electricity – Latest News

Scientists develop method to turn your FECES into ‘clean’ electricity

admin — Sat, 09 Sep 2023 05:49:36 +0000

Scientists, bioelectronics engineers, said they have created a strain of the deadly E-coli bacteria that can generate electricity as the microbe thrives off raw sewage.

The breakthrough could not only revolutionize sustainable energy efforts but could transform the well-over 640 billion pounds of human excrement produced each year into a literal gold mine for utility companies.

Electricity has often been generated from rushing water passed turbines, as with hydroelectric dams, or rushing heated steam passed turbines, as with nuclear power and some coal and natural gas-fired plants.

But this new method, which dips two electrodes into a stream of contaminated water, uses a new genetically over-powered version of the E-coli bacteria’s usual electrochemical activity to generate an electric current from sewage to the wires.

E-coli is a wide and diverse group of bacteria that exists in both human and animal intestines, as well as out in nature, where it feasts on decaying organic material.

The news comes amid ever-more surprising innovations in the field of sustainable energy, including CalTech’s MAPLE spacecraft which proved, in a test made public this June, that it could beam solar energy back to earth from space.

Scientists said they have created a strain of the deadly E-coli bacteria that can generate electricity as the microbe thrives off raw sewage. Above, flasks containing the electricity-producing E. coli, which is three-times better at generating an electricity than typical bacteria

Mohammed Mouhib and Melania Reggente, the study’s lead scientists, posing at their lab at Ecole Polytechnique Federale de Lausanne (EPFL)

The innovation could dramatically reduce the carbon dioxide emissions that have warmed the climate due to electricity generation from the burning of oil, coal and natural gas.

The researchers report that their unique bioengineered E-coli were three-times better at generating an electrical current than typical bacteria.

And, unlike previous methods, this new strain could produce electricity as it digested or metabolized a variety of organic substances, not just human feces.

‘Though there are exotic microbes that naturally produce electricity, they can only do so in the presence of specific chemicals,’ said to Ardemis Boghossian, a professor of chemical engineering at the Ecole Polytechnique Federale de Lausanne (EPFL).

Boghossian, one of two bioelectronic experts at the EPFL who worked on the five-member project, published the results of this E-coli research Friday in the peer-reviewed scientific journal Joule.

She noted that the bacteria’s status as ‘the most widely studied microbe’ is part of what makes these findings so significant.

‘E. coli can grow on a wide range of sources, which allowed us to produce electricity in a wide range of environments,’ Boghossian noted, ‘including from waste water.’

Boghossian and her team used a process known as extracellular electron transfer (EET) to engineer the bacteria to make them highly efficient electric microbes.

The researchers hope to see their results scale to big municipal-level waste treatment and energy production projects. Above, a common device used to transport human excrement to modern sewage systems

Creating this complete EET pathway within E. coli, a feat which they report has eluded others, resulted in a bacteria that produced three-times the electrical current generation of conventional strategies for bioelectric bacteria.

The group managed this trick by integrating components from a type of bacterium famous for generating electricity, Shewanella oneidensis MR-1, with their E-coli.

The result was a microbe with an electrical pathway spanning both the inner and outer membranes of each single-celled organisms, expanding their electrical output.

‘We have set a new record compared to the previous state-of-the-art, which relied only on a partial pathway,’ the study’s lead author Mohammed Mouhib, a doctoral assistant, said.

Unlike previous efforts to bioengineer such bacteria, the new E. coli strain proved capable of producing electricity while metabolizing a variety of organic substrates.

When the team at EPFL tested their new microbe in beer brewery wastewater — from Les Brasseurs, a local brewery in Lausanne — the electric microbes thrived where strains before it had failed.

‘The exotic electric microbes weren’t even able to survive, whereas our bioengineered electric bacteria were able to flourish exponentially by feeding off this waste,’ according to Boghossian.

They hope to see their results scale up to big municipal-level waste treatment and energy production projects.

‘Instead of putting energy into the system to process organic waste,’ Boghossian said, ‘we are producing electricity while processing organic waste at the same time, hitting two birds with one stone.’

The EPFL team said the implications of their study extend beyond waste treatment.

They believe that the engineered E-coli could help power microbial fuel cells and operate special bio-sensors.

‘Our work is quite timely, as engineered bioelectric microbes are pushing the boundaries in more and more real-world applications,’ Mouhib said.

He expressed hope that progress in this field might become more regular.

‘With all the current research efforts in the field, we are excited about the future of bioelectric bacteria,’ Mouhib said, ‘and can’t wait for us and others to push this technology into new scales.’

Scientists can now control human DNA with electricity using new tech that ‘sparks genes

admin — Wed, 02 Aug 2023 06:17:26 +0000

Scientists can now control human DNA with electricity using new tech that ‘sparks genes back to life’

By Matthew Phelan For Dailymail.Com

Updated: 18:13 EDT, 1 August 2023

Scientists have for the first time managed to control human DNA with electricity in what could be a breakthrough.

A team in Switzerland successfully switched human genes on and off using electrical currents from two, medical-grade acupuncture needles.

The stimulating zaps helped activate insulin-producing genes, created using gene therapy methods that the Swiss team has developed for over the past five years.

The researchers called their new tech the ‘missing link’ for gene-based therapies.

But the hope is that this ‘electrogenetic’ method could revolutionize wearable tech — everything from medical devices to fitness trackers to prosthetics — creating an entirely new pathway for electronic devices to communicate with the human body.

Using fluorescent microscopy to illuminate the production of insulin, the researchers were able to show just how successful their method was at activating the insulin producing genes. The image at right shows the results of stimulation with 5 volts for 20 seconds across 72 hours

The biosystems engineers at ETH Zürich, a public research university in Switzerland, were able to successfully activate human DNA using electrical currents from two, medical-grade acupuncture needles — equipment already approved by the World Health Organization (WHO)

The system, dubbed ‘direct current (DC)-actuated regulation technology’ (DART), enables communication between electronic and biological systems that had been ‘largely incompatible’ before.

‘Electronic and biological systems function in radically different ways and are largely incompatible due to the lack of a functional communication interface,’ the team said in their new study, published Monday in Nature Metabolism.

‘Biological systems are analog, programmed by genetics, updated slowly by evolution and controlled by ions flowing through insulated membranes,’ the scientists explained.

‘Electronic systems,’ they wrote, in contrast, ‘are digital, programmed by readily updatable software and controlled by electrons flowing through insulated wires.’

Working out of ETH Zürich, a public research university in Switzerland, the researchers developed an intentionally simple system that uses World Health Organization (WHO)-approved and US Food and Drug Administration (FDA)-licensed acupuncture needle electrodes to deliver modest life-saving jolts.

Their DART system, according to the study, only has to deliver 10 seconds of DC current at 4.5 volts once per day to stimulate enough insulin production to regulate blood-sugar levels for diabetics.

The battery-powered DART interface essentially splits tiny amounts of water inside human cells into highly electrically charged ions, or ‘reactive oxygen species’ using the oxygen in ordinary H2O.

The team, led by molecular biologist Jinbo Huang at ETH Zürich, was able to fine-tune sub-cellular elements via gene-therapy injections — including the ‘Kelch-like ECH-associated protein 1’ — into helping them produce insulin in response to these charged oxygen molecules.

Specifically, they created synthetic ‘antioxidant-response elements’ (AREs) which would activate specially made, insulin-producing theraputic transgenes.

The AREs would thus help make insulin in the course of doing their normal duties, attempting to tamp down those highly charged oxygen ions, as created by the acupuncture electrodes.

Huang and his team were able to show that the DART system could activate insulin-producing gene-based therapies that had been injected into human embryonic kidney cells, human stem cells, and various lab rodent models.

This ETH Zürich group hopes that their DART system will ‘set the stage for wearable-based electro-controlled gene expression.’

DART, they wrote, has ‘the potential to connect medical interventions to an internet of the body or the internet of things.’

electricity – Latest News

Scientists develop method to turn your FECES into ‘clean’ electricity

Scientists can now control human DNA with electricity using new tech that ‘sparks genes

Scientists can now control human DNA with electricity using new tech that ‘sparks genes back to life’

Share or comment on this article: