Organization profile

Organisation profile

The Centre for Biosensors, Bioelectronics and Biodevices (C3Bio) brings together a critical mass of researchers from engineering, physical, life and social sciences working on different aspects of biosensors (sensing elements and techniques), bioelectronics (electrophysiology and bioelectronic circuits) and biodevices (device co-design and integration).

The Centre’s research mission is to:

develop technology that improves biomedical diagnosis, environmental monitoring, industrial bioprocesses and scientific understanding of biological functions;
bridge the gap between different disciplines converging into fit-for-purpose devices;
achieve real-life impact with its research, addressing specific clinical, environmental and industrial needs.

Fingerprint The fingerprint is based on mining the text of the scientific documents related to the associated persons. Based on that an index of weighted terms is created, which defines the key subjects of research unit

Fluorescence Chemical Compounds

Water Chemical Compounds

Electrodes Engineering & Materials Science

Cellulose Chemical Compounds

Silicon Dioxide Chemical Compounds

Sensors Engineering & Materials Science

Microfluidics Engineering & Materials Science

Biosensors Engineering & Materials Science

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Profiles

Tareq Assaf

T.Assaf@bath.ac.uk

Department of Electronic & Electrical Engineering - Lecturer in Robotics Engineering
Centre for Biosensors, Bioelectronics and Biodevices (C3Bio)

Person: Academic

Stefan Bagby

S.Bagby@bath.ac.uk

Person: Academic

Chris Bowen

C.R.Bowen@bath.ac.uk

Person: Academic

Projects 2017 2023

1 Finished
1 Not started
16 Active

GCRF - SmARTER: Sustainable Approaches for Resilience Building in North East Brazil

Di Lorenzo, M., Wenk, J., Kjeldsen, T. & Scott, J.

1/11/18 → 31/07/19

Project: Other › Internally Funded Research

GCRF - Metrology for All

Bowman, R. & Stirling, J.

1/11/18 → 31/07/19

Project: Other › Internally Funded Research

GCRF - Bio-inspired, Smart, Stable Enzymatically Driven Antimicrobials, Designed not to Increase Antimicrobial Resistance (BioSSEA)

Scott, J. & Edler, K.

1/11/18 → 31/07/19

Project: Other › Internally Funded Research

Research Output 1993 2019

4D ECT Scanning with a Combined Sensor

Chittenden, C. & Soleimani, M., 2018.

Research output: Contribution to conference › Paper

Acute aerobic exercise induces a preferential mobilisation of plasmacytoid dendritic cells into the peripheral blood in man.

Brown, F. F., Campbell, J. P., Wadley, A. J., Fisher, J. P., Aldred, S. & Turner, J. E., 1 Oct 2018, In : Physiology and Behavior. 194, p. 191-198

Research output: Contribution to journal › Article

Dendritic Cells

Exercise

Myeloid Cells

Population

HLA-DR Antigens

Advanced layout techniques for high-speed analogue circuits in 28 nm HKMG CMOS process

Meng, F., Li, K., Thomson, D., Wilson, P. & Reed, G. T., 8 Mar 2018, In : Electronics Letters. 54, 8, p. 486-488 3 p.

Research output: Contribution to journal › Article

Analog circuits

Transistors

Silicon

Metals

Datasets

Data supporting "Self-assembly and surface behaviour of pure and mixed zwitterionic amphiphiles in a deep eutectic solvent"

Sanchez Fernandez, A. (Creator), Murfin, L. (Creator), Edler, K. (Creator), Lewis, S. (Creator), University of Bath, 8 Jun 2018

DOI: 10.15125/BATH-00523

Dataset

Dataset for "Surfactant controlled zwitterionic cellulose nanofibril dispersions"

Calabrese, V. (Creator), Alves Da Silva, M. (Creator), Schmitt, J. (Creator), Munoz-Garcia, J. (Creator), Gabrielli, V. (Creator), Scott, J. (Creator), Angulo, J. (Creator), Khimyak, Y. Z. (Creator), Edler, K. (Creator), University of Bath, 1 Aug 2018

DOI: 10.15125/BATH-00538

Dataset

Data supporting: Counterion binding alters surfactant self-assembly in deep eutectic solvents

Sanchez Fernandez, A. (Creator), Hammond, O. (Creator), Edler, K. (Creator), University of Bath, 1 May 2018

DOI: 10.15125/BATH-00500

Dataset