A01=Andrew Adamatzky
A01=Panagiotis Mougkogiannis
Abiogenesis
Acoustic Stimulation
Actin-Proteinoid Networks
Action-potential-like Spikes
AdaptiveResponses
Amino Acid Polymers
Author_Andrew Adamatzky
Author_Panagiotis Mougkogiannis
Bio-inspired Computing
Bioelectrical Activity
Bioelectronic Interfaces
Bioinspired Nanonetworks
Biomimetic Materials
Biomineralization
Biophysical Signal Processing
Biopolymer Networks
Boolean Logic Gates
Calcium Carbonate Precipitation
Category=UYQN
Category=UYX
Cellular Nanonetworks
Chemical Computing
Chemical Signal Processing
Chondroitin Sulfate Modulation
Complex Systems
Conducting Polymers
Cyclic Voltammetry
DissipativeSystems
Electrical Characterization
Electrical Oscillations
Electrophysiology
Emergent Behavior
eq_bestseller
eq_computing
eq_isMigrated=1
eq_isMigrated=2
eq_nobargain
eq_non-fiction
Equivalent Circuit Models
Firing RateDynamics
forthcoming
Frequency Discrimination
Frequency Response
Ftir Spectroscopy
Habituation
Hierarchical Pattern Classification
Hybrid Biological-Synthetic Interfaces
Impedance Spectroscopy
Inter-microsphere Communication
Izhikevich Model
Learning Behavior
Light-induced Spiking
Membrane Potentials
Memfractance
Memory Decay
Memristive Systems
Microspheres
Molecular Computing
Molecular Excitability
Morphological Characterization
N-carboxyanhydrides
Network Architectures
Neural Phenotype Modeling
Neuromorphic Composites
Neuromorphic Computing
Omeprazole Interactions
Optical Alphabet Recognition
Optical Stimulation
Origin Of Life
Pattern Recognition
PhotonicModulation
Polymer Composites
PolymerizationPathways
Prebiotic Chemistry
Prebiotic Polymers
Prebiotic Self-organization
Proteinoid-PANI Composites
Proteinoids
Protocell Models
Protocells
Proton-Motive Force
Protonation-Deprotonation Dynamics
Protoneural Networks
Protoneuron Theory
Qsar Modeling
Reaction-Diffusion Processes
Scanning ElectronMicroscopy
Self-assembly
Serotonin Modulation
Sidney Fox
Soft Robotics
Soft-matter Computing
Sound Recognition
Spatiotemporal Dynamics
Spiking Behavior
Spiking Networks
Spontaneous Oscillations
Supersaturated Solutions
Synthetic Cells
Synthetic Neurobiology
Temporal Coding
Thermal Polymerization
Thermal Proteins
Thermodynamic Gradients
Thermosensory Spiking
Unconventional Computing
Wetware Computing
Product details
- ISBN 9789819826902
- Publication Date: 21 Sep 2026
- Publisher: World Scientific Publishing Co Pte Ltd
- Publication City/Country: SG
- Product Form: Hardback
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Proteinoid Proto-Neural Networks explores the emergence of electrical activity, spiking behavior, and adaptive responses, supported by electrochemical, optical, and acoustic studies that reveal proteinoid-based logic, memory, and learning. It demonstrates how proteinoids, which are synthetic polymers formed from amino acids under high temperature, self-organize into excitable microspheres and assemble into protoneural networks capable of unconventional computation. By blending experimental biophysics with neuromorphic modeling and unconventional computing theory, this monograph establishes proteinoid systems as a platform for wetware computing and the study of emergent intelligence.This book is perfectly suited for researchers in computer science, computer engineering, soft matter physics, novel materials, neuromorphic engineering and computing, as well as those exploring bio-inspired systems, unconventional computing architectures, and the physicochemical foundations of proto-neural behavior.
