The Public Lab spectrometry project is an open source community effort to develop low-cost spectrometers for a range of purposes. All open spectrometry hardware and software efforts are welcome here! **Join in by:** * Learning [what spectrometry is](#Whats+spectrometry) * Reading about goals and [asking great questions](#Frequently+Asked+Questions) * Building a basic spectrometer using [one of our starter kits](#Starter+Kits) * Trying (and critiquing) our [community-made how-to guides](#Activities) and posting your own * Building on others’ work; hack and remix the kits to refine and expand them * [Share your upgrades](#Upgrades) for others to try -- and perhaps for inclusion in an upcoming starter kit release or add-on kit **** ## Starter Kits Public Lab’s Kits initiative offers several starter kits, including many of the basic components, and instructions for constructing a basic visible light spectrometer. The point of the kits is to provide a shared reference design for building experimental setups onto. Lego Spectrometer Kit Our most recent kit, incorporating community improvements while balancing low cost and ease of construction. Choose between webcam and Raspberry Pi camera versions and build attachments width standard Lego connectors. Build one Buy one Papercraft Spectrometry Intro Kit A $9 paper spectrometer which you can attach to a smartphone or webcam. It’s made of paper to reduce cost and complexity, and is mainly intended as an “introductory” or educational kit. The flat design can be printed on a laser printer or photocopied to make more. Build one Buy one **** ## Activities This is a list of community-generated guides for specific applications using your spectrometry setup (either a [starter kit](#Starter+Kits) or a [modded design](#Upgrades)). These [activities can be categorized](https://publiclab.org/wiki/activity-categories), and some may be more reproduced -- or reproducible -- than others. Try them out to build your skills, and help improve them by leaving comments. Together, we can repeat and refine the activities into experiments. > **Note:** If you are working on an **urgent issue** such as a threat to your or someone else’s health, please know that these techniques may not be ready for your use; it's possible that they never will be. [Read more here](/notes/gretchengehrke/09-29-2016/common-low-cost-technique-limitations) ### Activity grid [activities:spectrometry] **** ## Upgrades Have you added to your starter kit, improved it, or redesigned it? Show others how to take it to the next level by posting a build guide here: [upgrades:spectrometry] Add your upgrade guide here Request or propose an upgrade _Mods should include a parts list and a step-by-step construction guide with photo documentation. See an example._ **** ## Challenges We're working to refine and improve DIY spectrometry on a number of fronts; here, take a look at the leading challenges we're hoping to solve, and post your own. For now, we're using the Q&A feature, so just click "Ask a question" to post your own challenge. Be sure to add: * constraints: expense, complexity * goals: performance, use cases [questions:spectrometry-challenge] **** ## Builds There’s a lot going on in open source spectrometry -- if you’ve developed another open source design you’d like to show others how to construct, post it here! * [RamanPi](https://hackaday.io/project/1279-ramanpi-raman-spectrometer) * [Hackteria “drop”-style spectrometers](https://publiclab.org/notes/gaudi/04-03-2014/diy-micro-volume-spectrophotometer) / [DIY NanoDrop on Hackteria.org](http://hackteria.org/wiki/index.php/DIY_NanoDrop) * _Add yours here_ ##What's spectrometry? Colored light is often a blend of different colors. A spectrometer is a device which splits those colors apart, like a prism, and measures the strength of each color. A typical output of a spectrometer looks like this spectrum of the daytime sky, with the actual light spectrum at the top and the graph of wavelength (horizontal axis, in nanometers of wavelength) and intensity (vertical axis) below: [![sky.png](https://i.publiclab.org/system/images/photos/000/005/455/original/sky.png)](https://spectralworkbench.org/analyze/spectrum/19882) > Needed: overview of spectra, calibration, units, comparison, and fluorescence/absorption. Please edit this page or link to a resource, potentially [the Wikipedia page](https://en.wikipedia.org/wiki/Spectroscopy), although that's quite full of technical jargon. ## Software Spectral data can be analyzed with https://spectralworkbench.org to create spectra plots, find centers of emissions plots, and find similar spectra. Data also can be exported in various formats (JSON, CSV, XML) for further analysis and visualization. ## How does this compare to a lab instrument? The [Desktop Spectrometry Starter Kit](/wiki/desktop-spectrometry-kit-3-0) is only one part in an experimental setup, and the following shows where it fits in an overall diagram of a lab spectrometric setup: [![tmp_31873-IMG_20161027_101601_2-79757779.jpg](https://publiclab.org/system/images/photos/000/018/635/large/tmp_31873-IMG_20161027_101601_2-79757779.jpg)](https://publiclab.org/system/images/photos/000/018/635/original/tmp_31873-IMG_20161027_101601_2-79757779.jpg) [![tmp_31873-IMG_20161027_095939_2-108076392.jpg](https://publiclab.org/system/images/photos/000/018/636/large/tmp_31873-IMG_20161027_095939_2-108076392.jpg)](https://publiclab.org/system/images/photos/000/018/636/original/tmp_31873-IMG_20161027_095939_2-108076392.jpg) There are many, many different types of spectrometry and spectrometers -- many don’t even measure light. Even among those that do, some detect light in the ultraviolet range, and others in the infrared range of light. The range of Public Lab spectrometers depends on the range of the commercially available cameras we attach them to (~400-700 nanometer wavelengths). A commercially available product with a slightly wider range (from 335 to 1000 nanometers) is [available from Cole Parmer](http://www.coleparmer.com/Product/Cole_Parmer_Visible_spectrophotometer_335_to_1000_nm_wavelength_range_analog_output/UX-83055-10). **** ## Frequently Asked Questions [questions:spectrometry] Note our previous Frequently Asked Questions page, which [can be found here »](/wiki/spectrometer-faq) -- please help port these into the new system, here!...
Author | Comment | Last activity | Moderation | ||
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MrBumper | "As far as I know the guide groove on a DVD+R would be indistinguishable from that on DVD-R as far as using it for a diffraction grating is concerne..." | Read more » | almost 10 years ago | |||
mathew | "this lead to a massive thread on the mailing list: https://groups.google.com/forum/#!topic/plots-spectrometry/zxkwRR7D4ls " | Read more » | almost 10 years ago | |||
patcoyle | "Ingenious, seems like a great approach. " | Read more » | almost 10 years ago | |||
flatCat | "@HoshiChemist Hi, thanks..! If you're building according to the current design without any mods, it'll probably cost you around that.. Depending ..." | Read more » | almost 10 years ago | |||
cfastie | "This is great information. I don't know of any comparisons between DVD-R and DVD+R Do you think either will work for making a grating? Some DVDs a..." | Read more » | almost 10 years ago | |||
warren | "This is so clearly and thoroughly explained! How about linking to it from the dsk and foldable spectrometer instructions pages? " | Read more » | almost 10 years ago | |||
HoshiChemist | "This is awesome. Could anyone give me an estimate of the cost of this assuming that I have a commercial 3D printer? I see an earlier post states ~$..." | Read more » | almost 10 years ago | |||
mathew | "I love their HTML 5 video stuff in there. really nice. The fold-up GIF is also stellar. " | Read more » | almost 10 years ago | |||
warren | "Looks amazing. I recently saw some neat ideas for cardboard construction from Nadya Peek and James Coleman, and also was just impressed at their do..." | Read more » | almost 10 years ago | |||
mathew | "PDFs for images in previous comment. specbox-top-newtab2.pdf spec-box-bottom-newtab2.pdf " | Read more » | almost 10 years ago | |||
mathew | "a lot of small revisions based on the die-cuttable tabs. " | Read more » | almost 10 years ago | |||
flatCat | "Hi Peter... The 'retired' directory contains the older version that I started with.. The 3d printable folder is the current version that you see ..." | Read more » | almost 10 years ago | |||
mathew | "refined the tabs so they are die-cuttable, more refinements after a first round of laser cut versions. I switched to blue fold lines for the laser..." | Read more » | almost 10 years ago | |||
amysoyka | "<3 This is awesome. Thanks for the tag. " | Read more » | almost 10 years ago | |||
mathew | "new top and bottom: I split this into two pieces for printing reasons. specbox-top.pdf spec-box-bottom.pdf " | Read more » | almost 10 years ago | |||
peter2975 | "Hi, Can you please let me know in Github which file has to used for 3d printing as their are two folder one is 3d printable and another is 3d print..." | Read more » | almost 10 years ago | |||
peter2975 | "Hi, Can you please let me know in Github which file has to used for 3d printing, Thanks Peter " | Read more » | almost 10 years ago | |||
liz | "This is SUPER, can't wait to fold one myself " | Read more » | almost 10 years ago | |||
ygzstc | "Great job Mathew! " | Read more » | almost 10 years ago | |||
warren | "Also, i made the shortlink feature -- see in the subheader "shortlink" -- for example this page's is: http://publiclab.org/n/11440 " | Read more » | almost 10 years ago | |||
warren | "I LOVE THIS " | Read more » | almost 10 years ago | |||
flatCat | "No need to be sorry! I hope I helped... Also, if you are building the ramanPi using the schematics/boards I designed....don't forget to swap the ..." | Read more » | about 10 years ago | |||
peter2975 | "Hi Sorry about the wrong connection anyway thanks for the information and regarding the Raspberry Pi as per your BOM it is Raspberry Pi Model B+ 5..." | Read more » | about 10 years ago | |||
flatCat | "Hi Peter... Perhaps try emailing me directly... Your diagram above depicts the Nucleo's USB plugged into the HDMI of the raspberryPi B+... I'll go..." | Read more » | about 10 years ago |