Introduction: Twinkle Twinkle Nail Art - SparkFun LilyPad

About half a year ago, after seeing my tech-fashion designs, a friend sent me a music video (I can't find which video it was anymore. Maybe readers here can help). It had a few human robots in light-up dresses but an additional thing I noticed was their LED nails. I thought it would be cool to make some.

I want to make the nails look natural and not too long or bulky. I also want to use microcontrollers to create a twinkling effect. But since the nails are so small compared with modular electronic components, I have to come up with a solution. What if I make a beautiful bracelet that can hide the electronics inside and link to the nails? Here comes two versions. I'll describe the different processes. Design 1 is easier to do which took about 2 hours, whereas design 2 took about 4 hours. Which one do you like more?

Side note: I used to like painting my nails (not manicure but actually drawing stuff on the nails). I have stopped for years since the fume is unhealthy and the process is time-consuming. But here sharing some old nail art. Yep, I'm mostly right-handed but one thing I can do with my left hand is to draw onto my right nails.

Step 1: Design 1 - Flowing Tulle

Picture of Design 1 - Flowing Tulle

1.1 Circuitry:

For this project, SparkFun LilyPad LEDs, coin cell battery holder and LilyTwinkle are used. All these components are thin and directly sewed together with conductive thread. The circuitry just needs to follow the rule in the below diagram (for beginners, see example tutorial here). All ground lines go to "-". The nice thing about LilyTwinkle is that it's already pre-programmed to blink the 4 ports randomly. (If you want to re-program it, check out this tutorial.) I chose to use 4 LEDs exactly as this diagram so that each LED is on one of the long fingers. You can add more LEDs (will provide a schematics for that case at the bottom.) and of course can share one of the ports to have a 5th trace for the thumb.

Step 2: Testing

Picture of Testing

1.2 Testing:

Always, always test the circuit before sewing any connections.

Step 3: Sewing

Picture of Sewing

1.3 Sewing:

Then you are good to start sewing the components onto the tulle. Here's a tip. Tulle is flimsy and not very easy to sew thread onto, even if you use an embroidery loop. After sewing the first trace, I realized a better way. You can lay the tulle onto a piece of paper and draw the traces out based on the lengths of your fingers. Sew along the traces by poking the needle through both the tulle and paper. The rigidity of the paper gives you a very good grip, allowing definition of the traces. Now test the connections again after sewing.

Step 4: Important Decorations

Picture of Important Decorations

1.4 Important decorations:

As a maker known for making nerdy stuff pretty, I'm usually not satisfied with bare circuitry. I'm pursuing a look that the whole nails would light up, instead of point light sources, thus adding the faux nails. This is the first time in my life dealing with faux nails (can't wear them unless I cut them short, need to play the piano.). I'm very happy with the strong grip of the glue on their back side. Directly stick them onto the LEDs. The faux nails are thin and diffuse the light so the whole nails glow!

Notice that the LilyPad battery holder and LilyTwinkle are already decorated with gem stones. There are many ways to decorate them. I just have loads of gem stone leftovers from the tinyTILE dress.

Step 5: Revealing the Product:

Picture of Revealing the Product:

1.5 Revealing the product:

It is immensely satisfying to peel off the paper. On the back side, apply double-sided tapes. You can also sew on some ribbons to attach to your hand but double-sided tapes are easy, disposable and re-applicable. Now put the whole thing on your hand! It's great the tulle is soft yet has enough resilience to prevent the conductive threads from crossing and shorting the circuit. I wish there are other colors of conductive threads though. Or I need to coat it somehow to make them less visible or change the color of the tulle, though I really like the white bubbly look.

Step 6: Design 2 - Elegant Ribbon

Picture of Design 2 - Elegant Ribbon

Design 1 perhaps is not the most practical decoration to wear. I made another one that's more concise and also hide the conductive threads like a feature of the design.

2.1 Planning and testing: Cut some lace ribbons into lengths based on the placement.

Again start with testing the circuitry.

Step 7: Sewing and Isolating Positive and Negative Traces:

Picture of Sewing and Isolating Positive and Negative Traces:

2.2 Sewing and isolating positive and negative traces:

Sew the conductive threads along the ribbons. Sew the positive traces first along one side of the ribbons. Then sew the negative traces. It is important to separate positive and negative as far as possible. For the LEDs, I used a single ribbon and sewed the positive along one edge and the negative along the other. For the battery holder, I used two ribbons as the positive and negative ports are far away from each other. Bad example in this picture though. I shouldn't have the battery in. During construction, it is very easy to have the ribbons touch each other and short the circuit and the battery will heat up and get drained. In fact, even after you finish the final product, always remove the battery when you are not wearing it.

Here comes the tricky part. LilyTwinkle ports are very close to each other. We want to divert the negative traces away from the positive ones already sewed onto the ribbons. Luckily we live in a 3-dimensional world. I added another ribbon to dedicate to the ground/negative line. So the positive traces are mostly on the back side of the hand and negative traces go around onto the palm side.

Step 8: Decoration and Fixation:

Picture of Decoration and Fixation:

2.3 Decoration and fixation:

Now you have a structure, you can decorate. Put double-sided type behind the faux nails as in Design 1. This time you can add a ribbon onto the battery holder to tie around the wrist. Also, I added the gem stones on the finishes of conductive threads. This helps stabilize and insulate the threads.

Pretty, right? Can someone please commercialize this and just remember to credit me? I just don't have time to do it...

Step 9: Final Suggestions

Picture of Final Suggestions

The principle of making these bracelet twinkle nails is simple. You need to find the right "substrate" for the conductive traces. A glove would be an option but I highly recommend against it. Nails look pretty on fingers. Having nails coming out of a glove made of fabric will look creepy. Go for it if it's for Halloween. Perhaps a lace glove would work.

There's also an option to use double-sided conductive tape like Alex Glow's LED tattoo.

What would be the most beautiful is to have chains as the conductive traces. But unless I get special chains or treatment on the chains, it'd be so hard to avoid crossing and insulate them from the hand. Until then, this remains a romantic idea.


Left-field Designs (author)2017-10-07

If you wanted to mask the wiring a little more you could design and draw on a henna style tattoo with conductive ink. Obviously the + & - would have to follow distinct paths but it would eliminate wiring and fit with the idea of your design at the same time. Just a thought, nice ible

That's a great idea. Thank you! If the tattoo is drawn on the skin, is there a good way to make electrical connection to the PCB boards?

I'd say conductive glue would be your only option. The other way would be to mount the pcb on a strap with the terminals connected to some metal pads, say studs in a leather wristband. Then just draw a circle with the ink where the line meets the terminal.

This may be something worth trying. Can probably get rid of the microcontroller after all. Instead, directly connect the LEDs to the battery holder via the pads/studs you mentioned. Take advantage of the loose connection to make different LEDs go on and off. As we move the hand, the bones could make different parts of the skin rise up, connecting different traces. May have to use something like DuoSkin tattoo which should have good insulation between the skin and conductive ink.

DIY Hacks and How Tos (author)2017-10-07

Nice. I think this is actually the first time that I have seen someone make light up nail art.

About This Instructable




Bio: Physicist/Artist/Musician/Fashion Designer/Engineer
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