DIY Awesome new year lanterns!


Lanterns can be made from many different materials. Be creative and use materials you have easy access to, including items from the recycling bin. Here are a few suggestions to get you started:

  • battery-operated tea light or the DIY Night-Light Kit ,The kit includes all the electronics you need to build a simple lantern circuit that will turn on automatically in the dark:
    • Mini breadboard
    • Transistor
    • Photoresistor
    • Potentiometer
    • 3/4 inch jumper wire
    • 30 Ω resistor
    • 2xAAA battery holder
    • AAA batteries (4)
    • Super bright LEDs in assorted colors (3)
  • Items to form the body of your lantern (cardstock, construction paper, cardboard, a plastic bottle, wax paper etc.)
  • Craft supplies to decorate your lantern (construction paper, markers, cellophane, tissue paper etc.)
  • Something to hang your lantern (string, a stick, pipe cleaners etc.)
  • Tools to build with (glue, tape, pencil, scissors etc.)


  1. Think about the design criteria for your paper lantern. The design criteria are the are the things your lantern must have. For example:

    1. A light
    2. A body that surrounds and holds the electronics for the light
    3. A way for the light to shine out
    4. A way to display the lantern, like holding it by a handle, carrying it on a stick, resting it on the ground, or hanging it from a tree
  2. Sketch what you want your paper lantern to look like with the design criteria in mind.

    Think about:
    Will your paper lantern look like a traditional lantern, a fantastical beast, a star, or something else?
  3. Decide how you will light your lantern. Skip to step ten if you are using a battery-operated tea light. If you would like to build a simple lantern circuit that automatically turns on when it gets dark, follow the instructions in steps four through ten.

    Think about:
    Why might a lantern circuit that automatically turns on when it is dark and off when it is light be a nice feature?
  4. Build your circuit on the breadboard as shown in the picture.

    1. Pay attention to which way the parts face. Certain parts cannot be backwards, or the circuit will not work.
      1. Do not switch the battery pack’s red and black wires.
      2. In the picture, the LED’s long leg is on the left, and the short leg is on the right.
      3. In the picture, the writing on the front of the transistor is facing towards you.
    2. If your circuit feels hot, or you see or smell any smoke, you have a short circuit. Immediately disconnect the batteries and double-check your wiring.
  5. Turn the potentiometer’s knob all the way clockwise. The LED should be off.
  6. Turn the potentiometer’s knob all the way counterclockwise. The LED should turn on.
  7. If the LED does not turn on (or if the LED never turns off when you turn the potentiometer), double-check your circuit. If you still cannot find an error, ask someone else to look at it for you. Having just one part on the wrong breadboard hole will prevent the circuit from working. It can be hard to spot mistakes if you are new to working with breadboards.
  8. Turn the potentiometer’s knob to roughly the middle position.
  9. You can quickly test your circuit by covering the tip of the photoresistor with your finger. You can also turn off the lights, or take your circuit into a dark room. When you do, the LED should turn on.
  10. Turning the potentiometer adjusts the light threshold at which the LED will turn on. Keep adjusting and testing your circuit until you get it just the way you like it.
  11. Gather materials to build the body of your paper lantern. When looking for materials, keep in mind these points:

    1. The body of your lantern must be strong enough to support the weight of your lantern circuit or tea light.
    2. At least some parts of your paper lantern must be transparent or translucent to let light pass through.
    3. If you are using the simple lantern circuit, the photoresistor must be accessible to the ambient light (the light in the room or outside space your lantern will be in) so that it can detect whether it is light or dark out.
    Think about:
    Look at the sketch you made of your paper lantern. Can you identify which parts need to be opaque and which need to be transparent or translucent? List some materials you can use to get a transparent or translucent effect.
  12. Build and decorate your paper lantern from the materials you gathered.
  13. Test your paper lantern. Does the light shine through it? Does it hold the tea light or lantern circuit securely? Can you easily hang it up or display it another way? Keep working on it until you are happy with the final results! Remember, engineers often design, build, and test several times until they make a good product.

    Three home-made paper lanterns including an owl, a rocket ship, and a unicorn.

What Happened?

While making your paper lantern, you went through the designing, building, and testingYou may have had to do some or all of these steps several times before you ended up with a lantern you liked, and that worked well. This is called iteration and is something engineers do when making and improving products.

As you built and tested your paper lantern, you may have seen that the light was blocked by opaque materials like cardboard and construction paper. Cutting holes in the opaque material allowed light to pass through. If you tried covering those holes with translucent materials like wax paper, kite paper, or tissue paper, you saw that some light could pass through these materials, but it was dimmer and more diffuse than when the holes were uncovered.

If you built and installed the simple lantern circuit in your paper lantern, you saw that the photoresistor is the light-detecting part of the circuit. The other parts of the circuit (the potentiometer and the transistor) turn the LED on or off depending on how much light hits the photoresistor. This circuit is exactly like the circuits in automatic night-lights that you can buy at the store.


1 review

Are you ready to move beyond paper circuits and squishy circuits? This is a great intermediate circuit project where you will build your own working night-light. And of course, you will have some fun decorating it!