Associate Editors

Molecular computing, reaction-diffusion computing, collision-based computing, cellular automata, slime mold computing, massive parallel computation, applied mathematics, complexity, nature-inspired optimization, collective intelligence and robotics, bionics, computational psychology, nonlinear science, novel hardware, and future and emergent computation

Nanoparticles interfaced with biological systems

Pathology, disease.

Molecular regulatory processes in microorganisms influenced by internal factors like small RNA molecules, supercoiling of DNA, and the circadian clock. Designing and testing synthetic switches, biosensors, and heterologous metabolic pathways.

Nanostructures and nanoparticles interfaced with biological systems, biological nanodevices

Quantum and classical systems, the application of techniques of statistical physics to computation, complexity to other disciplines such as economics and engineering, computation using memristive devices and nanomagnets.

Nanostructures interfaced with biological systems, biological nanodevices, nano (and micro) fluidics, computational modeling and theory

Bioelectronics, biosensors, model biomembranes, nanobiophysics

Nanoscale, molecular communications

Nanoparticles interfaced with biological systems, bionanophotonics

Nanostructures interfaced with biological systems, biological nanodevices, DNA engineering, nano (and micro) fluidics, nanobiophotonics, nanomaterial synthesis for biosensing, hardware and software for data acquisition analysis, IoT for bio-applications.

Nanostructures and particles interfaced with biological systems, bionanophotonics, biological membrane engineering, development of nanobiosensors, development of nanoparticles for biomedical applications, optical and magnetic heating for controlling biological/biotechnological processes by nanoactuation, development of hybrid materials for medical/biotechnological applications

Bionanotechnology, neural engineering, biosensing, sequencing

Biomolecular and cellular computation

Nanoparticles interfaced with biological systems, Supramolecular engineering

Computation in brain networks, the computational study of intracellular metabolic pathways, and neural interfaces

Nanoparticles interfaced with biological systems, biological nanodevices, biomolecular and cellular computation, computational and modeling theory

Nanostructures interfaced with biological systems, nano (and micro) fluidics

Enzymes, nanobiocatalysis

Biomedical measurements and instrumentation

Engineering multilayered nanomedical systems for
multi-step targeting, biosensing, and complex
decision-making; single-cell medicine; single-cell
measures of nanotoxicity; microfluidic cytometry;
organ-on-a-chip models of human disease.

Nanostructures interfaced with biological systems, biological nanodevices, nano (and micro) fluidics, computational modeling and theory

Nano-communication, self-organizing systems

Nanostructures and nanoparticles interfaced with biological systems, nano (and micro) fluidics, bionanophotonics

Nano-, computer networks, molecular communication, information theory, computer simulation, and artificial intelligence.

Tissue engineering, biomechanics, bioMEMS

Nanostructures interfaced with biological systems, biological nanodevices, nano (and micro) fluidics

Molecular simulation and physical modelling

Bioengineering, bio-hybrid systems, microrobotics, bio-materials, regene-rative, nano medicine

Neuroscience, biomedical engineering

Nanostructures and nanoparticles interfaced with biological systems, biological nanodevices, nano (and micro) fluidics, bionanophotonics

Nanostructures and nanoparticles interfaced with biological systems, nano (and micro) fluidics

Nanoparticles interfaced with Biological Systems, biological nanodevices, biomolecular and cellular computation, nano (and micro) fluidics

Nanostructures interfaced with biological systems, bionanophotonics

Nanostructures and nanoparticles interfaced with biological systems, biological nanodevices, bionanophotonics