Scientists transform a BBQ lighter into a high-tech lab device

Scientists transform a BBQ lighter into a high-tech lab device
This image shows a common butane lighter (left) from which the researchers obtained a piezoelectric component used in the ElectroPen (right), an inexpensive electroporator which has a 3D-printed case. Credit: Christopher Moore, Georgia Tech

Researchers have devised a straightforward technique for building a laboratory device known as an electroporator—which applies a jolt of electricity to temporarily open cell walls—from inexpensive components, including a piezoelectric crystal taken from a butane lighter.

The goal would be to make the low-cost device available to high schools, budget-pressed laboratories and other organizations whose research might otherwise be limited by access to conventional lab-grade electroporators. Plans for the device, known as the ElectroPen, are being made available, along with the files necessary for creating a 3-D-printed casing.

"Our goal with the ElectroPen was to make it possible for high schools, budget-conscious laboratories and even those working in without access to electricity to perform experiments or processes involving electroporation," said M. Saad Bhamla, an assistant professor in Georgia Tech's School of Chemical and Biomolecular Engineering. "This is another example of looking for ways to bypass economic limitations to advance by putting this capability into the hands of many more scientists and aspiring scientists."

In a study to be reported January 9 in the journal PLOS Biology and sponsored by the National Science Foundation and the National Institutes of Health, the researchers detail the method for constructing the ElectroPen, which is capable of generating short bursts of more than 2,000 volts needed for a wide range of laboratory tasks.

One of the primary jobs of a cell membrane is to serve as a protective border, sheltering the inner workings of a living cell from the outside environment.

Scientists transform a BBQ lighter into a high-tech lab device
Georgia Tech undergraduate student Gaurav Byagathvalli and assistant professor Saad Bhamla are shown with examples of butane lighters they used to create the inexpensive ElectroPen - an electroporator device useful in life sciences research. Credit: Christopher Moore, Georgia Tech

But all it takes is a brief jolt of electricity for that membrane to temporarily open and allow foreign molecules to flow in—a process called electroporation, which has been used for decades in molecular biology labs for tasks ranging from bacterial detection to genetic engineering.

Despite how commonplace the practice has become, the high cost of electroporators and their reliance on a source of electricity has kept the technique mostly within the confines of academic or professional labs. Bhamla and undergraduate student Gaurav Byagathvalli set out to change that, with help from collaborators Soham Sinha, Yan Zhang, Assistant Professor Mark Styczynski and Lambert High School teacher Janet Standeven.

"Once we decided to tackle this issue, we began to explore the inner workings of electroporators to understand why they are so bulky and expensive," said Byagathvalli. "Since their conception in the early 1980s, electroporators have not had significant changes in design, sparking the question of whether we could achieve the same output at a fraction of the cost. When we identified a lighter that could produce these high voltages through piezoelectricity, we were excited to uncover new mysteries behind this common tool."

In addition to the piezoelectric lighter crystal—which generates current when pressure is applied to it—the other parts in the device include copper-plated wire, heat-shrinking wire insulator and aluminum tape. To hold it all together, the researchers designed a 3-D-printed casing that also serves as its activator. With all the parts on hand, the device can be assembled in 15 minutes, the researchers reported.

While the ElectroPen is not designed to replace a lab-grade electroporator, which costs thousands of dollars and is capable of processing a broad range of cell mixtures, the device is still highly capable of performing tasks when high volumes are not required.

Scientists transform a BBQ lighter into a high-tech lab device
Georgia Tech undergraduate student Gaurav Byagathvalli and assistant professor Saad Bhamla are shown with examples of the inexpensive ElectroPen -- an electroporator device useful in life sciences research. Credit: Christopher Moore, Georgia Tech

The researchers tested several different lighter crystals to find ones that produced a consistent voltage using a spring-based mechanism. To understand more about how the lighters function, the team used a high-speed camera at 1,057 frames-per-second to view their mechanics in slow motion.

"One of the fundamental reasons this device works is that the piezoelectric crystal produces a consistently-high voltage, independent of the amount of force applied by the user," Bhamla said. "Our experiments showed that the hammer in these lighters is able to achieve acceleration of 3,000 Gs, which explains why it is capable of generating such a high burst of voltage."

To test its capabilities, the researchers used the device on samples of E. coli to add a chemical that makes the bacterial cells fluorescent under special lights, illuminating the cell parts and making them easier to identify. Similar techniques could be used in a lab or in remote field operations to detect the presence of bacteria or other cells.

The team also evaluated whether the device was easy to use, shipping the assembled ElectroPens to students at other universities and high schools.

"The research teams were able to successfully obtain the same fluorescence expression, which I think validates how easily these devices can be disseminated and adopted by students across the globe," Bhamla said.

To that end, the researchers have made available the plans for how to build the , along with digital files to be used by a 3-D printer to fabricate the casing and actuator. Next steps of the research include testing a broader range of lighters looking for consistent voltages across a wider range, with the goal of creating ElectroPens of varying voltages.


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More information: Gaurav Byagathvalli et al. ElectroPen: An ultra-low–cost, electricity-free, portable electroporator, PLOS Biology (2020). https://doi.org/10.1371/journal.pbio.3000589
Journal information: PLoS Biology

Citation: Scientists transform a BBQ lighter into a high-tech lab device (2020, January 10) retrieved 27 May 2020 from https://phys.org/news/2020-01-scientists-bbq-lighter-high-tech-lab.html
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