Intro This is a page to compile, share, and publish research about near-ultraviolet, visible, an...
Public Lab is an open community which collaboratively develops accessible, open source, Do-It-Yourself technologies for investigating local environmental health and justice issues.
29 CURRENT | warren |
April 11, 2016 11:19
| over 8 years ago
IntroThis is a page to compile, share, and publish research about near-ultraviolet, visible, and near-infrared spectroscopy/spectrometry analysis techniques. Not all will be applicable to our DIY spectrometer, but many are a good starting point for investigation. If you want to publish research, post it on the Public Lab site and you can add it here too. If you'd like to try applying some of this research, take a look at the Spectrometry Activities page and the Spectrometry Sampling guide. DatabasesFirst, let's start with some already available spectral databases, many of which may be very difficult to search or use, but which can be used as a basis for identification. Perhaps some could eventually be imported into Spectral Workbench.
Compiled researchSome of the below papers describe other types of spectroscopy such as mid-infrared (MIR) or Fourier-transform infrared (FTIR) and the data they present will not be compatible/comparable with that which we gather in the 400-900nm range. But their methodologies may be a useful reference for those looking to reach similar results in the range our instruments can detect. For each use case below, there might be several approaches to analysis. Read more about different kinds of spectrometry such as fluorescence, absorption, and flame emission spectrometry here: Spectral Analysis Techniques Household products
Metals and soil
Atomic emission spectra databases:
Beer/brewing
Wine & grapes
Coffee
Coral/Aquariums/Grow lights
Agricultural uses
DNA/RNAUrineAstronomyFood Contamination Detection
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Revert | |
28 | Jasonchoi82222 |
April 11, 2016 00:24
| over 8 years ago
IntroThis is a page to compile, share, and publish research about near-ultraviolet, visible, and near-infrared spectroscopy/spectrometry analysis techniques. Not all will be applicable to our DIY spectrometer, but many are a good starting point for investigation. If you want to publish research, post it on the Public Lab site and you can add it here too. If you'd like to try applying some of this research, take a look at the Spectrometry Activities page and the Spectrometry Sampling guide. DatabasesFirst, let's start with some already available spectral databases, many of which may be very difficult to search or use, but which can be used as a basis for identification. Perhaps some could eventually be imported into Spectral Workbench.
Compiled researchSome of the below papers describe other types of spectroscopy such as mid-infrared (MIR) or Fourier-transform infrared (FTIR) and the data they present will not be compatible/comparable with that which we gather in the 400-900nm range. But their methodologies may be a useful reference for those looking to reach similar results in the range our instruments can detect. For each use case below, there might be several approaches to analysis. Read more about different kinds of spectrometry such as fluorescence, absorption, and flame emission spectrometry here: Spectral Analysis Techniques Household products
Metals and soil
Atomic emission spectra databases:
Beer/brewing
Wine & grapes
Coffee
Coral/Aquariums/Grow lights
Agricultural uses
DNA/RNAUrineAstronomyFood Contamination Detection
|
Revert | |
27 | Jasonchoi82222 |
April 11, 2016 00:23
| over 8 years ago
IntroThis is a page to compile, share, and publish research about near-ultraviolet, visible, and near-infrared spectroscopy/spectrometry analysis techniques. Not all will be applicable to our DIY spectrometer, but many are a good starting point for investigation. If you want to publish research, post it on the Public Lab site and you can add it here too. If you'd like to try applying some of this research, take a look at the Spectrometry Activities page and the Spectrometry Sampling guide. DatabasesFirst, let's start with some already available spectral databases, many of which may be very difficult to search or use, but which can be used as a basis for identification. Perhaps some could eventually be imported into Spectral Workbench.
Compiled researchSome of the below papers describe other types of spectroscopy such as mid-infrared (MIR) or Fourier-transform infrared (FTIR) and the data they present will not be compatible/comparable with that which we gather in the 400-900nm range. But their methodologies may be a useful reference for those looking to reach similar results in the range our instruments can detect. For each use case below, there might be several approaches to analysis. Read more about different kinds of spectrometry such as fluorescence, absorption, and flame emission spectrometry here: Spectral Analysis Techniques Household products
Metals and soil
Atomic emission spectra databases:
Beer/brewing
Wine & grapes
Coffee
Coral/Aquariums/Grow lights
Agricultural uses
DNA/RNAUrineAstronomyDetermine Substances beyond our world with a spectral telescope Food Contamination Detection
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Revert | |
26 | chongyukwai |
May 24, 2015 07:29
| over 9 years ago
IntroThis is a page to compile, share, and publish research about near-ultraviolet, visible, and near-infrared spectroscopy/spectrometry analysis techniques. Not all will be applicable to our DIY spectrometer, but many are a good starting point for investigation. If you want to publish research, post it on the Public Lab site and you can add it here too. If you'd like to try applying some of this research, take a look at the Spectrometry Activities page and the Spectrometry Sampling guide. DatabasesFirst, let's start with some already available spectral databases, many of which may be very difficult to search or use, but which can be used as a basis for identification. Perhaps some could eventually be imported into Spectral Workbench.
Compiled researchSome of the below papers describe other types of spectroscopy such as mid-infrared (MIR) or Fourier-transform infrared (FTIR) and the data they present will not be compatible/comparable with that which we gather in the 400-900nm range. But their methodologies may be a useful reference for those looking to reach similar results in the range our instruments can detect. For each use case below, there might be several approaches to analysis. Read more about different kinds of spectrometry such as fluorescence, absorption, and flame emission spectrometry here: Spectral Analysis Techniques Household products
Metals and soil
Atomic emission spectra databases:
Beer/brewing
Wine & grapes
Coffee
Coral/Aquariums/Grow lights
Agricultural uses
DNA/RNAUrineAstronomyFood Contamination Detection
|
Revert | |
25 | mchapman87501 |
November 07, 2014 13:31
| about 10 years ago
IntroThis is a page to compile, share, and publish research about near-ultraviolet, visible, and near-infrared spectroscopy/spectrometry analysis techniques. Not all will be applicable to our DIY spectrometer, but many are a good starting point for investigation. If you want to publish research, post it on the Public Lab site and you can add it here too. If you'd like to try applying some of this research, take a look at the Spectrometry Activities page and the Spectrometry Sampling guide. DatabasesFirst, let's start with some already available spectral databases, many of which may be very difficult to search or use, but which can be used as a basis for identification. Perhaps some could eventually be imported into Spectral Workbench.
Compiled researchSome of the below papers describe other types of spectroscopy such as mid-infrared (MIR) or Fourier-transform infrared (FTIR) and the data they present will not be compatible/comparable with that which we gather in the 400-900nm range. But their methodologies may be a useful reference for those looking to reach similar results in the range our instruments can detect. For each use case below, there might be several approaches to analysis. Read more about different kinds of spectrometry such as fluorescence, absorption, and flame emission spectrometry here: Spectral Analysis Techniques Household products
Metals and soil
Atomic emission spectra databases:
Beer/brewing
Wine & grapes
Coffee
Coral/Aquariums/Grow lights
Agricultural uses
DNA/RNAAstronomyFood Contamination Detection
|
Revert | |
24 | warren |
October 10, 2013 17:50
| about 11 years ago
IntroThis is a page to compile, share, and publish research about near-ultraviolet, visible, and near-infrared spectroscopy/spectrometry analysis techniques. Not all will be applicable to our DIY spectrometer, but many are a good starting point for investigation. If you want to publish research, post it on the Public Lab site and you can add it here too. If you'd like to try applying some of this research, take a look at the Spectrometry Activities page and the Spectrometry Sampling guide. DatabasesFirst, let's start with some already available spectral databases, many of which may be very difficult to search or use, but which can be used as a basis for identification. Perhaps some could eventually be imported into Spectral Workbench.
Compiled researchSome of the below papers describe other types of spectroscopy such as mid-infrared (MIR) or Fourier-transform infrared (FTIR) and the data they present will not be compatible/comparable with that which we gather in the 400-900nm range. But their methodologies may be a useful reference for those looking to reach similar results in the range our instruments can detect. For each use case below, there might be several approaches to analysis. Read more about different kinds of spectrometry such as fluorescence, absorption, and flame emission spectrometry here: Spectral Analysis Techniques Household products
Metals and soil
Atomic emission spectra databases:
Beer/brewing
Wine & grapes
Coffee
Coral/Aquariums/Grow lights
Agricultural uses
DNA/RNAAstronomyFood Contamination Detection
Color matching
|
Revert | |
23 | warren |
October 10, 2013 17:31
| about 11 years ago
IntroThis is a page to compile, share, and publish research about near-ultraviolet, visible, and near-infrared spectroscopy/spectrometry analysis techniques. Not all will be applicable to our DIY spectrometer, but many are a good starting point for investigation. If you want to publish research, post it on the Public Lab site and you can add it here too. DatabasesFirst, let's start with some already available spectral databases, many of which may be very difficult to search or use, but which can be used as a basis for identification. Perhaps some could eventually be imported into Spectral Workbench.
Compiled researchSome of the below papers describe other types of spectroscopy such as mid-infrared (MIR) or Fourier-transform infrared (FTIR) and the data they present will not be compatible/comparable with that which we gather in the 400-900nm range. But their methodologies may be a useful reference for those looking to reach similar results in the range our instruments can detect. For each use case below, there might be several approaches to analysis. Read more about different kinds of spectrometry such as fluorescence, absorption, and flame emission spectrometry here: Spectral Analysis Techniques Household products
Metals and soil
Atomic emission spectra databases:
Beer/brewing
Wine & grapes
Coffee
Coral/Aquariums/Grow lights
Agricultural uses
DNA/RNAAstronomyFood Contamination Detection
Color matching
|
Revert | |
22 | warren |
August 13, 2013 15:16
| over 11 years ago
IntroThis is a page to compile, share, and publish research about near-ultraviolet, visible, and near-infrared spectroscopy/spectrometry analysis techniques. Not all will be applicable to our DIY spectrometer, but many are a good starting point for investigation. If you want to publish research, post it on the Public Lab site and you can add it here too. DatabasesFirst, let's start with some already available spectral databases, many of which may be very difficult to search or use, but which can be used as a basis for identification. Perhaps some could eventually be imported into Spectral Workbench.
Compiled researchSome of the below papers describe other types of spectroscopy such as mid-infrared (MIR) or Fourier-transform infrared (FTIR) and the data they present will not be compatible/comparable with that which we gather in the 400-900nm range. But their methodologies may be a useful reference for those looking to reach similar results in the range our instruments can detect. For each use case below, there might be several approaches to analysis. Read more about different kinds of spectrometry such as fluorescence, absorption, and flame emission spectrometry here: Spectral Analysis Techniques Household products
Metals and soil
Atomic emission spectra databases:
Beer/brewing
Wine & grapes
Coffee
Coral/Aquariums/Grow lights
Agricultural uses
DNA/RNAAstronomyFood Contamination Detection
Color matching
|
Revert | |
21 | warren |
August 01, 2013 07:29
| over 11 years ago
IntroThis is a page to compile, share, and publish research about near-ultraviolet, visible, and near-infrared spectroscopy/spectrometry analysis techniques. Not all will be applicable to our DIY spectrometer, but many are a good starting point for investigation. If you want to publish research, post it on the Public Lab site and you can add it here too. DatabasesFirst, let's start with some already available spectral databases, many of which may be very difficult to search or use, but which can be used as a basis for identification. Perhaps some could eventually be imported into Spectral Workbench.
Compiled researchSome of the below papers describe other types of spectroscopy such as mid-infrared (MIR) or Fourier-transform infrared (FTIR) and the data they present will not be compatible/comparable with that which we gather in the 400-900nm range. But their methodologies may be a useful reference for those looking to reach similar results in the range our instruments can detect. For each use case below, there might be several approaches to analysis. Read more about different kinds of spectrometry such as fluorescence, absorption, and flame emission spectrometry here: Spectral Analysis Techniques Household products
Metals and soil
Atomic emission spectra databases:
Beer/brewing
Wine & grapes
Coffee
Coral/Aquariums/Grow lights
Agricultural uses
DNA/RNAAstronomyFood Contamination Detection
Color matching
|
Revert | |
20 | warren |
August 01, 2013 07:26
| over 11 years ago
IntroThis is a page to compile, share, and publish research about near-ultraviolet, visible, and near-infrared spectroscopy/spectrometry analysis techniques. Not all will be applicable to our DIY spectrometer, but many are a good starting point for investigation. If you want to publish research, post it on the Public Lab site and you can add it here too. DatabasesFirst, let's start with some already available spectral databases, many of which may be very difficult to search or use, but which can be used as a basis for identification. Perhaps some could eventually be imported into Spectral Workbench.
Compiled researchSome of the below papers describe other types of spectroscopy such as mid-infrared (MIR) or Fourier-transform infrared (FTIR) and the data they present will not be compatible/comparable with that which we gather in the 400-900nm range. But their methodologies may be a useful reference for those looking to reach similar results in the range our instruments can detect. For each use case below, there might be several approaches to analysis. Read more about different kinds of spectrometry such as fluorescence, absorption, and flame emission spectrometry here: Spectral Analysis Techniques Household products
Metals and soil
Atomic emission spectra databases:
Beer/brewing
Wine & grapes
Coffee
Coral/Aquariums/Grow lights
Agricultural uses
DNA/RNAAstronomyFood Contamination Detection
Color matching
|
Revert | |
19 | warren |
July 31, 2013 15:09
| over 11 years ago
IntroThis is a page to compile, share, and publish research about near-ultraviolet, visible, and near-infrared spectroscopy/spectrometry analysis techniques. Not all will be applicable to our DIY spectrometer, but many are a good starting point for investigation. If you want to publish research, post it on the Public Lab site and you can add it here too. DatabasesFirst, let's start with some already available spectral databases, many of which may be very difficult to search or use, but which can be used as a basis for identification. Perhaps some could eventually be imported into Spectral Workbench.
Compiled researchSome of the below papers describe other types of spectroscopy such as mid-infrared (MIR) or Fourier-transform infrared (FTIR) and the data they present will not be compatible/comparable with that which we gather in the 400-900nm range. But their methodologies may be a useful reference for those looking to reach similar results in the range our instruments can detect. For each use case below, there might be several approaches to analysis. Read more about different kinds of spectrometry such as fluorescence, absorption, and flame emission spectrometry here: Spectral Analysis Techniques Household products
Metals and soil
Atomic emission spectra databases:
Beer/brewing
Wine & grapes
Coffee
Coral/Aquariums/Grow lights
Agricultural uses
DNA/RNAAstronomyFood Contamination Detection
Color matching
|
Revert | |
18 | warren |
November 30, 2012 17:32
| about 12 years ago
IntroThis is a page to compile, share, and publish research about near-ultraviolet, visible, and near-infrared spectroscopy/spectrometry analysis techniques. Not all will be applicable to our DIY spectrometer, but many are a good starting point for investigation. If you want to publish research, post it on the Public Lab site and you can add it here too. Some of the below papers describe other types of spectroscopy such as mid-infrared (MIR) or Fourier-transform infrared (FTIR) and the data they present will not be compatible/comparable with that which we gather in the 400-900nm range. But their methodologies may be a useful reference for those looking to reach similar results in the range our instruments can detect. For each use case below, there might be several approaches to analysis. Read more about different kinds of spectrometry such as fluorescence, absorption, and flame emission spectrometry here: Spectral Analysis Techniques Household products
Metals and soil
Atomic emission spectra databases:
Beer/brewing
Wine & grapes
Coffee
Coral/Aquariums/Grow lights
Agricultural uses
DNA/RNAAstronomyFood Contamination Detection
Color matching
|
Revert | |
17 | warren |
October 16, 2012 20:16
| about 12 years ago
IntroThis is a page to compile, share, and publish research about near-ultraviolet, visible, and near-infrared spectroscopy/spectrometry analysis techniques. Not all will be applicable to our DIY spectrometer, but many are a good starting point for investigation. If you want to publish research, post it on the Public Lab site and you can add it here too. Some of the below papers describe other types of spectroscopy such as mid-infrared (MIR) or Fourier-transform infrared (FTIR) and the data they present will not be compatible/comparable with that which we gather in the 400-900nm range. But their methodologies may be a useful reference for those looking to reach similar results in the range our instruments can detect. For each use case below, there might be several approaches to analysis. Read more about different kinds of spectrometry such as fluorescence, absorption, and flame emission spectrometry here: Spectral Analysis Techniques Household products
Metals and soil
Beer/brewing
Wine & grapes
Coffee
Coral/Aquariums/Grow lights
Agricultural uses
DNA/RNAAstronomyFood Contamination Detection
Color matching
|
Revert | |
16 | warren |
October 05, 2012 15:36
| about 12 years ago
IntroThis is a page to compile, share, and publish research about near-ultraviolet, visible, and near-infrared spectroscopy/spectrometry analysis techniques. Not all will be applicable to our DIY spectrometer, but many are a good starting point for investigation. If you want to publish research, post it on the Public Lab site and you can add it here too. Some of the below papers describe other types of spectroscopy such as mid-infrared (MIR) or Fourier-transform infrared (FTIR) and the data they present will not be compatible/comparable with that which we gather in the 400-900nm range. But their methodologies may be a useful reference for those looking to reach similar results in the range our instruments can detect. Household products
Metals and soil
Beer/brewing
Wine & grapes
Coffee
Coral/Aquariums/Grow lights
Agricultural uses
DNA/RNAAstronomyFood Contamination Detection
Color matching
|
Revert | |
15 | warren |
October 05, 2012 15:31
| about 12 years ago
IntroThis is a page to compile, share, and publish research about near-ultraviolet, visible, and near-infrared spectroscopy/spectrometry analysis techniques. Not all will be applicable to our DIY spectrometer, but many are a good starting point for investigation. If you want to publish research, post it on the Public Lab site and you can add it here too. Some of the below papers describe other types of spectroscopy such as mid-infrared (MIR) or Fourier-transform infrared (FTIR) and the data they present will not be compatible/comparable with that which we gather in the 400-900nm range. But their methodologies may be a useful reference for those looking to reach similar results in the range our instruments can detect. Household products
Metals and soil
Beer/brewing
Wine & grapes
Coffee
Coral/Aquariums/Grow lights
Agricultural uses
DNA/RNAAstronomyFood Contamination Detection
Color matching
|
Revert | |
14 | warren |
September 26, 2012 13:57
| over 12 years ago
IntroThis is a page to compile, share, and publish research about near-ultraviolet, visible, and near-infrared spectroscopy/spectrometry analysis techniques. Not all will be applicable to our DIY spectrometer, but many are a good starting point for investigation. If you want to publish research, post it on the Public Lab site and you can add it here too. Some of the below papers describe other types of spectroscopy such as mid-infrared (MIR) or Fourier-transform infrared (FTIR) and the data they present will not be compatible/comparable with that which we gather in the 400-900nm range. But their methodologies may be a useful reference for those looking to reach similar results in the range our instruments can detect. Household products
Metals and soil
Beer/brewing
Wine & grapes
Coffee
Coral/Aquariums/Grow lights
Agricultural usesDNA/RNAAstronomyFood Contamination Detection
Color matching
|
Revert | |
13 | warren |
September 22, 2012 14:31
| over 12 years ago
IntroThis is a page to compile, share, and publish research about near-ultraviolet, visible, and near-infrared spectroscopy/spectrometry analysis techniques. Not all will be applicable to our DIY spectrometer, but many are a good starting point for investigation. If you want to publish research, post it on the Public Lab site and you can add it here too. Some of the below papers describe other types of spectroscopy such as mid-infrared (MIR) or Fourier-transform infrared (FTIR) and the data they present will not be compatible/comparable with that which we gather in the 400-900nm range. But their methodologies may be a useful reference for those looking to reach similar results in the range our instruments can detect. Household products
Metals and soil
Beer/brewing
Wine & grapes
Coffee
Coral/Aquariums/Grow lights
Agricultural usesDNA/RNAAstronomyFood Contamination Detection
Color matching
|
Revert | |
12 | warren |
September 20, 2012 23:58
| over 12 years ago
IntroThis is a page to compile, share, and publish research about near-ultraviolet, visible, and near-infrared spectroscopy/spectrometry analysis techniques. Not all will be applicable to our DIY spectrometer, but many are a good starting point for investigation. If you want to publish research, post it on the Public Lab site and you can add it here too. Some of the below papers describe other types of spectroscopy such as mid-infrared (MIR) or Fourier-transform infrared (FTIR) and the data they present will not be compatible/comparable with that which we gather in the 400-900nm range. But their methodologies may be a useful reference for those looking to reach similar results in the range our instruments can detect. Household products
Metals and soil
Beer/brewing
Wine & grapes
Coffee
Coral/Aquariums/Grow lights
Agricultural usesDNA/RNAAstronomyFood Contamination Detection
|
Revert | |
11 |
September 20, 2012 08:13
| over 12 years ago
IntroThis is a page to compile, share, and publish research about near-ultraviolet, visible, and near-infrared spectroscopy/spectrometry analysis techniques. Not all will be applicable to our DIY spectrometer, but many are a good starting point for investigation. If you want to publish research, post it on the Public Lab site and you can add it here too. Some of the below papers describe other types of spectroscopy such as mid-infrared (MIR) or Fourier-transform infrared (FTIR) and the data they present will not be compatible/comparable with that which we gather in the 400-900nm range. But their methodologies may be a useful reference for those looking to reach similar results in the range our instruments can detect. Household products
Metals and soil
Beer/brewing
Wine & grapes
Coffee
Coral/Aquariums/Grow lights
Agricultural usesDNA/RNAAstronomyFood Contamination Detection
|
Revert | ||
10 |
September 20, 2012 08:11
| over 12 years ago
IntroThis is a page to compile, share, and publish research about near-ultraviolet, visible, and near-infrared spectroscopy/spectrometry analysis techniques. Not all will be applicable to our DIY spectrometer, but many are a good starting point for investigation. If you want to publish research, post it on the Public Lab site and you can add it here too. Some of the below papers describe other types of spectroscopy such as mid-infrared (MIR) or Fourier-transform infrared (FTIR) and the data they present will not be compatible/comparable with that which we gather in the 400-900nm range. But their methodologies may be a useful reference for those looking to reach similar results in the range our instruments can detect. Household products
Metals and soil
Beer/brewing
Wine & grapes
Coffee
Coral/Aquariums/Grow lights
Agricultural usesDNA/RNAAstronomyFood Contamination Detection
|
Revert |