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Bibliography

  • [1] OWEN, Tony. Fundamentals of UV-visible spectroscopy. 2000.
  • [2] GONZÁLEZ-MORALES, David, et al. Development of a low-cost UV-Vis spectrophotometer and its application for the detection of mercuric ions assisted by chemosensors. Sensors, 2020, 20.3: 906.
  • [3] KOVARIK, Michelle L.; CLAPIS, Julia R.; ROMANO-PRINGLE, K. Ana. Review of student-built spectroscopy instrumentation projects. Journal of Chemical Education, 2020, 97.8: 2185-2195.
  • [4] WANG, Yi, et al. Smartphone spectrometer for colorimetric biosensing. Analyst, 2016, 141.11: 3233-3238.
  • [5] LEMA, Martín A.; ALJINOVIC, Ernesto M.; LOZANO, Mario E. Using a homemade spectrophotometer in teaching biosciences. Biochemistry and Molecular Biology Education, 2002, 30.2: 106-110.
  • [6] KOLESNICHENKO, Pavel V., et al. Viking spectrophotometer: a home-built, simple, and cost-efficient absorption and fluorescence spectrophotometer for education in chemistry. Journal of Chemical Education, 2023, 100.3: 1128-1137.
  • [7] KNAGGE, Kevin; RAFTERY, Daniel. Construction and evaluation of a LEGO spectrophotometer for student use. The Chemical Educator, 2002, 7.6: 371-375.
  • [8] ALBERT, Daniel R.; TODT, Michael A.; DAVIS, H. Floyd. A low-cost quantitative absorption spectrophotometer. Journal of Chemical Education, 2012, 89.11: 1432-1435.