View allAll Photos Tagged biosensors
Zhang Xiangdong, Chairman and President, Organic and Beyond, People's Republic of China, Regina Cervera, Projects Coordinator, Future of Earth Lab, C Minds, Mexico, Carrol Plummer, Co-Founder and Chief Executive Officer, Vivent Biosensor, Switzerland speaking in the Exponential Agriculturesession at the at the Annual Meeting of the New Champions 2023 in Tianjin, People's Republic of China, 28 June 2023. Tianjin Meijiang Convention Center - Hub A Room. Copyright: World Economic Forum/Greg Beadle
A chemical engineer at The University of Texas at Austin has developed a type of silver nanoparticle that prevents HIV from interacting with human cells. The university has licensed the anti-virus technology developed in the laboratory of Dr. Miguel Jose Yacaman to XXX. The XX-based company will begin investigating the nanoparticles' potential to serve as a new treatment for the human immunodeficiency virus that causes AIDS.
Above photo:
Selene Sepulveda Guzman, post-doctoral fellow in chemical engineering, assists Dr. Yacaman with nanoparticle research. The colorful bottled materials appearing in the background are vials of ZnO nanoparticles under a UV lamp. These nanoparticles have potential application as biosensors.
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
The Intelligent Guerilla Beehive is intended to offer refuge and protection to swarming bee colonies in urban areas. The outer membrane of the beehive (Sensorial Skin) is a smart fabric that integrates organic and electronic elements. Bacteria living in the upper cellulose skin act as biosensors. When they sense a specific degree of pollution they change colors an make patterns that reflect the environmental threats. A further, double-sided skin shelters a second type of bacteria that attacks the bees’ natural enemy – the Varroa destructor mite.
Credit: tom mesic
The Intelligent Guerilla Beehive is intended to offer refuge and protection to swarming bee colonies in urban areas. The outer membrane of the beehive (Sensorial Skin) is a smart fabric that integrates organic and electronic elements. Bacteria living in the upper cellulose skin act as biosensors. When they sense a specific degree of pollution they change colors an make patterns that reflect the environmental threats. A further, double-sided skin shelters a second type of bacteria that attacks the bees’ natural enemy – the Varroa destructor mite.
Credit: tom mesic
Brookhaven National Laboratory researchers and graduate students study Quantum dots, tiny semiconductor crystals with diameters measured in billionths of a meter-have enormous potential for applications that make use of their ability to absorb or emit light and/or electric charges. Examples include more vividly colored light-emitting diodes (LEDs), photovoltaic solar cells, nanoscale transistors, and biosensors. But because these applications have differing-sometimes opposite-requirements, finding ways to control the dots' optical and electronic properties is crucial to their success. A new study conducted at Brookhaven's Center for Functional Nanomateials shows that shrinking the core of a quantum dot can enhance the ability of a surrounding polymer to extract electric charges generated in the dot by the absorption of light.
For more information or additional images, please contact 202-586-5251.
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
Researchers monitor a chinook salmon at varying speeds of water flow to determine if a “tag” in the fish affects its swimming ability.
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
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
Photos of Lab on a Chip Europe, Advances in Microarray Technology, Biodetection & Biosensors, Single Cell Analysis Europe, Barcelona 2013
Bella Ag Benefits Include:
Early detection of cattle illnesses
Improved cattle estrus detection
Increased cattle milk production
Reduced cattle treatment costs
Reduced cattle mortality rates
Automatic cattle temperature alerts (via email,text)
Identifying Sick or Injured Cattle
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
Bella Ag is an agriculture technology company focused on improving animal health as well as dairy and beef operations.
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
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
This light microscope image shows the porous silica surface of a living diatom cell from the organism Coscinodiscus wailesii. The diatom cell is covered in hexagonal-shaped pores, about 1 µm in diameter. Researchers at Oregon State University have used these microbes in biosensors, solar cells, and electroluminescent devices. “Diatoms are really beautiful, but they are also becoming relevant players in nanobiotechnology,” says Debra Gale, who submitted the photo.
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
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
Graphic shows potential and current applications now being explored for plasmonics, including in invisibility cloaks, superfast optical computers, higher-resolution imaging devices, better color sensitivity in cameras, new solar cells, faster fiber optic connections, tumor-killing cancer therapies and lasers for self-driving cars.
The ability to manipulate light and electrons with nanometer precision turns out to be useful in a wide range of applications such as super hi-res imaging, targeted therapies for tumors, guidance for self-driving cars, and perhaps for even more fanciful goals, such as making everyday objects invisible.
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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.
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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
“I sing the body electric” takes on new meaning in our brave new digital world, where devices let us monitor everything from our stress levels to our genetic sequences, and devices with 100 real-time biosensors loom on the horizon. Join moderator Arianna Huffington, @ariannahuff, as she leads Deepak Chopra, MD, @DeepakChopra, Founder of The Chopra Foundation and Chopra Center, Deepak Chopra LLC, David Daly, Head of Oncology, Life Technologies, @LIFECorporation, Andrew Thompson, President & CEO, Proteus Digital, @Proteusdh, Reed V. Tuckson, @DrReedTuckson, MD, FACP, Executive Vice President and Chief of Medical Affairs, UnitedHealth Group, @CEShealth, and Sonny Vu, Co-Founder & CEO, Misfit Wearables, @MisfitWearables, in conversation on the latest innovations in the field, how those innovations have the potential to change lives, and what the digital revolution means for the body, mind, and soul.
The Digital Health Summit at the 2013 International CES®
bit.ly/DigitalHealthCES - Focuses on the latest products and consumers' growing demand for high-tech health services. See solutions for diagnosing, monitoring and treating a variety of illnesses - from obesity to ADHD, from poor vision to high blood pressure.
Learn about games that reinforce healthy behaviors, body sensors that let people take more responsibility for their own health, affordable gene sequencing, real-time medicine monitoring, and more. You'll gain an understanding of the digital health infrastructure and how your organization can capitalize on this hot market.
Official Hashtag: #DigiHealthCES News & Press Articles: #DigiHealthCESPress CES Hashtag: #2013CES
Website: bit.ly/DigitalHealthWebsite
Twitter: bit.ly/DigitalHealthTwitter
YouTube Videos: bit.ly/DigitalHealthYouTube
Flickr Photos: bit.ly/DigitalHealthFlickr
Linkedin: bit.ly/DigitalHealthLinkedIn
Facebook: bit.ly/DigitalHealthFB
Google+: bit.ly/DigitalHealthGPlus
Pinterest: bit.ly/DigitalHealthPinterest
Instagram: bit.ly/DigitalHealthInstagram
Foursquare: bit.ly/DigitalHealthFourSquare
Thank you! AARP bit.ly/AARP_DHS for sponsoring Digital Health Summit Live.
Social Media Team: www.newmediasynergy.com
Photos by Asa Mathat www.asamathat.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
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
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.
Lightweight Analyzer for Buried Remains and Decomposition Odor Recognition (LABRADOR) at Oak Ridge National Laboratory detects volatile organic chemical compounds relevant to human decomposition. Police searching for victims in clandestine graves could soon have a new tool that will make their task considerably easier.
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
One of the construction workers using the 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