SensUs 2019, an international student competition at TU Eindhoven in which teams yearly compete with their own biosensor. This year they developed a biosensing system to detect precise levels of adalimumab in patients with rheumatoid arthritis.

credit: Bart van Overbeeke

SensUs 2019, an international student competition at TU Eindhoven in which teams yearly compete with their own biosensor. This year they developed a biosensing system to detect precise levels of adalimumab in patients with rheumatoid arthritis.

credit: Bart van Overbeeke

SensUs 2019, an international student competition at TU Eindhoven in which teams yearly compete with their own biosensor. This year they developed a biosensing system to detect precise levels of adalimumab in patients with rheumatoid arthritis.

credit: Bart van Overbeeke

CEE Graduate Student Research Assistant Gaang Lee (right) applies wearable technologies such as IMU sensors and biosensors to identify fall risk, physical fatigue and heat stress at the Alexander G. Ruthven construction site in Ann Arbor, MI. on September 19, 2019.

This pilot study, run by CEE Professor SangHyun Lee, explores how wearable technologies can be applied to identify important risks, thereby preventing a potential accident.

Photo: Robert Coelius/Michigan Engineering, Communications & Marketing

SensUs 2019, an international student competition at TU Eindhoven in which teams yearly compete with their own biosensor. This year they developed a biosensing system to detect precise levels of adalimumab in patients with rheumatoid arthritis.

credit: Bart van Overbeeke

SensUs 2019, an international student competition at TU Eindhoven in which teams yearly compete with their own biosensor. This year they developed a biosensing system to detect precise levels of adalimumab in patients with rheumatoid arthritis.

credit: Bart van Overbeeke

SensUs 2019, an international student competition at TU Eindhoven in which teams yearly compete with their own biosensor. This year they developed a biosensing system to detect precise levels of adalimumab in patients with rheumatoid arthritis.

credit: Bart van Overbeeke

SensUs 2019, an international student competition at TU Eindhoven in which teams yearly compete with their own biosensor. This year they developed a biosensing system to detect precise levels of adalimumab in patients with rheumatoid arthritis.

credit: Bart van Overbeeke

SensUs 2019, an international student competition at TU Eindhoven in which teams yearly compete with their own biosensor. This year they developed a biosensing system to detect precise levels of adalimumab in patients with rheumatoid arthritis.

credit: Bart van Overbeeke

SensUs 2019, an international student competition at TU Eindhoven in which teams yearly compete with their own biosensor. This year they developed a biosensing system to detect precise levels of adalimumab in patients with rheumatoid arthritis.

credit: Bart van Overbeeke

SensUs 2019, an international student competition at TU Eindhoven in which teams yearly compete with their own biosensor. This year they developed a biosensing system to detect precise levels of adalimumab in patients with rheumatoid arthritis.

credit: Bart van Overbeeke

SensUs 2019, an international student competition at TU Eindhoven in which teams yearly compete with their own biosensor. This year they developed a biosensing system to detect precise levels of adalimumab in patients with rheumatoid arthritis.

credit: Bart van Overbeeke

SensUs 2019, an international student competition at TU Eindhoven in which teams yearly compete with their own biosensor. This year they developed a biosensing system to detect precise levels of adalimumab in patients with rheumatoid arthritis.

credit: Bart van Overbeeke

Prototype Biomedical Fluidic Antigen Van Der Pauw and/or Interdigital Capacitor Bio-Electronic Probe - USB Driven 16x16 Crosspoint Switch.

Provides high resolution differential capacitance, complex impedance and temperature.

Auto read when fixture lowered onto plate.

SensUs 2019, an international student competition at TU Eindhoven in which teams yearly compete with their own biosensor. This year they developed a biosensing system to detect precise levels of adalimumab in patients with rheumatoid arthritis.

credit: Bart van Overbeeke

SensUs 2019, an international student competition at TU Eindhoven in which teams yearly compete with their own biosensor. This year they developed a biosensing system to detect precise levels of adalimumab in patients with rheumatoid arthritis.

credit: Bart van Overbeeke

SensUs 2019, an international student competition at TU Eindhoven in which teams yearly compete with their own biosensor. This year they developed a biosensing system to detect precise levels of adalimumab in patients with rheumatoid arthritis.

credit: Bart van Overbeeke

SensUs 2019, an international student competition at TU Eindhoven in which teams yearly compete with their own biosensor. This year they developed a biosensing system to detect precise levels of adalimumab in patients with rheumatoid arthritis.

credit: Bart van Overbeeke

SensUs 2019, an international student competition at TU Eindhoven in which teams yearly compete with their own biosensor. This year they developed a biosensing system to detect precise levels of adalimumab in patients with rheumatoid arthritis.

credit: Bart van Overbeeke

inbetween workshop timeline

timeline 2005-2012

College of Engineering faculty, staff and students recently met with Rick Nork, Wayne State vice president, treasurer and chief financial officer, and representatives from Wayne State’s Facilities Planning and Management team to walk through the newly renovated core research lab facility in the Engineering Building. The lab is the first in the College of Engineering to be home to professors from different college departments.

Harini G. Sundararaghavan, biomedical engineering professor, is a neural tissue engineering expert. She is working to fabricate materials to promote and direct nerve regeneration. “In this lab we fabricate and characterize clinically relevant biomaterials targeted toward repair of both the peripheral and central nervous system. We synthesize these materials, construct patterned scaffolds, culture them with neuronal cells and evaluate cell response.”

Zhiqiang Cao, chemical engineering professor, is an expert in biomaterials. “We use a multidisciplinary approach to study new materials and understand their translational applications in healthcare and biomedical engineering” His research interests are material/surface chemistry, biomaterials, antifouling/antimicrobial coatings, biosensors, nanomedicine and tissue engineering. Cao develops new technologies to diagnose and treat cancers and diabetes.

The space has eight benches, two cell culture rooms, one micro-spinning room, space for a freezer farm and two graduate student offices. According to Dean Farshad Fotouhi, the college expects to welcome a third faculty member to join this research lab by Fall 2013.

SensUs 2019, an international student competition at TU Eindhoven in which teams yearly compete with their own biosensor. This year they developed a biosensing system to detect precise levels of adalimumab in patients with rheumatoid arthritis.

credit: Bart van Overbeeke

SensUs 2019, an international student competition at TU Eindhoven in which teams yearly compete with their own biosensor. This year they developed a biosensing system to detect precise levels of adalimumab in patients with rheumatoid arthritis.

credit: Bart van Overbeeke

A close-up of a test tube of nanogold solution in the Vangie Alocilja lab at MSU.

Alocilja, an MSU AgBioResearch scientist and professor of Biosystems and Agricultural Engineering, has recently developed a sensor to detect Bacillus species and bovine viral diarrhea virus.

"Nanoscale materials are very different from their larger counterparts," said Alocilja. "For example, the smaller the particles get, the greater the changes in the particles' chemical, electronic, magnetic and mechanical properties. Nanoparticles also have an increased surface area, which offers more space for interaction with other substances."

CEE Graduate Student Research Assistant Gaang Lee (right) applies wearable technologies such as IMU sensors and biosensors to identify fall risk, physical fatigue and heat stress at the Alexander G. Ruthven construction site in Ann Arbor, MI. on September 19, 2019.

This pilot study, run by CEE Professor SangHyun Lee, explores how wearable technologies can be applied to identify important risks, thereby preventing a potential accident.

Photo: Robert Coelius/Michigan Engineering, Communications & Marketing

TodaysArt 2015

Electriciteitsfabriek, Den Haag

4DSOUND: Circadian opens with a performance by Lisa Park. Park works with EEG brainwave headsets as a self-monitoring tool to measure her emotional response to the world around her.

‘NUE’, meaning silkworm in Korean, transforms the physical space of 4DSOUND as Lisa moves through the system wearing a 200-metre long white dress, weaving an intricate web of passages, pockets and walls. Confined within the web, the audience interacts with Lisa as she moves in the space, through whispering, looking, and touching. Driven by Lisa’s brainwaves, a soundworld unfolds that encompasses the audience in its unravelling structure. Sonic textures melt together or fall apart based on Lisa’s emotional state, being tense or calm, focused or distracted.

Sound design: Salvador Breed and Stijn van Beek

New York-based artist Lisa Park has developed a series of performances using biosensors (brainwave and heart-rate devices) as a vehicle for manifesting her inner states. Lisa’s recent works “Eunoia” and “Eunoia II” involved using a commercial brainwave (EEG) headset as a self-monitoring tool to measure her physical and psychological states. These performances obtained real-time feedback of her emotional reactions- an investigation into a new form of expression and trans-sensory experience by visually and audibly reflecting her inner states into tangible forms.

SensUs 2019, an international student competition at TU Eindhoven in which teams yearly compete with their own biosensor. This year they developed a biosensing system to detect precise levels of adalimumab in patients with rheumatoid arthritis.

credit: Bart van Overbeeke

SensUs 2019, an international student competition at TU Eindhoven in which teams yearly compete with their own biosensor. This year they developed a biosensing system to detect precise levels of adalimumab in patients with rheumatoid arthritis.

credit: Bart van Overbeeke

SensUs 2019, an international student competition at TU Eindhoven in which teams yearly compete with their own biosensor. This year they developed a biosensing system to detect precise levels of adalimumab in patients with rheumatoid arthritis.

credit: Bart van Overbeeke

SensUs 2019, an international student competition at TU Eindhoven in which teams yearly compete with their own biosensor. This year they developed a biosensing system to detect precise levels of adalimumab in patients with rheumatoid arthritis.

credit: Bart van Overbeeke

Ken Reardon, Professor of Chemical and Biological Engineering, and Zhong Zhong, his PhD student, research Enzymatic Optical Biosensors in the Bioanalytical Devices Laboratory in the Glover building. CSU Photography: 04013_00466

PNNL operates the Aquatic Research Laboratory (ARL) that supports a variety of research on fish and other aquatic life, covering topics as diverse as toxicology, bioengineering, and biosensor development. Housed in PNNL’s Life Sciences Laboratory in Richland, Washington, the laboratory is operated for the U.S. Department of Energy.

Terms of Use: Our images are freely and publicly available for use with the credit line, "Andrea Starr | Pacific Northwest National Laboratory"; Please use provided caption information for use in appropriate context.

SensUs 2019, an international student competition at TU Eindhoven in which teams yearly compete with their own biosensor. This year they developed a biosensing system to detect precise levels of adalimumab in patients with rheumatoid arthritis.

credit: Bart van Overbeeke

SensUs 2019, an international student competition at TU Eindhoven in which teams yearly compete with their own biosensor. This year they developed a biosensing system to detect precise levels of adalimumab in patients with rheumatoid arthritis.

credit: Bart van Overbeeke

SensUs 2019, an international student competition at TU Eindhoven in which teams yearly compete with their own biosensor. This year they developed a biosensing system to detect precise levels of adalimumab in patients with rheumatoid arthritis.

credit: Bart van Overbeeke

SensUs 2019, an international student competition at TU Eindhoven in which teams yearly compete with their own biosensor. This year they developed a biosensing system to detect precise levels of adalimumab in patients with rheumatoid arthritis.

credit: Bart van Overbeeke

Designed for dairy and beef cattle, the Bella Ag Temperature System® allows herd managers to monitor their cattle's temperature wirelessly, automatically alerting to a rise temperature (fever). Herd Managers can use this data to detect/prevent illness, improve estrus detection, increase milk production, reduce treatment costs, reduce mortality rates and consequently improve production efficiency and ultimately the profitability of their business. www.bellaag.com

SensUs 2019, an international student competition at TU Eindhoven in which teams yearly compete with their own biosensor. This year they developed a biosensing system to detect precise levels of adalimumab in patients with rheumatoid arthritis.

credit: Bart van Overbeeke

Graphic illustrates the details of the plasmonic effect. The drawing shows an experimental plasmonics set-up made up of a thin metal plate with molecules attached to its underside. Some molecules in the solution below are binding to some of the molecules on the plate. Above the plate, a laser shines light at an angle onto the metal plate, generating a “plasmon wave,” light then bounces off the plate at specific angles into a camera.

Light normally bounces off a thin metal film. But at just the right angle, the light triggers a plasmon wave — ripples of the metal’s electrons — and little light gets reflected. The exact angle depends partly on what molecules are present on the other side of the metal film. When molecules in solution, such as a cancer drug, attach to other molecules on the metal film, this pairing up alters the reflected light, which researchers can monitor for insight into how the molecules are interacting.

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Read more in Knowable Magazine

Plasmonics brings the molecular world into sharper focus

People have been using metals to manipulate light for centuries. Now researchers are using it to create powerful biosensors.

www.knowablemagazine.org/article/physical-world/2019/plas...

Read more from Annual Reviews

Plasmonic Imaging of Electrochemical Impedance, Annual Review of Analytical Chemistry

Researchers describe using modern plasmonics to spruce up an old technique for deducing how molecular interactions affect the electrical properties of cells, a tool that has applications in biosensing and drug development.

knowmag.org/3Yi5GIA

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The Knowable Magazine Science Graphics Library is an initiative to create freely available, accurate and engaging graphics for teachers and students. All graphics are curated from Knowable Magazine articles and are free for classroom use.

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SensUs 2019, an international student competition at TU Eindhoven in which teams yearly compete with their own biosensor. This year they developed a biosensing system to detect precise levels of adalimumab in patients with rheumatoid arthritis.

credit: Bart van Overbeeke

CEE Graduate Student Research Assistant Gaang Lee (right) applies wearable technologies such as IMU sensors and biosensors to identify fall risk, physical fatigue and heat stress at the Alexander G. Ruthven construction site in Ann Arbor, MI. on September 19, 2019.

This pilot study, run by CEE Professor SangHyun Lee, explores how wearable technologies can be applied to identify important risks, thereby preventing a potential accident.

Photo: Robert Coelius/Michigan Engineering, Communications & Marketing

CEE Graduate Student Research Assistant Gaang Lee (right) applies wearable technologies such as IMU sensors and biosensors to identify fall risk, physical fatigue and heat stress at the Alexander G. Ruthven construction site in Ann Arbor, MI. on September 19, 2019.

This pilot study, run by CEE Professor SangHyun Lee, explores how wearable technologies can be applied to identify important risks, thereby preventing a potential accident.

Photo: Robert Coelius/Michigan Engineering, Communications & Marketing

CEE Graduate Student Research Assistant Gaang Lee (left) applies wearable technologies such as IMU sensors and biosensors to identify fall risk, physical fatigue and heat stress at the Alexander G. Ruthven construction site in Ann Arbor, MI. on September 19, 2019.

This pilot study, run by CEE Professor SangHyun Lee, explores how wearable technologies can be applied to identify important risks, thereby preventing a potential accident.

Photo: Robert Coelius/Michigan Engineering, Communications & Marketing

SensUs 2019, an international student competition at TU Eindhoven in which teams yearly compete with their own biosensor. This year they developed a biosensing system to detect precise levels of adalimumab in patients with rheumatoid arthritis.

credit: Bart van Overbeeke

Photos of Lab on a Chip Europe, Advances in Microarray Technology, Biodetection & Biosensors, Single Cell Analysis Europe, Barcelona 2013

SensUs 2019, an international student competition at TU Eindhoven in which teams yearly compete with their own biosensor. This year they developed a biosensing system to detect precise levels of adalimumab in patients with rheumatoid arthritis.

credit: Bart van Overbeeke

At Oak Ridge National Laboratory, a scientist has demonstrated that algae can be used as biosensors to detect the presence of toxins and chemical warfare agents in primary source drinking water.

SensUs 2019, an international student competition at TU Eindhoven in which teams yearly compete with their own biosensor. This year they developed a biosensing system to detect precise levels of adalimumab in patients with rheumatoid arthritis.

credit: Bart van Overbeeke