Solar Fuels October 29 th, 2015. Photovoltaic cell diagram The diagram above illustrates the operation of a basic photovoltaic cell, also called a solar.

Slides:

Advertisements

Similar presentations

Solar Water Pumps for Central Kansas Rylan E. Ortiz HORT 640 Sustainable Agriculture.

Advertisements

High Efficiency Thin Film Solar Cells

Nanometer technology and how to fix it to a roof Nanometer technology and how to fix it to a roof Solar explained:

 Solar energy is the result of thermonuclear fusion reactions deep within the sun.  Solar energy is the most abundant and most powerful energy source.

Hydrogen Fuel Cells David Lorse ESS 315. What is a hydrogen fuel cell? Hydrogen fuel cells (HFCs) are a type of electrochemical cell. HFCs generate electricity.

Energy Carriers Electricity and Hydrogen. Energy Carriers Energy carriers move energy in a usable form from one place to another. Electricity  Most well-known.

Energy Carriers Electricity and Hydrogen EPIT C. Ned Rogers.

Energy and Energy Resources

Conversion & conservation of energy living with the lab © David Hall 2013 windmill pumping water for cows – west Texas.

Gasoline is made from fossil fuels …mostly oil Fossil Fuels Oil pumped from the ground.

P2a (i) Collecting Energy from the Sun

Chapter 13 Energy. Ch 13.1 – What is Energy? A.Energy is the ability to do work and cause change.

SOLAR POWER BY KENJUEN SWAN.  Solar energy is radiant light and heat from the sun harnessed using a range of ever-evolving technologies such as solar.

Why Use Solar Cells? Low maintenance, long lasting sources of energy Provides cost-effective power supplies for people remote from the main electricity.

Solar Power By: Collin Chapman. * Energy derived from the Sun's radiation. Passive solar energy can be exploited through architectural design, as by positioning.

Solar Electric or Photovoltaic (PV) Panels are used to collect energy from the sun and convert it into electricity. This is done through the Photovoltaic.

PHOTOSYNTHESIS:. Photosynthesis overview: Performed by PLANTS ONLY! All photosynthesis occurs in the chloroplast! Making sunlight into energy and oxygen.

Nanotechnology and Solar Energy Solar Electricity Photovoltaics Fuel from the Sun Photosynthesis Biofuels Split Water Fuel Cells.

Operation S.M.A.R.T. Girls Incorporated ® of Greater Houston Solar Energy Workshop Sponsored by.

Alternative Energy Sources

By Isai Leal class 607. What is Solar Energy? Solar Energy is radiant light and heat from the sun. It comes from the sun itself. It’s formed by the sun.

Introducing nanotechnology and energy Neil Coville School of Chemistry University of the Witwatersrand Media Round Table 3 rd March 2011.

H 2 Production by Photosplitting of H 2 O Fasil Dejene.

Daily Review #3 6. Compare and contrast wind energy and photovoltaic energy. 7. Describe how electricity is created in a solar panel. 8. Describe how ethanol.

Solar Energy - Photovoltaics UTI-111 Prof. Park Essex County College.

Solar Energy: The Ultimate Renewable Resource. What is Solar Energy? Originates from nuclear fusion reactions in the sun Originates from nuclear fusion.

Sources of Energy – Part 2 Glencoe - Chapter 16 Pages

Topic: Solar Energy Basics Objective: ▫ Explain availability of solar power and solar energy collection. Summary: A short presentation is provided to the.

The Sun The sun is made up of 70% hydrogen, 28% helium, and 2% other small atoms. The estimated surface temperature of the sun is about 5800 o C.

Photovoltaic (fo-to-vol-ta-ik) systems are solar systems that produce electricity directly from sunlight. The term "photo" comes from the Greek "phos,"

Solar Energy Workshop Alexis Ostrowski and Bright Walker Sponsored by ConvEne-IGERT at UCSB.

HYDROGEN Uses and Energy. HYDROGEN: What is it? Simplest element  1 proton  1 electron.

 Trace Eakins and Aaron Edmonds. The definition of Solar energy is: The energy received by the Earth from the sun in the form of radiation.

facts/sources/renewable/solar.html y/chapter15.html.

RAJENDRA KUMAR EC, 4 th year(10EVJAEC084) 1www.engineersportal.in.

References Toward cost-effective solar energy use Science, v 315, n 5813, 9 Feb. 2007, p Nanostructures for photovoltaics Materials Science and.

 The Algae is made in giant stainless steal containers. The researchers feed the algae sugar, then the algae gives of oil that can be harvested and then.

H + reduction catalyst H 2 O oxidising photo catalyst 2H 2 O 4H + + 4e - Anode Electrolyte Cathode → e-e- O2O2 → → 4H + + 2H22H2.

Balancing Equations??? Not Again….. Writing Prompt ~ Look carefully at this equation. What does this equation relate to? Explain how you came.

Solar Energy. Solar panels Instead of using fossil fuels, solar power technologies use photovoltaic (PV) panels to convert sunlight directly into electricity.

A Green House By: Trinity Mathis & Ayanna Edwards.

Photovoltaic By: Matheiu Alexandre Aaron Burrell Sam Didinsky Michael Mauri.

Solar Energy - Photovoltaics UTI-111 Prof. Park Essex County College.

Purdue Energy Center Fuel Cell Project PI: H. Cooper Item Descriptions I1-I7.

Introduction to Solar Photovoltaic (PV) Systems – Part 2

NSF CCI (Center for Chemical Innovation) Solar Program- Powering the Planet Goal to develop efficient, inexpensive, sustainable.

Photosynthesis: Capturing and Converting Energy In the process of photosynthesis, plants convert the energy of sunlight into the energy in chemical bonds.

Photosynthesis Since only absorbed light can excite molecules and thus deliver its energy, so a photosynthetic pigment can act as absorbers of visible.

ELECTRIC CURRENT.. What is electric current ? Electric current is caused due to the flow or movement of electric charges. The flow of electric charges.

SYSTEMS : ELECTRICITY.

ENERGY. Where Does the Energy Go? Friction is a force that oppose motion between two surfaces that are touching. For a roller coaster car to move, energy.

Solar energy Bright days for Solar

Simulating Nanoscale Optics in Photovoltaics with the S-Matrix Method Dalton Chaffee, Xufeng Wang, and Peter Bermel Purdue University.

Lecture Photoelectrochemical Water Splitting

Achieving Energy Independence Environmental Science 6.3.

Solar Energy By Henry Mooers and Harrison White. Introduction Solar energy is clean and plentiful, it is also a renewable resource meaning it will never.

Green Resources.

ABSTRACT MATERIALS / METHODS CONCLUSIONS REFERENCES RESULTS OBJECTIVES

Objectives Understand how a fuel cell makes electricity

Lesson 2 : What is electricity in the first place?

PHOTOSYNTHESIS, Part Un

Hydrogen Fuel Cells By: Kris Williams.

Alternative Energy Sources

Energy Conversion in Natural and Artificial Photosynthesis

Photosynthesis: Light Reactions and the Calvin Cycle

What are some pros and cons of solar energy?

Energy Conversion in Natural and Artificial Photosynthesis

What are some pros and cons of solar energy?

Presentation transcript:

Solar Fuels October 29 th, 2015

Photovoltaic cell diagram The diagram above illustrates the operation of a basic photovoltaic cell, also called a solar cell. Solar cells are made of the same kinds of semiconductor materials, such as silicon, used in the microelectronics industry. For solar cells, a thin semiconductor wafer is specially treated to form an electric field, positive on one side and negative on the other. When light energy strikes the solar cell, electrons are knocked loose from the atoms in the semiconductor material. If electrical conductors are attached to the positive and negative sides, forming an electrical circuit, the electrons can be captured in the form of an electric current -- that is, electricity. This electricity can then be used to power a load, such as a light or a tool.

What are solar fuels?

Utilizing sunlight to make fuels directly like hydrogen.

What are solar fuels? Utilizing sunlight to make fuels directly like hydrogen. Like storing sun in a bottle

Use of transportation fuel “Globally, just over 60% of world oil consumption is for transport (1) and, in affluent countries like the UK, transport typically accounts for about one third of the average energy consumption per person.” (2) -- Alan Heeger, Solar Fuels and Artificial Photosynthesis, International Energy Agency, Key World Energy Statistics Sustainable Energy – Without the Hot Air, David JC MacKay, UIT Cambridge Ltd., p104, 2009

Alan Heeger, Solar Fuels and Artificial Photosynthesis, 2012 Production of soalr fuels

Methods of generating solar fuels Biohybrid Solar cells Biomimetic Water-Oxidation Catalysts Solar Water Splitting Using Semiconductor Photocatalyst

Natural Photosynthesis Alan Heeger, Solar Fuels and Artificial Photosynthesis, 2012

Natural Photosynthesis Solar Energy for Fuels, 2016?

A0A0 FxFx F A /F B A1A1 wire P 700 *P 700 h Pt 2H + + 2e - H2H2 A0A0 A1A1 O R Ciesielski, P. N., D. E. Cliffel, et al. (2011). "Kinetic Model of the Photocatalytic Effect of a Photosystem I Monolayer on a Planar Electrode Surface." The Journal of Physical Chemistry A 115(15): H 2 O ½ O 2 + 2H + + 2e - P 680 *P 680 QAQA YZYZ Mn4 Pheo Biohybroid solar system example PSII PSI

Photosynthetic core complexes

Biomimetic Water-Oxidation Catalysts Solar Energy for Fuels, 2016?

Biomimetic Water-Oxidation Catalysts Solar Energy for Fuels, 2016?

Biomimetic Water-Oxidation Catalysts dx.doi.org/ /ja |Ullman et al. J. Am. Chem. Soc. 2014, 136, 17681−17688

Earth Abundance of Elements

Semiconductor Photocatalyst N. Lewis and D. Nocera, PNAS Vol 103, n0. 40 p , 2006 Important Parameters 1.Photon Absorption 2.Exciton separation 3.Carrier diffusion 4.Carrier transport 5.Catalytic efficiency 6.Mass transfer of reaction

Hydrogen Cars Honda Clarity 175 Horsepower >300 Miles range $63,000 MSRP Toyota Mirai 151 Horesepower 300 Mile range $57,500