Resources

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Publication

12.11.2025

A Web Platform Unifying Experimental Developability Data with in silico Predictions to Accelerate Therapeutic Antibody Discovery

Every day seems to bring a fresh wave of new assays and in silico models, bringing also more fragmentation and complexity. Teams spend more time comparing outputs than learning from them.

Author(s):

Apoha

Publication

12.11.2025

Mapping Antibody Behaviour: Multi-Dimensional Data for Developability

We present Liquid Brain®, a liquid-state machine inspired by neuronal signal processing that maps antibody behaviour by generating thermodynamic state diagrams.

Author(s):

Apoha

Publication

16.5.2025

A High-Dimensional Interfacial Wave Assay for Early Biophysical Profiling of Therapeutic Antibodies

We introduce the Variations of Interfacial Behaviour and its Evolution (VIBE) assay—a high-dimensional biophysical measurement inspired by the thermodynamics of biological signalling. In each assay, an antibody sample stimulates an excitable liquid interface held near a thermodynamic phase transition

Author(s):

Apoha

Podcast

24.4.2019

What do nerves sound like?

Our nerves don’t stop talking. They’re 24-7 communication systems for our bodies. But does all this cellular chitter-chatter actually make a noise?

Author(s):

Oxford Sparks x Shamit Shrivastava

Publication

1.1.2014

Non-linear solitary sound waves in lipid membranes and their possible role in biological signaling.

Biological macromolecules self-assemble under entropic forces to form a dynamic 20 interfacial medium where the elastic properties arise from the curvature of the entropic potential of the interface.

Author(s):

Shrivastava S.

Publication

12.7.2023

Optimization of a Hydrodynamic Computational Reservoir through Evolution

As demand for computational resources reaches unprecedented levels, research is expanding into the use of complex material substrates for computing.

Author(s):

Shrivastava S., et. al.

Publication

6.9.2014

Evidence for two-dimensional solitary sound waves in a lipid controlled interface and its implications for biological signalling

Biological membranes by virtue of their elastic properties should be capable of propagating localized perturbations analogous to sound waves. However, the existence and the possible role of such waves in communication in biology remain unexplored.

Author(s):

Shrivastava S., Schneider M.

Publication

12.7.2023

A new paradigm of reservoir computing exploiting hydrodynamics

Nonlinear waves have played a significant role in the development of the science of complexity throughout history.

Author(s):

Shrivastava S., Caramazza P. & Marcucci G.

Media Mention

1.4.2018

Brain Cells Communicate with Mechanical Pulses, Not Electric Signals

Physicists who have revived experiments from 50 years ago say nerve cells communicate with mechanical pulses, not electric ones

Author(s):

Douglas Fox

Talk to us

Resources

A Web Platform Unifying Experimental Developability Data with in silico Predictions to Accelerate Therapeutic Antibody Discovery

Mapping Antibody Behaviour: Multi-Dimensional Data for Developability

A High-Dimensional Interfacial Wave Assay for Early Biophysical Profiling of Therapeutic Antibodies

What do nerves sound like?

Non-linear solitary sound waves in lipid membranes and their possible role in biological signaling.

Optimization of a Hydrodynamic Computational Reservoir through Evolution

Evidence for two-dimensional solitary sound waves in a lipid controlled interface and its implications for biological signalling

A new paradigm of reservoir computing exploiting hydrodynamics

Brain Cells Communicate with Mechanical Pulses, Not Electric Signals

What if a machine could help you feel the true texture of a material, the taste of an ingredient, the efficacy of a new drug?