Quantum Biology DAO
Quantum BiologyUpcoming DAO

The Quantum Biology DAO accelerates the quantum biology field through community building, open governance, scientific experimentation, research grants, and IP development. Together we will understand and manipulate biology at the quantum level.

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Market Hypothesis

100+

Number of potential therapies that could arise from the deterministic control of weak magnetic fields

$1b+

Market cap of existing companies that use weak magnetic fields without knowing how they work

$0.00

Number of $ spent on Quantum Biology each year by NSF and NIH

Quantum biology unlocks a fundamentally new way to actuate on biology. Understanding the possible quantum-driven behaviors of biological systems could aid in treating injuries or in developing cures for diseases.


Additional documentation

📄 Download litepaper

Weak magnetic fields influence biological cells and there is strong circumstantial evidence that the mechanism is quantum. Quantum consciousness will have to come later; the actual quantum story is that by understanding the physics behind weak magnet...

Research Focus Areas
Electron spin-dependent chemical reactions in biology

Electron spin-dependent chemical reactions in biology

Our technologies allow us to determine if biological processes are controlled by weak magnetic fields and if such chemical reactions are driven by electron spin. If successful, this would mean that spin superpositions survive the wet, hot environment of the cell for long enough to influence function. The applications of this discovery would revolutionize therapeutics, human medicine, and even space travel.


Phonon-assisted molecular recognition

Phonon-assisted molecular recognition

When a "key" molecule "locks" into another molecule, this coupling is thought to have a specific vibrational signature called phonons. Phonons influence a number of molecular properties, including how viruses attach to cells, how neurotransmitters are received by a target cell, and how enzymes catalyze reactions. We apply quantum technology to further understand the relationship between particular phonon energies and molecular recognition.


Chiral-induced spin selectivity under a quantum lens

Chiral-induced spin selectivity under a quantum lens

Chiral-induced spin selectivity is a recently discovered phenomenon that describes how nature has an electron spin preference during electron transport. We use quantum technology to study the transport of electrons with spin "up" or "down", as well as spins in a superposition of both "up" and "down." Advancements in this area will open the door for new quantum technologies inspired by nature.


Team & Community
Clarice D. Aiello, CSO

Clarice D. Aiello, CSO

MIT Ph.D.

Clarice is a quantum engineer interested in how quantum physics informs biology at the nanoscale. Born and raised in Brazil, Clarice obtained a Diplom...

Geoff Anders, CEO

Geoff Anders, CEO

Ph.D.

Geoff Anders is the founder and CEO of Leverage, a research institute established in 2011 to support revolutionary scientific research. With a backgro...

Alessandro Lodesani, COO

Alessandro Lodesani, COO

MIT/Politecnico di Milano Ph.D.

Alessandro Lodesani is the Institute's Chief Operating Officer, overseeing its daily research operations. With a strong background in physics and engi...

@QuantumBioDAO on 𝕏

Discord community

Project Roadmap
Q4 2024
Build early Core Community
Q4 2024
BIO.xyz Accelerator Cohort 2
Q4 2024
Launch of Governance Token
Q1 2025
Build first ever Quantum Biology Microscope
Value Capture Model

The Quantum Biology DAO represents a groundbreaking approach to funding and accelerating scientific research. Through token sales, it establishes a community-owned platform where members collectively own and govern scientific assets. The DAO's treasu...

Value Capture Model Diagram
Recommended Reads
Quantum Biology Ecosystem Briefs

Quantum Biology Ecosystem

Quantum Biology Ecosystem Briefs


It’s Time to Take Quantum Biology Research Seriously

Physics

It’s Time to Take Quantum Biology Research Seriously


Quantum physics proposes a new way to study biology – and the results could revolutionize our understanding of how life works

The Conversation

Quantum physics proposes a new way to study biology – and the results could revolutionize our understanding of how life works


Weak magnetic field effects in biology are measurable—accelerated Xenopus embryogenesis in the absence of the geomagnetic field

biorxiv

Weak magnetic field effects in biology are measurable—accelerated Xenopus embryogenesis in the absence of the geomagnetic field


"How Earth's Weak Magnetic Field Shapes Life: Experiment Reveals Tadpoles’ Surprising Sensitivity and Shifts Scientific Consensus on Biological Effects"

LinkedIN

"How Earth's Weak Magnetic Field Shapes Life: Experiment Reveals Tadpoles’ Surprising Sensitivity and Shifts Scientific Consensus on Biological Effects"