A Scientist’s Way of Making Super-Strong iPhone Cases

By Anupum Pant

Bulk Metallic Glasses (BMGs) A.K.A Amorphous metals, give you the goodness of both metals and glasses. They literally are glasses made out of metal. Unlike the most crystalline metals, BMGs are made by cooling certain liquid metals very quickly to lock the disordered glassy structure in place. They aren’t crystalline like your everyday metals and instead have a structure like that of glasses – disordered.

Some of these BMGs have amazing properties. Like super high hardness, about 3 times the hardness of steel is one of the most alluring properties they have.

They’ve been around since the 60s, and mass producing them has always been tough. Until now, BMGs were never used for something as ordinary as a smartphone case. But the recent innovation in manufacturing coming from a Materials scientist at Yale will probably soon bring to the market these new iPhone covers that’d be 50 times harder than plastic, or 10 times harder than Aluminium, and almost three times the hardness of steel.

A Man-Made Leaf

By Anupum Pant

Julian Melchiorri, a graduate student from Royal College of art, claims to have fabricated the first ever man-made biological leaf which absorbs water & carbon dioxide, just like a leaf does, and produces oxygen.

It looks like a promising first step towards enabling longer distance space travel – in a way that the artificial leaf made by him could be used to supply oxygen in micro-gravity, in which terrestrial plants have a hard time growing.

The artificial leaf he made for his project involves extracted chloroplasts from plant cells laid on a matrix of silk protein.

The “first man-made biological leaf” could enable humans to colonise space from Dezeen on Vimeo.

This Tiny Sponge is Probably Set to Change The World

By Anupum Pant

Background

Things absorbing water from the air is nothing new. Hygroscopic substances – or substances which have ability to attract and hold water molecules from the surrounding environment – have always been around. Coffee powder for instance is one great example – leave the dry coffee powder in the open and it will turn into a mushy matter within hours. Thanks to the moisture present in the air that it absorbs.

Hygroscopy in Nature

In the nature too, hygroscopy – the ability to extract water from thin air – has some peculiar functions. One fantastic example is the seed of the needle-and-Thread grass. This seed, with the help of a hygroscopic awn attached to it, can twist and untwist the screw like structure by releasing and absorbing moisture from the air. This way, it is able to dig its way into the ground. But that’s just one of the many examples of how hygroscopy is all around us. Here’s another one…

Thorny devil – an Australian lizard – lives in the arid scrubland and desert that covers most of central Australia. It has a hard time finding water in this dry place. So, blessed by the evolutionary forces of nature, the lizard has developed tiny hygroscopic channels between the spines on its back. These channels, working in tandem with a capillary action mechanism, are able to draw water from the air. Then their precise design makes the water move into the mouth of the lizard. Fascinating!

Other Ways

Although not exactly using hygroscopy, the Namib desert beetle, also does something similar – drawing water from thin air. Unlike the hygroscopic grooves of the thorny devil’s back, the desert dwelling beetle has developed some patterns on its hard wings which help it in drawing water from the air. These patterns include an array of  hydrophobic and hydrophilic materials which are able to trap water from the foggy morning air and are able to channel it to the beetle’s mouth.

The Nanotube Sponge Mat

This particular beetle’s hard wings with magical patterns on it, intrigued a couple of researchers. They took cue from this natural material and were able to create an artificial mat which could absorb water from the air.

nanotube sponge

Although we do have commercial Atmospheric Water Generators (AWG) which can harvest water from the air and supply drinking water, the sad thing is that these things run on electricity. This new mat that was fabricated recently, using an array of carbon nano tubes sandwiched between hydrophilic and hydrophobic layers, doesn’t need any electricity to extract water.

This mat they’ve fabricated is smaller than your thumbnail, but it still works, and is able to extract about 1/4th of it’s weigh in water within a few hours. The researchers are working on it to make it more efficient. [more information] [Original Paper]

A couple of years back a US based startup, NBD Nano, was inclined on developing a water bottle based on the same Namib desert beetle principle. The much touted water bottle, they said, would be able to fill itself! I’m not sure where their project is headed today, but an auto-filling water bottle sure would be a product just too cool to not own by every kid at school!

Needless to say, it would probably make a huge difference by lowering greatly the number of people who don’t find clean drinking water every day – Just for the record, about 1/7th of the world population didn’t have access to clean water today.

Revolutionary – A Simple Yet Much Stronger Artificial Muscle

By Anupum Pant

Background

Some things are just too simple to be noticed by most adults, rather a child would notice it better. Scientists are the ones who manage to hone their ability to  look at things like a child would see it – Children of course are the best scientists. That is what makes scientists different from most other people. And that is what helps them make elegant discoveries, like the one we are seeing here today.

Now, this may seem like a useless thing to some, but in reality the simple fishing line muscle is a huge step towards creating affordable personal robots, exoskeletons and a host of other earth changing devices. I can’t stop thinking how massive this simple thing could end up being.

The Discovery

A team of researchers at the University of Texas at Dallas, did exactly that. In a simple nylon fishing line, these researchers saw something that everyone till date has failed to notice. They noticed that, by twisting a nylon line into a coil (and heat treating), they could turn it into an artificial muscle. Later it was learnt that a simple artificial muscle made in this manner is about 100 times stronger than a human muscle and can go through millions of cycles without failing.

It’s actually so simple to do that you could make an artificial muscle in your own home. In fact, it works with a variety of other kinds of materials too, but better stick to the tested fishing line for now.

All you need to do is to hold one end of a long fishing line and start twisting the other end (a hand mixer could come in handy here). At some point the line reaches a point where it can’t twist any more, and then it starts getting coiled into a telephone wire kind of a spring. Now it can be heated in an oven (carefully, without melting) and cooled to lock it in this coil shape. There, you’ve got your own artificial muscle.

Working

Unlike what you think it would do when heated, the coil actually contracts and can lift a good amount of weight. An array of such artificial muscle fibres could lift a much heavier weight. as shown in the video below.

At first I found it confusing. It was hard for me to understand, what physics goes inside that makes the coil contract as a whole when it is heated. From the words of a wise scienitist, I found that it works like a chinese finger trap (and then I had to look what this piece of origami was). Whatever the coil does is absolutely elegant. It’s almost impossible for me to explain in words how it works. You might have to watch the video below…

The catch is that the nylon muscles made in this manner are very inefficient, but that can be worked upon.

Human Foot Pwns Any Shoe We’ve Ever Made

By Anupum Pant

Background

No doubt we have come far enough to be able to cram in Billions of transistors on a few mm² of real estate. Hell, we’ve even been able to construct single atom transistors. Technology sure has come far, but within a just few decades of evolution of technology, are we really sure that we’ve done better than the work done by nature through Millions of years of evolution in the field of bio-mechanics? I’m not too sure we have. Rather I believe, nature already is far ahead of us. That is probably the reason, we are not even close to properly understanding how animate matter really works. We have a long way to go. And here is why I say that…

Although this was back in the year 2010, it is still relevant.

Skeletal Biology Lab at Harvard

Professor Daniel E. Lieberman from the Skeletal biology lab of Harvard asked a simple question, “how and why did ancient humans run comfortably without modern running shoes?”
This question encouraged him to start a research in his Skeletal biology lab – The result of which made the professor to ditch his shoes (read on to know why). Now, he is the “barefoot professor”.

In a 2 Million year span through which humans have been running, it’s been only a couple of decades since they’ve started using shoes to run. Before that, for Millions of years, people used to run barefoot. In the process that has lasted about 2 Million years, the professor believes that the human foot was able to evolve into a very advanced bio-mechanical device. Turns out, you don’t need shoes to run, you just need feet. The foot easily beats any modern running shoe. Here’s how…

The Research

In their research, they observed and studied several cases of people running with and without shoes. With the help of modern technology (again) they were able to map out the kind forces that are experienced by the foot in both cases. Moreover, they found a stark difference in how people run with shoes, and how they do it without shoes.

Running with a shoe: When people run with shoes, they tend to rely on the soft cushion at the heel of the shoe, and most of the time they land on the heel. This abrupt landing creates huge impact forces and hurts your foot. In the long run, it causes problems. Nature clearly didn’t design the foot to run with shoes! As the video screenshot shows… (the running style is of course shown without the shoe).

running with a shoe

Running without a shoe: Now, that doesn’t happen when you run without a shoe. Since you don’t have a cushion to rely on, you tend to land on the front part of the foot (with almost a parallel footing, a little tilted towards the front). This part isn’t solid like the heel. It has been crafted very carefully by the nature to absorb the impact forces (or in other words to delay the time for which forces are experienced, like a shock absorber). That means, there are no peak impact forces. The curve, as you can see is a beautifully smooth curve, without peaks.

running without a shoe

In the following video, Madhusudhan Venkadesan explains this using a simple pen analogy (at 3:52).

via [ScienceDump]
Know more at the website [RunningBarefoot]

Hit like, or share it on Facebook if you learnt something from this article. It will help this website (an honest effort by me) to grow.

A Book That Filters 4 Years of Drinkable Water

By Anupum Pant

I’ve written a lot about water in the past. No wonder drinking water is such a precious commodity. Still, not many have access to clean water. About a 7th of the whole world’s population don’t have clean water to drink. Every year about 3.4 Million people die out of water borne diseases.

A group of people who go by the name WaterisLife are putting in everything to change that. By working with a group of scientists from Carnegie Mellon and the University of Virginia, they have been able to come up with a novel idea that could change this. They call it the drinkable book. 

Drinkable book is a book full of cards that have been coated with silver nanoparticles. These cards bear the ability to filter dirty water and reduce the count of bacteria in it by about 99.9%. It can kill the bacteria that causes diseases like cholera, typhoid and E. coli., producing drinkable water that is as pure as tap water used in the US. Each page of this book can filter about 30 days of drinkable water. In fact, each page contains the instructions to filter water properly too. The whole book can provide 4 years of potable water. Definitely a boon to the developing countries.

Extreme Bionics – Artificial Limbs as Good as Real Ones

By Anupum Pant

Hugh Herr is an American rock climber, engineer, and biophysicist who lost both his limbs below the knee due to a bad climbing accident. He now heads the MIT Media Lab’s Biomechatronics group. In the following talk he talks and shows off an incredible new kind of prosthetic they’ve developed.

The guest appearance of Adrianne Haslet-Davis, a dancer who lost a limb in the 2013 Boston bombing, makes it so touching. Don’t miss that.

So, here Herr giving one of those greatest talks you’ve ever seen. It’ll makes you realize how science is bringing closer a glorious future. If we keep moving at this pace, soon there will be a day when there will really be no disabilities. That is all I want to say.

Lucky Worms Survived The Space Shuttle Columbia Disaster

By Anupum Pant

February 1, 2003 was a sad day for science. Space shuttle Columbia, during re-entry, due to a broken piece of insulation, got completely disintegrated. With the shuttle, died all the 7 astronauts who were aboard. [Remembering Columbia]

Scientists had lost hope on all of the 80 experiments that were on board. Only several days later while sifting through the wreckage they found something interesting – at least not all was lost. A live group of lucky worms (roundworms) was successfully salvaged from the wreckage. Yes, odd, but true.

Why were there worms in the shuttle?

The space shuttle Columbia was a research flight and contained 80 experiments on board. The group of live worms, sealed in a metal container which was ensconced in a safe locker, was a part of one of those 80 experiments.

Although the particular gene experiment that had to be conducted with fresh-worms-from-space was lost because they had entered Earth several days back, the worms still proved useful for other science experiments.

From these worms scientists learned a great deal about what micro-gravity could do to animals – Like weakening of muscles and manifestation of diabetic symptoms. When in space, these are the similar things that happen to humans as well.

How did they not get killed?

Firstly, they were in a strong metal container that was nicely protected by a second layer – a reinforced locker meant to really protect things.

Since the shuttle was coming in at a speed more than 2 times the speed of sound, the locker must have hit the ground pretty hard, right? No, till the time it reached the surface, the drag slowed it down. So, the worms basically experienced just a harder-than-normal landing.

What are they doing now?

Well, as round worms don’t really live longer than 2 years usually, they must have died long back. But their descendants have been stored safely in a genetic center – lucky worms indeed. Some of these descendants were lucky enough to be sent to space during 2011 in the shuttle Endeavour.

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He Lives With No Heart Beating in His Chest

By Anupum Pant

Imagine this…
You are a doctor. A patient comes to you complaining of something and now you need to check his heartbeat. You plug the stethoscope in your ears and confidently move the probe to touch the chest of this patient, only to find that there is no heart beating inside that chest! In medical terms, isn’t this a dead man walking?

The answer is no, he is as alive as we are.  Medical technology has made it possible for a man to live without a traditional beating heart. Two incredible doctors, Billy Cohn & Bud Frazier, in the year 2011, replaced Craig A. Lewis’s lifeless heart with a revolutionary artificial device – A device that can replace your heart and lets the blood flow continuously – without a beat. By all criteria that doctors use to analyse patients, Craig is dead.

Side note: Do read about that scientist who died and came back to life – [Is There a Scientific Explanation for Everything?]

There is no beating when it works. Through a stethoscope, a doctor would probably hear a continuous whistling of blood sluicing through synthetic pipes and motors (I’m not sure about that). The two doctors had been testing it on cattle and it was their only hope to save Craig’s life. So, they decided to do it – replace his heart with this revolutionary device.

Related article: A heart that runs on nuclear energy – [Nuclear powered pacemakers for the heart]

Yes, technically you could say Craig A. Lewis is a heartless guy, but this is a serious leap in medical technology we are talking about here.

You cannot miss this very-short BBC documentary – “Heart Stop Beating” – where both the doctors talk about how they did something that had never been done before. [Video]

Heart Stop Beating | Jeremiah Zagar from Focus Forward Films on Vimeo.

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Concrete Cloth – Makes Durable Shelters Within Hours

By Anupum Pant

Today we have something which civil engineers would be extremely proud of – A recent innovation in concrete technology that has an immense life-changing potential – The concrete cloth; certainly a splendid engineering marvel.

What is it?

It is material which feels like a very thick canvas and has a three-dimensional fiber matrix. This piece of thick cloth is impregnated with a specially formulated concrete mixture. Once it is completely wet with water, it hardens into a thin, strong, fire-resistant and water-proof material, within a few hours. Commercial variants either have a hydrophobic coating on the outer surface or a PVC lining from the inside to make it completely impermeable to water.

Concrete Cloth

Since it just a thick piece of canvas impregnated with concrete, it can be transported fairly easily and can be made into various shapes to be used for different applications. For instance, it can be used for rapidly deploying hardened concrete shelters for people in need. It works like this:

  1. You carry a huge concrete canvas balloon with you in a truck.
  2. Place it wherever you need the shelter to be deployed.
  3. Pump water into it.
  4. Quickly start inflating it using a pump.
  5. Pull it around using, say a truck.
  6. Wait for it to harden.

Advantages:

  • To erect a shelter with concrete canvas, it only takes a fraction of the time taken to construct a shelter using tradition building techniques.
  • Unlike cloth tents, this one is extremely durable and can last for about 10 years. Moreover, it protects the residents from any form of extreme weather outside (Thermally insulated).
  • Construction material is light enough to be transported by a small pickup truck.
  • Requires just 2 people and can be deployed to a ready state within 24 hours – Within these 24 hours it gains about 80% of its full strength.
  • Can be tailored as required with the help of staples, cuts and nails / screws. In fact cutting it before hardening is not much different from cutting a thick piece of cloth.
  • Does not burn and is water-proof.

[Read more]

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Nuclear Powered Pacemakers for the Heart

By Anupum Pant

Heart and Pacemakers

Your heart is a complex device. It comes with its own sophisticated electrical system that controls the rate and rhythm of your heartbeats. The electrical system is responsible to make the heart contract and as a result pump blood into your body. It is required to keep a proper rate and rhythm. There is a whole lot to learn about how the human heart works. But that is for some other day. Or, you can read it here – [Link]

As years pass, like any other electrical system, even the heart is prone to electrical faults. Faulty signals can make the rhythmic beating, non-rhythmic. This can make life difficult for a person. Enter pacemaker…

Pacemakers are small devices that are placed in the chest. They use low energy pulses to maintain the rate and rhythm of your heartbeats by overcoming the faulty electrical signals. Sometimes Permanent pacemakers have to be used to control long-term heart problems. For this, they are required to run for a long time without replacement. Who’d want their chest dug every two months to replace the pacemaker battery?!

Nuclear powered

Nuclear batteries work due to a nonstop radioactive decay of certain elements. They can last for incredibly long times. Due to their extremely long lives and high densities they are used in space devices and other underwater systems; basically, in systems where replacement of batteries is not an option. So, scientists from the past thought – why not use them to power pacemakers too!

In the 1960s, scientists at the Los Alamos Scientific Laboratory in New Mexico began exploring the feasibility of being able to use nuclear power for pacemakers. The idea was to develop a penny sized battery that could be used with a pacemaker and could be implanted in a human body. It was made. And they decided to call it an atomic battery or Radioisotope battery or simply a nuclear battery.

Despite bearing the name “nuclear” battery, they were not really little nuclear reactors as they didn’t use chain reactions to produce energy. So, there was no danger of a meltdown. They were safe devices. No radiation related issues were ever reported.

The Problem

Agreed these batteries were costly and weighed a lot, but that was not the problem. The big problem was that they contained hazardous material which had to be recovered once a patient died. There were several instances when a person had died; the living relative had returned the nuclear battery, but the Nuclear Regulatory Commission never received it.

However, later in the year 1988 last of the nuclear batteries were used. Now they were being replaced with long lasting (~10 years) lithium batteries.

Even today Los Alamos National Laboratory has a fact sheet on their website that mentions what to do in case you find a nuclear battery.

Making Fresh Water With Apple and Tomato Peels

By Anupum Pant

Water on Earth

It’s Christmas! On this happy day let’s take a minute to look at what the major part of the world is facing today.

The present situation might not look as bad, but the truth is that we are running out of fresh water. To give you an idea about how much water is actually there on earth, this image of the whole world’s water compared with the size of earth is, in my view, the best thing that could prove it to you.

Fresh water in all the lakes and rivers on the whole planet is represented by the tiniest dot.  Yes, there is a third water sphere in the picture. You might have to squint to find it. So, that is the amount of fresh water we have here on earth.

global-water-volume-fresh
Source: http://ga.water.usgs.gov/edu/earthhowmuch.html

War for water: If this image isn’t much of a proof that fresh water is scarce, probably this will do the trick:
Countries consider fresh water a very precious resource. Several countries all around the world are fighting with their neighbors for this blue gold. Two good examples of that – [India starts water war] and [This]

The Point

Today, economically and technologically backward countries require good cost-effective methods to purify water. Scientists are doing a tremendous amount of work in this area and coming out with innovative methods to deal with the problem. Also, it is one great idea for taking up as a science fair project by students. One such recent research regarding this caught my attention.

The fruit peel method

Note: If you are wondering why have I written fruit when we are dealing with a tomato here, this might come as a shock to you that Tomato is actually a fruit. And BTW:

Knowledge is knowing that a tomato is a fruit. Wisdom is knowing that a tomato doesn’t belong in a fruit salad. – Miles Kingston

Mr Ramakrishna Mallampati, under the guidance of Associate Professor Suresh Valiyaveettil of the Department of Chemistry at the NUS Faculty of Science, have discovered a new way of purifying water which is both innovative and cost effective. Moreover, it uses the waste product of a fruit, its peel, for something good. They hope that their new technology will comes as a boon to the people living in areas where a water treatment plant cannot be set up.

According to their research, a tomato’s peel, under certain conditions, can remove dissolved organic and inorganic chemicals, dyes and pesticides. Additionally, an apple’s peel was also found to have these wonderful properties. Apple’s peel loaded with Zirconium were found to be effective in removing phosphate, arsenate, arsenite, and chromate anions. This is the first time ever someone has used to remove two different kinds of pollutants using two different kinds of peels. Notably, all their processes can be scaled up for large scale applications.

I hope that this new discovery will come as a respite to all the poor nations where people die everyday due to the unavailability of drinking water – due to diseases.

Source: http://water.org/water-crisis/water-facts/water/#
Source: http://water.org/water-crisis/water-facts/water/#

For more details – [NUS researchers developed world’s first water treatment techniques using apple and tomato peels]

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Ancient Brain Surgery 1000 Years Ago

By Anupum Pant

With specialized equipment and several other complications, we think we’ve come far with brain surgery. Today, brain surgery is supposed to be a modern advancement that enables us to treat obscure anomalies associated with the human brain. Of course we’ve advanced a lot, but there is no way we can reject the advancements in brain surgery attained during ancient times – Ancient brain surgery.

Trepanation: About 1000 years ago, ancient surgeons were already drilling through the human skulls; exposing the brain. Early Peru doctors were practicing a process called trepanation to treat a variety of brain related ailments.

The Story

Just a few days back, a research team led by UC Santa Barbara’s bioarchaeologist Danielle Kurin, excavated 32 skulls which illustrated that some sort of brain surgery was done on these Peruvian individuals back then. According to them, the skulls unearthed, had been drilled to treat swollen brains, or  of a neurological, spiritual or psychosomatic illnesses.

Around 1000 years ago, when a Peruvian empire was collapsing, on various skull, drilling and cutting methods were being employed to deal with challenges like violence, disease and depravation. This trend is seen as somewhat similar to how IED’s are driving exploration of prosthetic technology in the military now.  Exactly as guessed, not all of these ancient brain surgery procedures were successful, some of them did fail. But that is not the point.

According to Daniel Kurin talking about one of these 32 unearthed skull samples:

In one example, each hole is drilled a little deeper than the last. So you can imagine a guy in his prehistoric Peruvian medical school practicing with his hand drill to know how many times he needs to turn it to nimbly and accurately penetrate the thickness of a skull.

As noted by the lead researcher, a great amount of skill and practice was involved in these procedures. It is incredible to note that surgeons back then were using modern medical educational practices – using dead bodies to study physical sicknesses.

It wasn’t torture

Finally, if you’d argue that it could be a way to torture prisoners, scientists have something to disprove that theory too. What they were doing was not a way to torture people. They’ve found solid proofs that the skulls of individuals that were being drilled, were actually sick and were being operated upon by using proper operating procedures – like shaving hair before operating.

Is Glass Liquid Or Solid

By Anupum Pant

Glass stories have tormented me for years. A few well informed gentlemen, over the years, have communicated to me anecdotes that have contradicted and shown glass as liquid or solid, without solid proofs that could have helped me believe just one of them. A few days back, like I cleared my doubts about the gas station and cellphone story, I decided to find this out too. So, what is it really? Is glass liquid or solid?

Glass is a liquid?

1. Antique glass panes: A couple of years back I was told (I don’t remember where it came from) that glass windows of very old buildings have glass panes that have been found to be thicker at the bottom. That, according to them, absolutely proves that glass is a liquid that flows very slowly. And apparently explains, how the lower parts of these old panes get thicker – the glass from the upper part of the pane flows down as time passes. I thought it would be something like the world’s slowest experiment; so it could be true.

Till today, I had believed the same. It turns out, I was wrong all along.

Explanation: Firstly, there is no statistical study ever conducted that proves, all antique window panes are thicker at the bottom. Secondly, even if all of them are really thicker at the bottom, the difference in thickness has nothing to do with whether glass is a solid or a liquid. The cause of thicker bottoms is due to the fact that glass manufacturing process that was employed at the time wasn’t able to create perfect glass panes (with uniform thickness). The process made it almost impossible to produce glass panes of constant thickness.

Or, you could simply wait for a few years to see if perfect glass panes stuck on skyscrapers today mysteriously turn thicker in the bottom.

If you think you can NOT take my word for it, I have a quote for you from a distinguished science textbook – Glass Science – below:

Glass is an amorphous solid. A material is amorphous when it has no long-range order, that is, when there is no regularity in the arrangement of its molecular constituents on a scale larger than a few times the size of these groups. A solid is a rigid material; it does not flow when it is subjected to moderate forces. – Doremus, R. H. (1994)

2. Glass is a Super-cooled liquid? : This misunderstood phrase from Gustav Tammann’s book is probably the origin of the myth that glass is a liquid. The quote “glass is a frozen supercooled liquid” has been misquoted hundreds of times with the word “frozen”, forgotten. Today, this misquotation has grown to such great levels that it is actually difficult to go down and extricate the original quote that contained the word “frozen” in it. One word can indeed make a huge difference.

Finally, glasses are only amorphous solids. Where the term amorphous and solid have been separately been explained clearly in the year 1994 by Doremus R. H.
Together, these two words mean the same as definition of two separate words put together. Glass is not a liquid.

If you haven’t read about the ancient Nanotech marvel, Lycurgus cup, you are probably missing something amazing about ancient glass technology.

[Read more]

Lycurgus Cup – An Ancient Nanotech Marvel

By Anupum Pant

The concepts of modern nanotechnology must have been first seeded in the year 1959 by the renowned physicist Richard Feynman, but Romans were already doing it back in 300 AD (around 290-325 AD). About 1700 years back, utilizing the principles of Nanotechnology, Roman engineers had crafted a magnificent chalice – Lycurgus Cup (picture). Like the Prince Rupert’s drop, this is another glass marvel you should know about.

Side note: You can listen to the legendary lecture by Dr. Feynman on YouTube – There’s Plenty of Room at the Bottom, where he discusses the “possibility of synthesis via direct manipulation of atoms”, or Nanotechnology.

Lycurgus cup description

The Lycurgus cup was probably the first ever optical artificial [meta]material – Ruby Glass – engineered to have properties that may not be found in nature. Its unusual optical properties are something that makes it stand out.

Normally, the cup appears green, but if it is illuminated from the inside or lit up using a light placed behind it, it glows ruby-red; hence the name, ruby glass. This kind of glass is known as a Dichroic glass. Dichroic  literally means ”two colored” and is derived from the Greek words ”di” for two, and ”chroma” for color; in this case, the colors green and red.

The technology behind this cup baffled scientists for around 40 years (from 1950s to 1990s). It was only in 1990s that they figured out how it really worked. The goblet has been preserved well, and is presently at display in the British Museum.

Dichroic glass

Dichroic glasses do not use paints, dyes, or any coloring agents for the color. They are made using fine coatings on glass. The coatings themselves do not have a color, but rather they bend light to reflect colors like a prism does, to make rainbows.

These colors are visible due to the presence of very minute amounts of finely ground gold and silver particles in it. Romans could have included these powders unknowingly as contaminants or might have added them on purpose to achieve the very effect, we’ll never know.

Inspired by an age-old technology

NASA, in the 1950s, used a similar technology to fabricate a kind of glass that could selectively reflect light wavelengths. They achieved this by depositing a thin-film of metal on the glass.

With innumerable combinations of oxides, glass colors and patterns available, the possibilities to utilize this phenomenon for various useful purposes are endless.
The unusual properties of this cup have also inspired material scientists to create concepts for an invisibility cloak using modern nanofabrication technology. [Source]

I want to study interesting materials like these

If you think the Lycurgus cup, Wolverine’s claws and Aerogels (If you haven’t heard about it, you must definitely check this out!) are awesome. You can make a career in researching materials like these by making a foray into Materials Science and Engineering. Most good universities offer a course in it. It is a budding field, growing at a rapid pace, replete with real-world challenging conundrums waiting to be resolved.