Alessandro Lodesani (@lodesania) 's Twitter Profile
Alessandro Lodesani

@lodesania

I do science

ID: 1773100754112294912

linkhttps://www.quantumbiology.eco/ calendar_today27-03-2024 21:32:31

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Quantum Biology DAO (@quantumbiodao) 's Twitter Profile Photo

Behind the scenes at the lab in Maryland: Ale and Mike prepping for upcoming experiments 🧲 These snippets from earlier this month show them setting up the Twinleaf MS-1L—a key step in Mike’s upcoming multiomics studies under hypomagnetic conditions. Now that Mike’s trained on

Quantum Biology DAO (@quantumbiodao) 's Twitter Profile Photo

Our communications lead (Kyra) came into this with zero background in quantum biology. So naturally, we've handed her a mic and asked her to explain the optical table components. This is how we're starting to build the quantum microscope (and don't worry, Kyra is not involved in

Quantum Biology DAO (@quantumbiodao) 's Twitter Profile Photo

🧪 At the Quantum Biology Institute, a screening platform for magnetosensitivity in bacterial plates is being built. In this clip, you’ll hear two explanations of what’s going on: One from a confident non-scientist taking a guess, and one from resident scientist Alessandro Lodesani, DAO co-founder

Quantum Biology DAO (@quantumbiodao) 's Twitter Profile Photo

There's room for everyone in quantum biology! Jennilyn, Head of Operations for the Quantum Biology Ecosystem, shares her thoughts on the field and the work underway at the Quantum Biology Institute.

Quantum Biology DAO (@quantumbiodao) 's Twitter Profile Photo

The Quantum Biology Institute’s Head of Biochemistry has been getting things in place at the LA lab, and he’s here to show off the current state of the biology setup. This is DeSci in action. More updates to come! Quantum Biology Institute

Quantum Biology DAO (@quantumbiodao) 's Twitter Profile Photo

🤔 What’s going on here? This is part of the Quantum Biology Institute’s quantum microscope build. Laser light is being sent through a thin glass cable into a setup designed for TIRF microscopy (a method that lights up only the very top layer of a sample). Right now, the team

🤔 What’s going on here?

This is part of the Quantum Biology Institute’s quantum microscope build. Laser light is being sent through a thin glass cable into a setup designed for TIRF microscopy (a method that lights up only the very top layer of a sample).

Right now, the team
Quantum Biology DAO (@quantumbiodao) 's Twitter Profile Photo

At the Quantum Biology Institute, Alessandro Lodesani has taken a big step toward the quantum microscope: successfully testing and calibrating the Institute’s powerful electromagnet. He can now control the magnetic field it produces with Python code. This electromagnet allows the team to test

Quantum Biology DAO (@quantumbiodao) 's Twitter Profile Photo

Humanity is undoubtedly space-bound. But as we consider life beyond Earth, are we paying enough attention to the magnetic fields that surround us? How might biology respond when those fields change? And what will it take to truly thrive beyond our planet?

Humanity is undoubtedly space-bound.

But as we consider life beyond Earth, are we paying enough attention to the magnetic fields that surround us?

How might biology respond when those fields change? And what will it take to truly thrive beyond our planet?