Pathology, disease.
Molecular communication nano-networks, Information theory in biological signaling networks
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, mesocrystals, energy, environmental
Molecular communications, Nanonetworks, Computational nanobiosensing, In vivo computation, Information and communications technology for nanomedicine
Nanostructures interfaced with biological systems, nanoparticles interfaced with biological systems, biological nanodevices, biomolecular Engineering; biosensors, 3D printing/3D culturing, micro/nanofabrication, cancer, cell studies.
Bioelectronics, biosensors, model biomembranes, nanobiophysics
Nanoscale, molecular communications
Micro/Nano sensors, microfluidics, nano drug delivery applications and Micro/nnao fabrication
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
Biomolecular and cellular computation
Biomolecular and cellular computation, biosensors
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
Nanostructure and nanoparticles interfaced with biological systems, biological nanodevices, nano (and micro) fluidics, micro-/nano- fabrication
Biomedical engineering, nanotechnology, biotechnology, hybrid technology, interfacing technology, nanotechnology
Enzymes, nanobiocatalysis
Nanostructures and particles interfaced with biological systems, biological nanodevices, nano (and micro) fluidics, bionanophotonics, biomolecular engineering; biosensors, computational and modeling theory, molecular modeling, bioelectronics, micro-/nano- fabrication, tissue engineering, neurosciences, biomedical instrumentation, luminescence, cancer, cell studies, neuroscience, MEMS, quantum
Biomedical measurements and instrumentation
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
Microbiota, food pathogens, antimicrobial, bioactive compounds, host pathogen interaction
Molecular simulation and physical modelling
Areas of research include transcription biology, pathogenesis, molecular microbiology, and more recently biocomputation.
Nanoscale Transistors TFET, FinFET Devices, MEMS, Bio-MEMS, Bio-Engineering, Micro and Nanostructures, Microfluidics etc.
Bioengineering, bio-hybrid systems, microrobotics, bio-materials, regene-rative, nano medicine
Nanostructures interfaced with biological systems, biological nanodevices, 3D printing and culturing, tissue engineering
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
Nanostructures interfaced with biological systems, biological nanodevices, nano (and micro) fluidics, computational modeling and theory
Nanoparticles interfaced with Biological Systems, biological nanodevices, biomolecular and cellular computation, nano (and micro) fluidics
Research interest: molecular communications, DNA-based storage
Nano (and micro) fluidics, biomolecular engineering; biosensors, micro/nanofabrication, biomedical instrumentation, neuroscience, MEMS
Biomolecular engineering, biosensors
Nanostructures and nanoparticles interfaced with biological systems, biological nanodevices, bionanophotonics