energy pv splash

The Energy Challenge and Introduction to Solar Cells

Burhan Saifaddin

Splash program for High School Students, MIT 2011

Outline

• The importance of Energy • The energy Challenge• Introduction to Solar Cells• Organic Photovoltaic Research

What is Energy !!

• Brain storm the importance of energy and its uses: Examples on the impact of energy : – Transportation– Housing– Industry

• Materials • Manufacturing

– Information Technology – Food– People and every living being

The Sun is the main source of energy at our planet.

What is Energy !!

• Discovery of Energy. • Matter is Energy. Everything is Energy.– The Big bang started the universe.– Biological Life is based on the consumption of energy.– Fire discovery ended Stone AgeMore recently :– Steam Engine started the industrial revolution– Electricity started communication, tranportation and

information revolution– Nuclear energy started the nuclear age.

Do we consume Energy more than we drink water *?!

• How are we spending energy ?• World wide : ~0.5 Zetta-Joules (10^21)– What does one Joule means ?!

• ~ 2.9 MJ to boil 1 kg of water from zero degrees.

• In the US 100 Quadrillions(10^15) BTU – 5% consumes 22% of global energy use.In lay terms– this is 1.5 Gallon /person/day.– Average US is 7.5 Gallon/person/day.– How much water do you drink a day ? But more than 1.6B people have Zero electricity

* Ignore other industrial, agricultural etc… uses of water

Adopted from Prof Tonio Buonassisi

Units 101

Units 101



100 MW Solar Cells Power Planet

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The Energy Challenge

1- Meet Huge Energy Demands Sustainably:

• 2010, 6.8 Billion People 12TW– 2kW/person over the year. – 1.5 Gasoline Gallon/day.

• Increasing population. By 2050, 10-12 Billion People 20-24TW (conservative estimate).

• Raising standards of Living for over than 2 Billions people.• Nations wants energy security and green energy.

The Energy Challenge 2- Risks of Global Warming. Is it real ?

3-National Security.

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Why meet the Energy Challenge

• Meet Global Energy Demands in a sustainable way.

• Big economic growth: Energy is a Trillions of Dollars Industry. – 30% growth in photovoltaic market in the past 6

years. • Enable cheap and distributed power sources. • Empower people around the world.– 25 % of humanity have no electricity.

The developing World

The World at night.

PV and the developing WorldWorld

http://eosweb.larc.nasa.gov/sse/Adopted from Prof. Tonio Buonassisi

PV and the developing WorldWorld

The Sun is the Primary energy source on Earth

Solar Insolation: Incoming Solar Radiation

Summer

Solar Insolation: Incoming Solar Radiation

Winter

Review

• What are the main energy challenges facing our world ?

• Design a Solar System to Generate – 10KWh/day at peak sun conditions.

• How much area , roughly, we need to generate

1 TW ?

Difficulties with the sun’s light spectrum:

-Very Wideband

-Low power density , Maximum (peak) ~ 1000 W/m2

-Capacity factor ~ 20%.

Three generation of Photovoltaic in 50 Years

Main Problem for wide adoption is Cost $$

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Polymer and Silicon PV

• TTwo

Based on A Heeger et all. Science (1995)

Polymer PV

Early Applications in Space

Crystalline Silicon in Bell Labs in the 1950s

Basic Photovoltaic Energy Conversion

What is the maximum limit for a single junction PV ?

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PV Technology Status

NREL, 2009

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PV Technology Status

NREL, 2009

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Motivation for Cheap Solar Cells

• Meet Global Energy Demands in a sustainable way.

• Big economic growth.– 30% growth in photovoltaic market in the past 6 years.

• Enable cheap and distributed power sources. • Empower people around the world.– 25 % of humanity have no electricity.

Why Polymers or Organic Materials ?

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Additionally Huge Economic Advantages.

• Big economic growth.– Potentially trillions of dollars market size.– 30% growth in photovoltaic market in the past 10

years. – DOE expect grid parity for PV tech. in 2020.

• Empower people around the world.– 25 % of humanity have no electricity.

africa-charity-project.org

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Basic Overview of the Organic PV Technology

• Setbacks – Low life time (2-5 years) – and low efficiency (4-5%).

• Key patents :Konarka (2001) and Solarmer (2006).

BHJ Cells manufacturers Claims:Roll to Roll processing. Cheap abundant Materials. Light weight.Flexible. Larger acceptance angle.

www.osa-opn.org

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PV Researchers and entrepreneurs dream

• Covers large area of land with PV cells. – 1 % of US land to satisfy US electricity needs.– Spain size to satisfy 20TW increase in demand.– Small contribution to global warming , comparable to US

black highways. – Reasonable fraction Targets by 2030 and by 2050.

• However to be competitive in the grid parity market– 5c/KWh at around 1$/W for the whole system.– Improve lifetime in outdoor conditions.

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Components of BHJ PV

• Active materials cost is a small fraction of the total cost. • Similar cost structure to Thin Films. . Kalowekmao et al., 2007

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PV Electricity Markets

• Market Size double every 3y. Currently ~$40 Billion. • Competitors will reach Grid parity at some locations (8-10

c/kwh) before by 2015.

Thin Films are leading the way nowExs. First Solar

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Solar systems cost

• Balance of System (>50%)– 1- Light weight plastic substrate. – Glass substrate • Cost is Different in developing nations

• Balance of Materials – In crystalline silicon materials cost is 10% , 2-3

C/KWh(1).

(1) Nathan S. Lewis. SCIENCE 9 FEB 2007 VOL 315.

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Niche Markets: What would be the consumer reaction?

• Opportunities is determined by– $/kWh, life time, efficiency.

• Light Weight and low light suitability. • Portable Electronics: Mobiles , laptops, ipods• Watches.

• Flexibility lead to – Clothing. – Fabrics. – Tents

• Transparency lead to– Tinted Glass.– Building integrated materials.– Automobiles.

Premium to 100$