Learning about Fluorescence in Undergraduate Biochemistry: Enzyme Kinetics Using a Low-Cost, Student-Built Fluorescence Spectrometer

Keithley, Richard B.; Sullivan, Dylan T.; Dodd, John M.; Iyer, Kavya; Sarisky, Catherine A.; Johann, Timothy W.

doi:10.1021/acs.jchemed.1c00912

Cited by 7 publications

(10 citation statements)

References 33 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Nevertheless, a digital camera attached to a tripod is essential for this design, resulting in a bulky device. For this reason, more compact and affordable designs were proposed by replacing the costly high-photosensitivity detector with a typical webcam. − Unfortunately, these webcam-based spectrometers still require an additional power supply and a computer for signal processing and display. Thus, on-site and rapid investigation using a spectrometer is limited.…”

Section: Introductionmentioning

confidence: 99%

A Low-Cost Dual-Beam Smartphone Visible Spectrometer

et al. 2023

View full text Add to dashboard Cite

The optical spectrometer is a widely established and widely used scientific instrument for analyzing biochemical samples. However, it is expensive, bulky, and requires an external power source and a computer to operate, which makes it difficult to use in resourcelimited countries and in remote locations. Advancement in smartphone technology has led to the development of portable, low-cost smartphone-based spectrometers. However, the lack of smartphonebased software and automatic wavelength calibration results in irrelevant workloads for students within the time limit of the course. In addition, most smartphone spectrometers are only able to capture images. As a result, a computer becomes an essential tool for the student to process and analyze the sample spectrum. Unlike many other smartphone-based spectrometers, our developed device also provides a smartphone application for both Android and iOS platforms. Thus, measurement data and data plots are transferrable among smartphones and computers. In addition, the wavelength calibration is carried out automatically using an embedded reference white light LED by the application. Furthermore, the provided 3D-printed parts, part lists, and circuit board are included with an example of an iPhone 7 mount, as well as their assembly instructions. Our developed device features a sufficiently quantitative measurement for wavelength ranges from 411.2 to 700 nm. For the spectral resolution, our device achieved resolutions of 9.8, 13.4, and 21.7 nm at wavelengths of 405, 532, and 650 nm, respectively, when evaluated with an iPhone 7.

show abstract

Section: Introductionmentioning

confidence: 99%

A Low-Cost Dual-Beam Smartphone Visible Spectrometer

et al. 2023

View full text Add to dashboard Cite

show abstract

“…The modern workforce and academic research have become more intensively data-science-driven, requiring skills ranging from fluency in spreadsheets at the most basic level to Python programming or high-throughput data science tools. , Upper division chemistry curricula have responded with coursework in instrumentation and advanced data analysis, , often associated with an analytical, physical, or biochemistry lab . With advanced analysis and computational skills now critical in a variety of fields, there is a growing need to find affordable ways to introduce these skills earlier than the junior and senior years in college. , …”

Section: Introductionmentioning

confidence: 99%

“…2,3 Upper division chemistry curricula have responded with coursework in instrumentation and advanced data analysis, 4,5 often associated with an analytical, 6 physical, 7 or biochemistry lab. 8 With advanced analysis and computational skills now critical in a variety of fields, there is a growing need to find affordable ways to introduce these skills earlier than the junior and senior years in college. 9,10 By the time most students start to see a more in-depth connection between data science and instrumentation in areas like spectroscopy, they may have already fulfilled their chemistry requirements.…”

Section: ■ Introductionmentioning

confidence: 99%

An Instrument Assembly and Data Science Lab for Early Undergraduate Education

et al. 2023

View full text Add to dashboard Cite

As data science and instrumentation become key practices in common careers ranging from medicine to agriscience, chemistry as a core introductory course must introduce such topics to students early and at an accessible level. Advanced data acquisition and data science generally require expensive precision instrumentation and massive computation, often out-of-reach even for upper-level undergraduate laboratory courses. At the same time, a new generation of affordable do-it-yourself instruments presents an opportunity for incorporation of curricula focused on instrument design and computation into freshman-level courses. We present a new lab for integration into existing courses that starts with hands-on spectrometer building, moves to data collection, and finally introduces an advanced data science technique, singular value decomposition, at an appropriate level with minimal computing requirements. The hardware and software used are modular and inexpensive. The lab was tested in three community college general chemistry sections over two semesters. Previously, students taking these courses did not typically see advanced quantitative chemistry curricula before deciding whether to pursue a bachelor's degree. This lab allowed students to practice data collection and organization skills, use prewritten Jupyter notebooks that perform advanced data analysis, and gain presentation skills. A multiwave assessment completed by students highlights both successes and difficulties associated with incorporating multiple advanced topics involving instrument design, data collection, and analysis techniques in a single lab.

show abstract

“…The introduction of spectroscopy in schools worldwide faces a significant challenge: the commercially available analytical instruments are relatively expensive. Moreover, even when available, their educational impact is up to a point questionable, since there is always the problem of students viewing them as black boxes. − In order to diminish instrument cost and properly discuss instrumentation in the classroom, the construction of several do-it-yourself (DIY)-type devices has been reported in the past decade, e.g., spectrophotometers, ,− single wavelength spectrophotometers, − fluorometers, ,,,,,,− atomic emission spectrophotometers, polarimeters, nephelometers, and Raman spectrometers, , many of which contain “smart” phones as optical detectors. − Despite the fact that most of them are well built, their main drawback, when the discussion comes to full wavelength scanning, is that they require time-consuming postprocessing of the acquired spectral images, e.g., with ImageJ, Spectral Workbench, or other relative software.…”

Section: Introductionmentioning

confidence: 99%

Taking School Instrumentation One Step Forward: A Do-It-Yourself Type Spectrophotometer and a Jupyter Notebook That Enable Real Time Spectroscopy during School Lessons

Mitsioni,

Stouras,

Makedonas

2023

J. Chem. Educ.

View full text Add to dashboard Cite

A major obstacle that teachers face when they begin their spectroscopy lessons is the lack of a spectrophotometer, mostly due to its relatively high cost. In the present study, the construction of a low-cost doit-yourself type of instrument is reported. Its construction, as a part of a problem-based scenario, would also help students to enhance their chemical literacy. Moreover, the creation of a Jupyter Notebook called "Spectrophotometry" is also described. With this tool, students and teachers, within a few clicks, will derive absorption and fluorescence spectra and do kinetics studies without any difficulty and the need for timeconsuming data postprocessing software. Finally, the views of a group of students on the construction and ease of use of our spectrophotometer are discussed in detail.

show abstract

Learning about Fluorescence in Undergraduate Biochemistry: Enzyme Kinetics Using a Low-Cost, Student-Built Fluorescence Spectrometer

Cited by 7 publications

References 33 publications

A Low-Cost Dual-Beam Smartphone Visible Spectrometer

A Low-Cost Dual-Beam Smartphone Visible Spectrometer

An Instrument Assembly and Data Science Lab for Early Undergraduate Education

Taking School Instrumentation One Step Forward: A Do-It-Yourself Type Spectrophotometer and a Jupyter Notebook That Enable Real Time Spectroscopy during School Lessons

Contact Info

Product

Resources

About