Interviews with mathematics education researchers about recent studies. Hosted by Samuel Otten, University of Missouri. www.mathedpodcast.com Produced by Fibre Studios
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Let there be energy efficient light!
Archived series ("Inactive feed" status)
When?
This feed was archived on March 23, 2022 12:09 (
Why? Inactive feed status. Our servers were unable to retrieve a valid podcast feed for a sustained period.
What now? You might be able to find a more up-to-date version using the search function. This series will no longer be checked for updates. If you believe this to be in error, please check if the publisher's feed link below is valid and contact support to request the feed be restored or if you have any other concerns about this.
Manage episode 126340415 series 101474
Content provided by Science and Environment – Pod Academy and Environment – Pod Academy. All podcast content including episodes, graphics, and podcast descriptions are uploaded and provided directly by Science and Environment – Pod Academy and Environment – Pod Academy or their podcast platform partner. If you believe someone is using your copyrighted work without your permission, you can follow the process outlined here https://player.fm/legal.
Research is changing the way we think about energy efficient electronics. This podcast, from the coalface of electronics and materials research, is produced and presented by Dr Radu Sporea of Surrey University’s Advanced Technology Institute. It looks at the work currently being undertaken on the new generation of energy efficient lighting – used not just in lighting rooms, but in screens for our electronic devices.
This is the fourth in Radu’s occasional series from the Institute. See also:
- New frontiers in electronic engineering
- Solar technology: harnessing the power of the sun
- The future of electronics is flexible
Dr Radu Sporea: A great advantage of podcasts and audiobooks is that you can still enjoy them after lights-out. But light is an essential ingredient for most active human pursuits. Early members of our species prolonged their hours of activity by burning things in order to imitate sunlight. Even back then they kept an eye on energy efficiency as some things burned less well than others. In the 19th Century pioneers like Joseph Swan and Thomas Edison successfully harnessed electricity and used it to heat up materials until they glowed white hot. For more than a century, incandescent bulb technology has been *the* way to light a supper (and for that matter a fancy dinner soiree).
But in 2011, the L-Prize
for efficient lighting showed that we can do a lot better. The winning design by Philips, a long-standing expert in all things lighting, is six times more efficient than a conventional bulb and a third more economical than energy-efficient bulbs.
By heating up materials or burning them in an attempt to produce light, we waste a lot of the energy as heat. Efficient light generation, as the prize-winning approach shows, relies on semiconductors. Dr Lynn Rozanski is a Research Fellow working on efficient energy conversion. She explains:
Lynn Rozanski Semiconductor materials have a property that allows them to emit light when electricity is passed through them in a certain way.
Light emitting diodes or LEDs are electronic devices which allow us to control the intensity of the light coming out by the amount of electrical energy we feed into them.
They are efficient because a larger proportion of the energy gets converted to light than in conventional bulbs.
Wavelength. Depending on material properties we get certain colours of light.
RS: Efficient generation of coloured light is all well and good, but rare are the instances when a deep red ambiance is all that’s required. White light, which resembles the sun’s rays is the most versatile and most desirable. So how do we create white light?
Lynn Rozanski White light is in fact composed of a multitude of colours. The sun’s white light contains all colours of the rainbow mixed together. But we can cheat and create good-enough white light by mixing yellow and blue.
So a trick we sometimes use is to use a blue LED together with a material called a phosphor which converts some of the blue light to yellow. The yellow mixes with the remaining blue to appear white.
RS: Organic semiconductors can be much cheaper to make into electronics through their ability to be processed from a liquid state. Are they any good at producing light?
Lynn Rozanski Some materials are very good at producing intense, coloured light. We can definitely use them as light emitters.
But they are not terribly energy efficient, so the amounts of light they produce are not great. There’s a way still to go until they can be used in general lighting.
One could envisage, though, ambient or mood lighting which can change colour subtly – made on large area flexible panels like wallpaper – very cheap.
RS: But coloured light emitters have another, very useful application: display screens. Organic light emitting diodes or OLEDs are starting to be used in palm-sized screens as a consequence of their improved energy efficiency.
Conventional displays use liquid crystals which act as taps or valves for light coming from a white backlight. Different colours are generated by directing more or less white light through colour filters using these liquid crystals. When the displayed image is dark, the liquid crystal valves are mostly closed so little light gets through, but the white backlight is still shining at full power – not very efficient use of generated light. In OLED displays, the light emitting diodes produce just the amount of light required to display a certain image. A dark picture will draw a lot less power than a completely white one, and as most scenes are not even 50% bright, significant energy saving is possible.
OLED Display screens are arrays of millions of red green and blue LEDs. These light emitters are small enough so that when viewed from a distance, the light they produce blends and by varying the proportion of red, green and blue light coming from LEDs placed close-together we can display any colour. But this raises some problems in the long run. Dr Chris Mills is working on improving the performance and robustness of organic light emitting diodes:
Chris Mills The materials that produce red, green and blue light age at different rates. This means that in time, a display screen will not only lose brightness, but it will develop a coloured tint, as blue emitters become weaker faster and produce proportionally less colour than the red and green.
Commercial display manufacturers get around this by incorporating complicated feedback circuits that adjust for this problem, but this increases the cost of the display.
The display’s efficiency reduces over time as more and more energy needs to be expended to produce the same amount of light from the aging semiconductor material.
Over the past decade, OLED technology has progressed very rapidly, but it seems that OLED lifetime and energy are still to be improved. Judging by the enthusiastic activity I witness around me in the lab, many improvements are still to come.
Chris Mills: We are putting a lot of work making these devices more efficient and long-lived. We can do this by designing new semiconductor materials, but we can also improve the structure of our devices.
Organic semiconductors are generally degraded by contact with oxygen or moisture, which means that before we can use them in the real world, circuits need to be encapsulated in air-tight transparent containers, which adds to the fabrication cost.
This applies equally to organic LEDs for displays and lighting, so there is a drive to improve these properties.
RS: High-performance LEDs for lighting are progressing in leaps and bounds, as the ultra-efficient L-Prize winner shows. But finding a way of fabricating them cheaper is the next challenge, as not many people will see the cost-saving benefit of buying light bulbs at £20 apiece.
If semiconductors can be used for producing light by drawing electrical energy, could they be used conversely for making electricity from sunlight? The International Space Station, countless communications satellites and an array of government-backed generate-your-own electricity schemes says they can, but not always without difficulty.
The post Let there be energy efficient light! appeared first on Pod Academy.
59 episodes
Share
Archived series ("Inactive feed" status)
When?
This feed was archived on March 23, 2022 12:09 (
Why? Inactive feed status. Our servers were unable to retrieve a valid podcast feed for a sustained period.
What now? You might be able to find a more up-to-date version using the search function. This series will no longer be checked for updates. If you believe this to be in error, please check if the publisher's feed link below is valid and contact support to request the feed be restored or if you have any other concerns about this.
Manage episode 126340415 series 101474
Content provided by Science and Environment – Pod Academy and Environment – Pod Academy. All podcast content including episodes, graphics, and podcast descriptions are uploaded and provided directly by Science and Environment – Pod Academy and Environment – Pod Academy or their podcast platform partner. If you believe someone is using your copyrighted work without your permission, you can follow the process outlined here https://player.fm/legal.
Research is changing the way we think about energy efficient electronics. This podcast, from the coalface of electronics and materials research, is produced and presented by Dr Radu Sporea of Surrey University’s Advanced Technology Institute. It looks at the work currently being undertaken on the new generation of energy efficient lighting – used not just in lighting rooms, but in screens for our electronic devices.
This is the fourth in Radu’s occasional series from the Institute. See also:
- New frontiers in electronic engineering
- Solar technology: harnessing the power of the sun
- The future of electronics is flexible
Dr Radu Sporea: A great advantage of podcasts and audiobooks is that you can still enjoy them after lights-out. But light is an essential ingredient for most active human pursuits. Early members of our species prolonged their hours of activity by burning things in order to imitate sunlight. Even back then they kept an eye on energy efficiency as some things burned less well than others. In the 19th Century pioneers like Joseph Swan and Thomas Edison successfully harnessed electricity and used it to heat up materials until they glowed white hot. For more than a century, incandescent bulb technology has been *the* way to light a supper (and for that matter a fancy dinner soiree).
But in 2011, the L-Prize for efficient lighting showed that we can do a lot better. The winning design by Philips, a long-standing expert in all things lighting, is six times more efficient than a conventional bulb and a third more economical than energy-efficient bulbs.
By heating up materials or burning them in an attempt to produce light, we waste a lot of the energy as heat. Efficient light generation, as the prize-winning approach shows, relies on semiconductors. Dr Lynn Rozanski is a Research Fellow working on efficient energy conversion. She explains:
Lynn Rozanski Semiconductor materials have a property that allows them to emit light when electricity is passed through them in a certain way.
Light emitting diodes or LEDs are electronic devices which allow us to control the intensity of the light coming out by the amount of electrical energy we feed into them.
They are efficient because a larger proportion of the energy gets converted to light than in conventional bulbs.
Wavelength. Depending on material properties we get certain colours of light.
RS: Efficient generation of coloured light is all well and good, but rare are the instances when a deep red ambiance is all that’s required. White light, which resembles the sun’s rays is the most versatile and most desirable. So how do we create white light?
Lynn Rozanski White light is in fact composed of a multitude of colours. The sun’s white light contains all colours of the rainbow mixed together. But we can cheat and create good-enough white light by mixing yellow and blue.
So a trick we sometimes use is to use a blue LED together with a material called a phosphor which converts some of the blue light to yellow. The yellow mixes with the remaining blue to appear white.
RS: Organic semiconductors can be much cheaper to make into electronics through their ability to be processed from a liquid state. Are they any good at producing light?
Lynn Rozanski Some materials are very good at producing intense, coloured light. We can definitely use them as light emitters.
But they are not terribly energy efficient, so the amounts of light they produce are not great. There’s a way still to go until they can be used in general lighting.
One could envisage, though, ambient or mood lighting which can change colour subtly – made on large area flexible panels like wallpaper – very cheap.
RS: But coloured light emitters have another, very useful application: display screens. Organic light emitting diodes or OLEDs are starting to be used in palm-sized screens as a consequence of their improved energy efficiency.
Conventional displays use liquid crystals which act as taps or valves for light coming from a white backlight. Different colours are generated by directing more or less white light through colour filters using these liquid crystals. When the displayed image is dark, the liquid crystal valves are mostly closed so little light gets through, but the white backlight is still shining at full power – not very efficient use of generated light. In OLED displays, the light emitting diodes produce just the amount of light required to display a certain image. A dark picture will draw a lot less power than a completely white one, and as most scenes are not even 50% bright, significant energy saving is possible.
OLED Display screens are arrays of millions of red green and blue LEDs. These light emitters are small enough so that when viewed from a distance, the light they produce blends and by varying the proportion of red, green and blue light coming from LEDs placed close-together we can display any colour. But this raises some problems in the long run. Dr Chris Mills is working on improving the performance and robustness of organic light emitting diodes:
Chris Mills The materials that produce red, green and blue light age at different rates. This means that in time, a display screen will not only lose brightness, but it will develop a coloured tint, as blue emitters become weaker faster and produce proportionally less colour than the red and green.
Commercial display manufacturers get around this by incorporating complicated feedback circuits that adjust for this problem, but this increases the cost of the display.
The display’s efficiency reduces over time as more and more energy needs to be expended to produce the same amount of light from the aging semiconductor material.
Over the past decade, OLED technology has progressed very rapidly, but it seems that OLED lifetime and energy are still to be improved. Judging by the enthusiastic activity I witness around me in the lab, many improvements are still to come.
Chris Mills: We are putting a lot of work making these devices more efficient and long-lived. We can do this by designing new semiconductor materials, but we can also improve the structure of our devices.
Organic semiconductors are generally degraded by contact with oxygen or moisture, which means that before we can use them in the real world, circuits need to be encapsulated in air-tight transparent containers, which adds to the fabrication cost.
This applies equally to organic LEDs for displays and lighting, so there is a drive to improve these properties.
RS: High-performance LEDs for lighting are progressing in leaps and bounds, as the ultra-efficient L-Prize winner shows. But finding a way of fabricating them cheaper is the next challenge, as not many people will see the cost-saving benefit of buying light bulbs at £20 apiece.
If semiconductors can be used for producing light by drawing electrical energy, could they be used conversely for making electricity from sunlight? The International Space Station, countless communications satellites and an array of government-backed generate-your-own electricity schemes says they can, but not always without difficulty.
The post Let there be energy efficient light! appeared first on Pod Academy.
59 episodes
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Similar to Science and Environment – Pod Academy
Interviews with mathematics education researchers about recent studies. Hosted by Samuel Otten, University of Missouri. www.mathedpodcast.com Produced by Fibre Studios
…
continue reading
A science guy from the deep south (Destin) and a humanities guy from the wild west (Matt Whitman) discuss deep questions with varying levels of maturity.
…
continue reading
AnthroPod is produced by the Society for Cultural Anthropology. In each episode, we explore what anthropology teaches us about the world and people around us.
…
continue reading
The award-winning Curiosity Daily podcast from CuriosityDaily.com will help you get smarter about the world around you. In less than 10 minutes, you’ll get a unique mix of research-based life hacks, the latest science and technology news, and more. Nate Bonham and Calli Gade will help you learn about your mind and body, outer space and the depths of the sea, and how history shaped the world into what it is today.Head to discovery+ to stream even more science content, from Animal Planet to Sc ...
…
continue reading
Although the world is becoming mostly sedentary, our bodies still require a wide variety of daily movements in order to work well. Many of us struggle to get regular exercise, but even that can fall short of nourishing the body from head to toe. How can we move more—a lot more—when we have sore, stiff parts and overly busy lifestyles? Join Katy Bowman M.S., biomechanist, author, and movement educator as she combines big-picture lessons on biomechanics, kinesiology, physiology, and natural hu ...
…
continue reading
Five-time winner of Best Education Podcast in the Podcast Awards. Grammar Girl provides short, friendly tips to improve your writing and feed your love of the English language. Whether English is your first language or your second language, these grammar, punctuation, style, and business tips will make you a better and more successful writer. Grammar Girl is a Quick and Dirty Tips podcast.
…
continue reading
Positive Firearm Talk Without the Politics
…
continue reading
PT Inquest is an online journal club. Hosted by Jason Tuori, Megan Graham, and Chris Juneau, the show looks at an article every week and discusses how it applies to current physical therapy practice.
…
continue reading
The Birdy Num Num Indian podcast is all about inspiring the creative Indian.With over 35M views online spanning a career in IT and Stand Up Comedy, Indian-American comedian Sanjay Manaktala is the epitome of "because life begins after engineering." A good chunk of his guests also live by this philosophy. Every Monday and Thursday Sanjay talks creativity, dating, technology, life, current events and general life advice from the perspective of a 30 something Indian American guy traveling the w ...
…
continue reading
Pass IELTS with expert help.
…
continue reading
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