Current Information


Sensors 2017

Smart Chemical and Biological Sensing Technologies
Conference with Exhibition and Posters

Friday 16th June 2017

at The Royal Society of Chemistry, Burlington House, Piccadilly, London


This is the ninth annual AAMG Conference concerning monitoring and analysis using sensor technologies. The conference will examine the design and application of materials and development of smart sensors and technologies for monitoring medical, biological and other related processes.  Sessions will feature presentations by invited speakers supplemented by presentations selected from submission of abstracts, on a variety of topics in the following areas:

  •         Key enabling technologies and monitoring systems for smart sensors.
  •         Electrochemical and optical (colour changing) smart sensors.
  •         Smart sensors and materials for chemical, biochemical and medical monitoring.
  •         Informatics in smart sensing applications – communication and data analysis.

Invited Lectures

 A number of invited speakers will introduce the conference with presentations in the following areas:

  • Electrochemical SERS for the discrimination of DNA from biothreats – Phil Bartlett, Southampton
  • CMOS gas sensors for healthcare – Julian Gardner, Warwick
  • Making smarter biological interfaces for sensing – Paula Mendes, Birmingham
  • Optical molecular imaging – the real-time in-situ detection of bacteria in man – Mark Bradley, Edinburgh
  • Detecting the threat – Licia Dossi, Cranfield
  • Smart sensors for environmental monitoring – Nathan Lawrence, ANB Sensors Ltd

The conference will be supplemented with poster presentations and exhibition.


A one page (A4) abstract (250 words maximum) of the proposed oral or poster presentation must be provided by Friday, 7th April 2017. Please indicate whether your contribution is for an oral or poster session. Contributions will be assessed on merit. Authors will be informed of the Scientific Committee's decision by 21st April 2017, the committee's decision is final. Authors of papers selected for oral sessions will be included in the conference booklet. Papers not chosen for an oral presentation may be included in the poster sessions and in the poster section of the booklet. The format for producing the abstract is available as a PDF below. Abstracts in other formats will not be considered.

Contributions should be forwarded by email to:


Companies who wish to exhibit at this conference are requested to contact the conference secretary at for further details. There will be opportunity for exhibitors to deliver a short (5-10 mins) presentation at this conference.

Poster Abstracts

If you are interested in presenting a poster at the conference please email a one page (A4) abstract,in the format below, of the proposed poster presentation to by the deadine of Monday 12th June 2017.

Conference Information

All authors and presenters will be provided with details of administration arrangements and requirements for presentations. The principal authors of invited presentations and papers selected for oral presentations will have their registration fees waived. A limited number of bursaries may be available for younger participants, particularly to those presenting posters. Each bursary will include a complimentary registration if proof of their status can be provided (e.g. letter from supervisor). These would be awarded on a first come first served basis and preference will be given to those who submit papers for poster session.

Registration fees for the one-day conference will be £65 for members of RSC and affiliated societies, £95 for non-members of RSC and affiliated societies and £35 for student researchers. Advanced delegate registration information may be obtained from the AAMG website or by contacting the conference secretary at

Scientific Committee

Dr R. Gupta, Dr M.G.Baron, Professor K.C.Persaud and Dr R. Narayanaswamy

Abstract Guidelines Call for Papers PDF









Sensors 2016

Wearable Smart Sensors and Technologies
Conference with Exhibition and Posters

Tuesday, 21st June 2016

held at the Royal Society of Chemistry Lecture Theatre 
Burlington House, Piccadilly, London W1J 0BA

A Conference Report   by Timothy O'Brien – University of Lincoln

The conference was held in two sessions with six presentations each, and its topic was Wearable Smart Sensors and Technologies, and these varied considerably in the sensing platform as well as in the intended use. The presenters were from universities across the UK and the Republic of Ireland, with conference attendees from the UK, Republic of Ireland, Greece and Switzerland.

Session 1:

The opening presentation was by Dr Daniel Roggen's (University of Sussex), an overview of the state of so-called wearables, which have multiple applications and definitions. General descriptors in wearable technologies often include a seamless design, personalisation, invisibility (or unobtrusiveness) and intuition.Sensors 2016 1 The examples of the applications ranged from assistance with Parkinsonian gait by way of motion sensing and audio cues to potential lifestyle or diet changes with a hypothetical wearable able to understand the context of an environment rather than simply measuring particular metrics.

Dr Stephen Morgan (University of Nottingham) presentation was on the use of photonic and conductive textiles in applications ranging from reflectance-based sensing (e.g. traditional pulse oximeter), capillary refill times (automated sensing) and monitoring foot conditions to identify conditions likely to lead to foot ulcers in diabetic patients. A funcitonalised optical fiber—one modified with either functional layers or a grating structure can operate as a number of different sensors including measuring temperature, humidity or pH. These sensors could be applied to wound dressings for which information regarding the conditions of the wound can be determined without removing the dressing and therefore will leave the wound environment undisturbed.

Dr Niko Münzenrieder (University of Sussex) presented the development of flexible circuits intended to eventually be used in flexible and stretchable everyday items, such as textiles, or even on the skin. Sensors 2016 2The flexibility of the thinnest circuit described (on 1 µm thin parylene membrane) is able to bend around a human hair. Additionally, the circuit is largely transparent, and Dr Münzenrieder gave an example of a smart contact lens using the circuit for glaucoma monitoring.

Dr Elizabeth Rendon-Morales (University of Sussex) highlighted the lack of sensing technologies to monitor the electrocardiogram (ECG) of living organisms during their early development in a non-invasive and non-destructive manner. Dr Rendon-Morales described a sensor based on Electric Potential Sensing (developed and patented by the University of Sussex) that demonstrates ECG activity of zebrafish embryos (used as model organisms for this process) as early as three days post-fertilization without the need for an invasive process. Dr Rendon-Morales indicated this could provide a pathway to monitoring the ECGs of other embryonic organisms remotely.

Dr Emer Duffy (Dublin City University) presented a wearable device designed to capture volatiles released through human skin. Monitoring of these volatiles provides a non-invasive method to communicate information regarding the health of the subject (including disease detection, wound healing and more). The wearable consisted of a solid-phase micro extraction fibre attached in a housing which provided a pre-concentration step, which is necessary due to the low concentrations of the liberated volatiles. Dr Duffy stated that searches for relevant biomarkers present in the volatiles were currently underway.

Desiree Acha (Middlesex University) described the current challenges in the medical diagnosis of dementia—specifically Alzheimer’s disease Sensors 2016 3as it is the most prevalent. She described a biosensor using electrochemical impedance spectroscopy with exceptionally high sensitivity for existing biomarkers related to Alzheimer’s. The intent for the biosensor is for use in affordable early detection and diagnosis of dementia.

Session 2:

Dr Michael Lones (Heriot-Watt University) spoke about the use of smart sensors for the management of dyskinesia—involuntary movements as a side effect of a common treatment of Parkinson’s. Unlike many of the previous presentations, the measurement methods were not the focus. Motion sensors were used to gather the data, but rather the emphasis was on the interpretation of this complex data. Evolutionary algorithms were used to distinguish movements due to dyskinesia from other sources, with the results connected wirelessly to a mobile phone. The intent is to provide valuable information to clinicians regarding patient data that was previously unavailable in order to adjust treatment dosages for specific patients.

Dr Toby Jenkins (University of Bath) described two medical devices with potential theranostic (therapeutic and/or diagnostic) effects. One device functions as an indicator when a wound has become infected with common bacteria. The device autonomously prompts a visual cue on the bandage when the wound condition reaches a certain infection level. The trigger takes advantage of cytolytic enzyme secretion from the bacteria, and a self-quenching effect is observed in carboxyflouorescin. The second device functions as a warning system for patients infected with a bacteria responsible for the majority of nosocomial urinary tract infections. Similarly, a visible event takes place when a trigger occurs—in this case the pH of the urine increases as a result of the bacteria.

Professor Liudi Jiang (University of Southampton) presented on the disparity between the lower limb development and amputee satisfaction over the past few decades. This gap is primarily due to the lack of significant development in the body-socket interface. Sensors 2016 4The morphology of the amputated limbs is inconsistent between individuals, and therefore a customized socket fitting is important for the overall comfort of the prosthetic limb user. Prof. Jiang described pressure sensors placed in a tri-axial arrangement to assist in identifying susceptible areas and to improve the fit of lower limb prosthetics.

Professor Ahmad Al-Shamma’a (Liverpool John Moores University) highlighted the increase in popularity of wearables that do not provide detailed health information to their users. He explained that existing biosensors can provide a multitude of practical information but are currently not available in a wearable format. Prof Al-Shamma’a also described the use of electromagnetic waves in the microwave region for a wide variety of real-time monitoring applications. At the conclusion of the presentation, he discussed the development of Sensor City, a planned site of innovation for academics and industry ( please copy the link and paste in to your browser.

Dr Sally Gowers (Imperial College London) presented the issues stemming from a lack of donor organs, specifically kidneys, compared with the need for these organs. Dr Gowers described a portable system that can travel with the donor organ to continuously monitor tissue health on the basis of metabolic markers. The system uses modified electrodes and micro dialysis and connects wirelessly to a tablet computer for data transfer.

Dr Aoife Morrin (Dublin City University) closed the afternoon session with her presentation on the use of a conductive ‘smart tattoo’ produced from a silver ink to form a concentric electrode. Using AC impedance yields information regarding the moisture content of the skin, which is applicable for suffers of conditions such as atopic dermatitis which causes chronic dehydration.Sensors 2016 5

Two posters were also displayed at the conference. One focused on comparing a number of low-cost sensors to determine exposure to environmental hazards, specifically for mothers with young children. The second poster was related to the presentation given by Dr Gowers regarding the portable system to monitor organ viability in real time.

The exhibitor presentations at the conference, held in Session 1, were by Hamamatsu Photonics UK Ltd and NanoFlex. Hamamatsu is a photonics-based company producing a range of light-detecting sensors including mini-spectrometers, image sensors (CCD, CMOS, NMOS, etc.) and photomultiplier tubes. A number of other light emitting products such as lamps, LEDs and light sources are produced by the company as well. NanoFlex produces electrodes that are 100—1000 times more sensitive than traditional electrodes (100µm disc electrodes). These electrodes are functionally similar to traditional electrodes, although flexible options are also available. While NanoFlex does not develop products containing the electrodes, they are intended to be used as components in the developments of biosensors and other products using electrochemistry.

Additionally there was a demonstration of a device developed by the University of York (presented by Amir Dehsarvi), which was a LID-Monitor that offers a safe, simple and unobtrusive way of monitoring dyskinesia in the home environment. The device utilises six small wireless sensors placed on the arms, legs, head and trunk that continually monitors patient’s movements associated with dyskinesia and symptoms of Parkinson’s disease are recognized. The information from the sensors are automatically uploaded via a smart phone to a remote secure server to interpret the data presented in the form a graphical report.

In summary, the Wearable Smart Sensors and Technologies Conference contained a variety of different sensing platforms with a wide range of applications. The recent developments in sensors research hold exciting prospects for the medical industry. Conference attendees engaged with presenters in relevant discussions regarding the topic of the presentation. The meeting provided ample opportunity for all concerned to hold informal discussions and the participation of many of the leading UK research groups in the field initiated a number of new collaborations.    

-Photos by Mr John Trigg


Sensors 2016 Booklet of Abstracts    












Monitoring Ambient Air 2015

Air Quality Monitoring 
Evolving Issues and New Technologies

Conference with Exhibition and Posters

held on 9th & 10th December 2015
at The Royal Society of Chemistry, Burlington House, Piccadilly, London


A Conference Report   by Alan Braithwaite

A two day conference organised by the AAMG (Automation and Analytical Management Group of the Royal Society of Chemistry)

Approximately 77 delegates attended the conference including 20 from Europe and 1 from the USA. Three exhibitors were also present with demonstrations of monitoring instruments and data collection and analysis software and live online sampling and data collection from a monitoring vehicle parked outside in the Burlington House parking area.

The conference included five sessions:

– Vehicle Emmisions in the Real World

– Vehicle and Shipping Emissions

– Urban Vegetation as a Means of Reducing Exposure

– Ultrafine Particles

– Monitoring Technologies – Recent Developments

The afternoon sessions ended about 4 pm for tea, 'networking' and visiting the exhibits. This proved most successful with delegates remaining until at least 5 pm.

The programme mainly featured issues relating to vehicle and marine emissions which as it happened was quite topical given the outline plan for the conference was developed six months previously.. The rising concerns of ultrafine particles was also discussed. This was supported with presentations on the composition of pollutants, their distribution in cities and the wider environment and the merits of various sampling and measurement techniques. Ecological aspects were also mentioned together with the potential value of vegetation and trees in reducing pollution levels. Recent developments in sampling procedures, monitoring technologies, recently developed techniques and measurement issues were addressed in the final session

The conference was held in conjunction with DEFRA’s Air Quality Expert Group.




Sensors 2015

Bioanalytical Sensing Technologies

Conference with Posters

held on Tuesday 16th June 2015
at The Royal Society of Chemistry, Burlington House, Piccadilly, London

A Conference Report   by Ruchi Gupta

The theme of the meeting was Bioanalytical Sensing Technologies. There were presentations on different aspects of sensing technologies including recognition species (short peptides, proteins), transducers (electrical, electrochemical, optical, acoustics), data analysis and monitoring of environment in which they operate. In addition, there were presentations on analytical techniques and in particular, gas chromatography. The benefits and limitations of these sensing technologies and analytical techniques for measuring markers of diseases (diabetes, stroke, cancer and influenza) in a range of biological samples (blood, urine, sweat, breath and faeces) and security was also discussed.

A presentation by Prof. Mike Turner (University of Manchester) described the feasibility of using of short peptide sequences incorporated into organic semiconductor blends for sensing nitroaromatics using organic field effect transistors (OFETs). The Peptide sequences were derived from the odorant binding proteins of bumblebees. Similar to Prof. Turner, Prof. Krishna Persaud's (University of Manchester) work took inspiration from nature to develop a pool of proteins capable of recognising drugs of abuse. More specifically, a pool of proteins was developed by introducing mutations in the Odorant Binding Protein OBP1, which is present in vertebrates and insects. It was interesting to note that the tertiary structure of the protein OBP1 obtained from various organisms is different. A comparison of sensitivity, selectivity, robustness and temperature stability of short peptides and proteins will provide useful insights into their benefits and limitations, thereby assisting the sensors community to select a recognition species that is optimised for odour sensing.

Prof. Nick Goddard (University of Manchester) discussed the challenges of the application of label-free (optical) sensors for analysis of real samples in-field where ambient temperature is typically not well controlled. In order to address this issue Prof. Goddard and his team have developed an internally referenced leaky waveguide (LW) sensor; the basic operating principle of LW sensors is different to SPR sensors. The penetration depth of the evanescent field of LW sensors was extended to ~1 µm by an appropriate choice of the waveguide material, which was useful for detection of large analytes such as bacteria and viruses. Prof. Vincent Emery (University of Surrey) discussed the need for rapid and sensitive in-field sensors for detection of pandemic (H1N1) and other disease causing (influenza, HIV I) viruses. Prof Emery and colleagues have developed novel capture coatings which in combination with surface acoustic wave technology have been illustrated to be suitable for detection of some of these viruses with high sensitivity in clinical samples. This biosensor has been engineered to be plugged mobile phones to send alerts.

Professors Seamus Higson (University of Cranfield), Chris Probert (University of Liverpool) and Claire Turner (The Open University) presented examples from their work to highlight that choice of biomarkers for diagnosis of medical conditions is challenging. In addition, there has been an increasing trend towards analysis of an array of biomarkers to obtain clinically significant data. This in turn means that multivariate data is produced, which requires development of powerful multivariate classification algorithms to separate data into groups such as healthy versus diseased, and was the topic of discussion of Professor Conrad Bessant (Queen Mary University of London). Finally, Professor Jeremy G. Frey  (University of Southampton) discussed his work on developing ways of monitoring laboratory environment using a combination of sensor networks, automatically recording the information (metadata) obtained with experimental data and making it available for dissemination.

There were five posters, which were focused on optical (FRET, refractive index), quartz crystal microbalance, conductivity and electrochemical biosensors, and their applications in detection of explosives, anaerobic reactors and monitoring of public health.

In summary, the meeting was an excellent opportunity to become aware of exciting scientific developments in bioanalytical sensing technologies and identify challenging new areas, for example in disease diagnosis by odour and the detection of new viral strains, and also provided excellent opportunities for future research collaborations and exploitation of novel technologies.



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