY OF SC
Efficiency Is Defined As Amount Of Power Of A Solar Cell
Turned Into Electricity From The Amount Of Power Received From
The Sun.It Depends On Various External Factors.
32. THEMODYNAMIC
EFFICIENCY LIMIT
It Means That Photons With An Energy Above Or Below The
Band-gap Energy Is Not Converted To Electricity.
The Above Energy Causes Excess Of Kinetic Energy Lost As
Heat, while Below Band-gap Photons Cannot Create Electron-hole
Pair.
33. QUANTUM EFFICIENCY
QUANTUM EFFICIENCY REFERS TO THE PERCENTAGE
OF PHOTONS THAT ARE CONVERTED INTO ELECTRIC
CURRENTWHEN THE CELL IS WORKED UNDER SHORT –
CIRCUIT CONDITION.
MOSTLY EXPRESSED AS A SPECTRAL MEASUREMENT.
34. MAXIMUM POWER POINT
A Solar Cell May Operate Over A Wide Range Of Voltages And
Currents
,By Increasing The Resistive Load From A Zero To A Very High
Voltage,we Can Determine The Maximum Power Point .
It Varies with Incident Lumination Also.
35. FILL FACTOR
IT IS DEFINED AS AVAILABLE POWER POINT Pm
DIVIDED BYTHE OPEN CIRCUIT VOLTAGE Voc AND
SHORT CIRCUIT CURRENT Isc.
36. FUTURE PLANS
IN ORDER TO INCREASE EFFICIENCY SUCH MATERIALS
HAVE TO BE CHOSEN ,WHICH ABSORBS MORE LIGHT AND IS
OF LOW-COST.
WE CAN ALSO USE EFFICIENT ANTI-REFLECTION
COATINGS WHICH CAN INCREASE THE TRANSMISSION AND
REDUCE THE REFLECTION.
WE CAN USE CONCENTRATORS TO FOCUS LIGHT.
A VERY ACTIVE RESEARCH IS GOING ON IN THIS FIELD.