John A. Rogers

Conformal piezoelectric systems for clinical and experimental characterization of soft tissue biomechanics.

Finite deformation mechanics in buckled thin films on compliant supports.

Materials and noncoplanar mesh designs for integrated circuits with linear elastic responses to extreme mechanical deformations.

A curvy, stretchy future for electronics.

A conformal, bio-interfaced class of silicon electronics for mapping cardiac electrophysiology.

Dissolvable films of silk fibroin for ultrathin conformal bio-integrated electronics.

Microstructured elastomeric surfaces with reversible adhesion and examples of their use in deterministic assembly by transfer printing.

Dynamically tunable hemispherical electronic eye camera system with adjustable zoom capability.

Materials for multifunctional balloon catheters with capabilities in cardiac electrophysiological mapping and ablation therapy.

Unusual strategies for using indium gallium nitride grown on silicon (111) for solid-state lighting.

Flexible, foldable, actively multiplexed, high-density electrode array for mapping brain activity in vivo.

A physically transient form of silicon electronics.

Electronic sensor and actuator webs for large-area complex geometry cardiac mapping and therapy.

Injectable, cellular-scale optoelectronics with applications for wireless optogenetics.

Ultrathin conformal devices for precise and continuous thermal characterization of human skin.

Mechanics of finger-tip electronics.

Conformal piezoelectric energy harvesting and storage from motions of the heart, lung, and diaphragm.

3D multifunctional integumentary membranes for spatiotemporal cardiac measurements and stimulation across the entire epicardium.

Multifunctional skin-like electronics for quantitative, clinical monitoring of cutaneous wound healing.

A high-density, high-channel count, multiplexed μECoG array for auditory-cortex recordings.

Adaptive optoelectronic camouflage systems with designs inspired by cephalopod skins.

Buckling in serpentine microstructures and applications in elastomer-supported ultra-stretchable electronics with high areal coverage.

Materials and fractal designs for 3D multifunctional integumentary membranes with capabilities in cardiac electrotherapy.

Soft, curved electrode systems capable of integration on the auricle as a persistent brain-computer interface.

Soft network composite materials with deterministic and bio-inspired designs.

Optics and Nonlinear Buckling Mechanics in Large-Area, Highly Stretchable Arrays of Plasmonic Nanostructures.

Theoretical and Experimental Studies of Epidermal Heat Flux Sensors for Measurements of Core Body Temperature.

Wireless Optofluidic Systems for Programmable In Vivo Pharmacology and Optogenetics.

Modulated Degradation of Transient Electronic Devices through Multilayer Silk Fibroin Pockets.

A mechanically driven form of Kirigami as a route to 3D mesostructures in micro/nanomembranes.

An Epidermal Stimulation and Sensing Platform for Sensorimotor Prosthetic Control, Management of Lower Back Exertion, and Electrical Muscle Activation.

Soft, stretchable, fully implantable miniaturized optoelectronic systems for wireless optogenetics.

Epidermal devices for noninvasive, precise, and continuous mapping of macrovascular and microvascular blood flow.

Ultrathin Injectable Sensors of Temperature, Thermal Conductivity, and Heat Capacity for Cardiac Ablation Monitoring.

Flexible Electronics: Theoretical and Experimental Studies of Epidermal Heat Flux Sensors for Measurements of Core Body Temperature (Adv. Healthcare Mater. 1/2016).

Bioresorbable silicon electronic sensors for the brain.

A nonlinear mechanics model of bio-inspired hierarchical lattice materials consisting of horseshoe microstructures.

Bioresorbable silicon electronics for transient spatiotemporal mapping of electrical activity from the cerebral cortex.

Biological lipid membranes for on-demand, wireless drug delivery from thin, bioresorbable electronic implants.

Soft, thin skin-mounted power management systems and their use in wireless thermography.

Flexible Electronics: An Epidermal Stimulation and Sensing Platform for Sensorimotor Prosthetic Control, Management of Lower Back Exertion, and Electrical Muscle Activation (Adv. Mater. 22/2016).

A Mechanics Model for Sensors Imperfectly Bonded to the Skin for Determination of the Young's Moduli of Epidermis and Dermis.

Battery-free, stretchable optoelectronic systems for wireless optical characterization of the skin.

Controlled mechanical buckling for origami-inspired construction of 3D microstructures in advanced materials.

Guided Formation of 3D Helical Mesostructures by Mechanical Buckling: Analytical Modeling and Experimental Validation.

Design of Stretchable Electronics Against Impact.

Wrinkling of a stiff thin film bonded to a pre-strained, compliant substrate with finite thickness.

Mechanical Designs for Inorganic Stretchable Circuits in Soft Electronics.

Mechanical assembly of complex, 3D mesostructures from releasable multilayers of advanced materials.

Novel materials.

Ultrathin, transferred layers of thermally grown silicon dioxide as biofluid barriers for biointegrated flexible electronic systems.

Computational models for the determination of depth-dependent mechanical properties of skin with a soft, flexible measurement device.

A soft, wearable microfluidic device for the capture, storage, and colorimetric sensing of sweat.

In-Plane Deformation Mechanics for Highly Stretchable Electronics.

Soft Elastomers with Ionic Liquid-Filled Cavities as Strain Isolating Substrates for Wearable Electronics.

Thin, Soft, Skin-Mounted Microfluidic Networks with Capillary Bursting Valves for Chrono-Sampling of Sweat.

Flexible Near-Field Wireless Optoelectronics as Subdermal Implants for Broad Applications in Optogenetics.

Epidermal mechano-acoustic sensing electronics for cardiovascular diagnostics and human-machine interfaces.

Ferromagnetic, folded electrode composite as a soft interface to the skin for long-term electrophysiological recording.

Design and application of 'J-shaped' stress-strain behavior in stretchable electronics: a review.

Mechanically-Guided Deterministic Assembly of 3D Mesostructures Assisted by Residual Stresses.

Self-assembled three dimensional network designs for soft electronics.

Materials and processing approaches for foundry-compatible transient electronics.

Soft, skin-mounted microfluidic systems for measuring secretory fluidic pressures generated at the surface of the skin by eccrine sweat glands.

Fully implantable, battery-free wireless optoelectronic devices for spinal optogenetics.

Wearable electronics: Nanomesh on-skin electronics.

Miniaturized Battery-Free Wireless Systems for Wearable Pulse Oximetry.

Capacitively Coupled Arrays of Multiplexed Flexible Silicon Transistors for Long-Term Cardiac Electrophysiology.

Room Temperature Electrochemical Sintering of Zn Microparticles and Its Use in Printable Conducting Inks for Bioresorbable Electronics.

Engineered elastomer substrates for guided assembly of complex 3D mesostructures by spatially nonuniform compressive buckling.

Chemical Sensing Systems that Utilize Soft Electronics on Thin Elastomeric Substrates with Open Cellular Designs.

Design of Strain-Limiting Substrate Materials for Stretchable and Flexible Electronics.

Designing Thin, Ultrastretchable Electronics with Stacked Circuits and Elastomeric Encapsulation Materials.

Three-dimensional mesostructures as high-temperature growth templates, electronic cellular scaffolds, and self-propelled microrobots.

Optogenetic silencing of nociceptive primary afferents reduces evoked and ongoing bladder pain.

Kinetics and Chemistry of Hydrolysis of Ultrathin, Thermally Grown Layers of Silicon Oxide as Biofluid Barriers in Flexible Electronic Systems.

Dissolution of Monocrystalline Silicon Nanomembranes and Their Use as Encapsulation Layers and Electrical Interfaces in Water-Soluble Electronics.

Roadmap on semiconductor-cell biointerfaces.

Miniaturized, Battery-Free Optofluidic Systems with Potential for Wireless Pharmacology and Optogenetics.

Biodegradable Electronic Systems in 3D, Heterogeneously Integrated Formats.

Fabrication and Deformation of 3D Multilayered Kirigami Microstructures.

Wearable sensors for Parkinson's disease: which data are worth collecting for training symptom detection models.

Wireless optoelectronic photometers for monitoring neuronal dynamics in the deep brain.

Morphable 3D mesostructures and microelectronic devices by multistable buckling mechanics.

Super-Absorbent Polymer Valves and Colorimetric Chemistries for Time-Sequenced Discrete Sampling and Chloride Analysis of Sweat via Skin-Mounted Soft Microfluidics.

Skin-interfaced systems for sweat collection and analytics.

Battery-free, wireless sensors for full-body pressure and temperature mapping.

Three-Dimensional Silicon Electronic Systems Fabricated by Compressive Buckling Process.

Two-dimensional materials in functional three-dimensional architectures with applications in photodetection and imaging.

Advanced Materials and Devices for Bioresorbable Electronics.

CVD-grown monolayer MoS in bioabsorbable electronics and biosensors.

Vibration of Mechanically-Assembled 3D Microstructures Formed by Compressive Buckling.

Recent Advances in Materials, Devices, and Systems for Neural Interfaces.

Self-Folded Gripper-Like Architectures from Stimuli-Responsive Bilayers.

Flexible Transient Optical Waveguides and Surface-Wave Biosensors Constructed from Monocrystalline Silicon.

Semiconductor Nanomembrane Materials for High-Performance Soft Electronic Devices.

The equivalent medium of cellular substrate under large stretching, with applications to stretchable electronics.

Cytotoxicity and in Vitro Degradation Kinetics of Foundry-Compatible Semiconductor Nanomembranes and Electronic Microcomponents.

Mechanically active materials in three-dimensional mesostructures.

Conductively coupled flexible silicon electronic systems for chronic neural electrophysiology.

Ultrathin Trilayer Assemblies as Long-Lived Barriers against Water and Ion Penetration in Flexible Bioelectronic Systems.

Wireless bioresorbable electronic system enables sustained nonpharmacological neuroregenerative therapy.

Soft, Skin-Interfaced Microfluidic Systems with Wireless, Battery-Free Electronics for Digital, Real-Time Tracking of Sweat Loss and Electrolyte Composition.

Relation between blood pressure and pulse wave velocity for human arteries.

Wireless, Battery-Free Epidermal Electronics for Continuous, Quantitative, Multimodal Thermal Characterization of Skin.

Freestanding 3D Mesostructures, Functional Devices, and Shape-Programmable Systems Based on Mechanically Induced Assembly with Shape Memory Polymers.

Epidermal electronics for noninvasive, wireless, quantitative assessment of ventricular shunt function in patients with hydrocephalus.

Compliant and stretchable thermoelectric coils for energy harvesting in miniature flexible devices.

Soft Three-Dimensional Microscale Vibratory Platforms for Characterization of Nano-Thin Polymer Films.

High Performance, Tunable Electrically Small Antennas through Mechanically Guided 3D Assembly.

Wireless, battery-free, flexible, miniaturized dosimeters monitor exposure to solar radiation and to light for phototherapy.

Materials and Designs for Power Supply Systems in Skin-Interfaced Electronics.

A wireless closed-loop system for optogenetic peripheral neuromodulation.

Ultrathin, Transferred Layers of Metal Silicide as Faradaic Electrical Interfaces and Biofluid Barriers for Flexible Bioelectronic Implants.

Mechano-Plastic Pyrolysis of Dynamic Covalent Polymer Network toward Hierarchical 3D Ceramics.

Bio-Integrated Wearable Systems: A Comprehensive Review.

Soft, Skin-Integrated Multifunctional Microfluidic Systems for Accurate Colorimetric Analysis of Sweat Biomarkers and Temperature.

Waterproof, electronics-enabled, epidermal microfluidic devices for sweat collection, biomarker analysis, and thermography in aquatic settings.

Battery-free, skin-interfaced microfluidic/electronic systems for simultaneous electrochemical, colorimetric, and volumetric analysis of sweat.

Wearable Sensors for Biochemical Sweat Analysis.

Binodal, wireless epidermal electronic systems with in-sensor analytics for neonatal intensive care.

Wireless, battery-free optoelectronic systems as subdermal implants for local tissue oximetry.

Intraoperative monitoring of neuromuscular function with soft, skin-mounted wireless devices.

Passive sweat collection and colorimetric analysis of biomarkers relevant to kidney disorders using a soft microfluidic system.

Advanced approaches for quantitative characterization of thermal transport properties in soft materials using thin, conformable resistive sensors.

Bioresorbable pressure sensors protected with thermally grown silicon dioxide for the monitoring of chronic diseases and healing processes.

Large-area MRI-compatible epidermal electronic interfaces for prosthetic control and cognitive monitoring.

Publisher Correction: Large-area MRI-compatible epidermal electronic interfaces for prosthetic control and cognitive monitoring.

Needle-shaped ultrathin piezoelectric microsystem for guided tissue targeting via mechanical sensing.

Recent advances of biosensors for hypertension and nephrology.

Epidermal radio frequency electronics for wireless power transfer.

Multimodal epidermal devices for hydration monitoring.

Publisher Correction: Large-area MRI-compatible epidermal electronic interfaces for prosthetic control and cognitive monitoring.

Multimodal Sensing with a Three-Dimensional Piezoresistive Structure.

Soft, Skin-Interfaced Microfluidic Systems with Passive Galvanic Stopwatches for Precise Chronometric Sampling of Sweat.

Buckling and twisting of advanced materials into morphable 3D mesostructures.

Bioresorbable optical sensor systems for monitoring of intracranial pressure and temperature.

Battery-free, fully implantable optofluidic cuff system for wireless optogenetic and pharmacological neuromodulation of peripheral nerves.

Highly flexible, wearable, and disposable cardiac biosensors for remote and ambulatory monitoring.

Flexible electronic/optoelectronic microsystems with scalable designs for chronic biointegration.

Harnessing the interface mechanics of hard films and soft substrates for 3D assembly by controlled buckling.

Mechanically-Guided Structural Designs in Stretchable Inorganic Electronics.

Bioresorbable photonic devices for the spectroscopic characterization of physiological status and neural activity.

Long-Lived, Transferred Crystalline Silicon Carbide Nanomembranes for Implantable Flexible Electronics.

Analyses of postbuckling in stretchable arrays of nanostructures for wide-band tunable plasmonics.

Transient Light-Emitting Diodes Constructed from Semiconductors and Transparent Conductors that Biodegrade Under Physiological Conditions.

Flexible and Stretchable Antennas for Biointegrated Electronics.

2D Mechanical Metamaterials with Widely Tunable Unusual Modes of Thermal Expansion.

Battery-free, lightweight, injectable microsystem for in vivo wireless pharmacology and optogenetics.

Augmenting Clinical Outcome Measures of Gait and Balance with a Single Inertial Sensor in Age-Ranged Healthy Adults.

Remotely Triggered Assembly of 3D Mesostructures Through Shape-Memory Effects.

Skin-integrated wireless haptic interfaces for virtual and augmented reality.

Mechano-acoustic sensing of physiological processes and body motions via a soft wireless device placed at the suprasternal notch.

Soft, skin-interfaced microfluidic systems with integrated enzymatic assays for measuring the concentration of ammonia and ethanol in sweat.

Resettable skin interfaced microfluidic sweat collection devices with chemesthetic hydration feedback.

Wireless, battery-free, fully implantable multimodal and multisite pacemakers for applications in small animal models.

Miniaturized, light-adaptive, wireless dosimeters autonomously monitor exposure to electromagnetic radiation.

Automating sleep stage classification using wireless, wearable sensors.

Wireless, battery-free subdermally implantable photometry systems for chronic recording of neural dynamics.

Inverse Design Strategies for 3D Surfaces Formed by Mechanically Guided Assembly.

Skin-interfaced biosensors for advanced wireless physiological monitoring in neonatal and pediatric intensive-care units.

Excitatory VTA to DH projections provide a valence signal to memory circuits.

Continuous, noninvasive wireless monitoring of flow of cerebrospinal fluid through shunts in patients with hydrocephalus.

Emerging Modalities and Implantable Technologies for Neuromodulation.

Development of a neural interface for high-definition, long-term recording in rodents and nonhuman primates.

Flexible Hybrid Electronics.

Role of data measurement characteristics in the accurate detection of Parkinson's disease symptoms using wearable sensors.

A Microthermal Sensor for Cryoablation Balloons.

Materials for flexible bioelectronic systems as chronic neural interfaces.

Assembly of Foldable 3D Microstructures Using Graphene Hinges.

Rapid Capture and Extraction of Sweat for Regional Rate and Cytokine Composition Analysis Using a Wearable Soft Microfluidic System.

Chemical Funneling of Colloidal Gold Nanoparticles on Printed Arrays of End-Grafted Polymers for Plasmonic Applications.

Bioresorbable, Wireless, Passive Sensors as Temporary Implants for Monitoring Regional Body Temperature.

Modeling, design guidelines, and detection limits of self-powered enzymatic biofuel cell-based sensors.

Catheter-integrated soft multilayer electronic arrays for multiplexed sensing and actuation during cardiac surgery.

Continuous on-body sensing for the COVID-19 pandemic: Gaps and opportunities.

Wirelessly controlled, bioresorbable drug delivery device with active valves that exploit electrochemically triggered crevice corrosion.

Skin-Interfaced Microfluidic Systems that Combine Hard and Soft Materials for Demanding Applications in Sweat Capture and Analysis.

Skin-interfaced soft microfluidic systems with modular and reusable electronics for capacitive sensing of sweat loss, rate and conductivity.

Soft, skin-interfaced microfluidic systems with integrated immunoassays, fluorometric sensors, and impedance measurement capabilities.

Sun exposure reduction by melanoma survivors with wearable sensor providing real-time UV exposure and daily text messages with structured goal setting.

Recent advances in neurotechnologies with broad potential for neuroscience research.

Stretchable, dynamic covalent polymers for soft, long-lived bioresorbable electronic stimulators designed to facilitate neuromuscular regeneration.

A wireless, skin-interfaced biosensor for cerebral hemodynamic monitoring in pediatric care.

Reliable, low-cost, fully integrated hydration sensors for monitoring and diagnosis of inflammatory skin diseases in any environment.

Wireless, skin-interfaced sensors for compression therapy.

Designing Mechanical Metamaterials with Kirigami-Inspired, Hierarchical Constructions for Giant Positive and Negative Thermal Expansion.

Skin-interfaced microfluidic system with personalized sweating rate and sweat chloride analytics for sports science applications.

Sufficient sampling for kriging prediction of cortical potential in rat, monkey, and human µECoG.

Wireless sensors for continuous, multimodal measurements at the skin interface with lower limb prostheses.

Author Correction: Stretchable, dynamic covalent polymers for soft, long-lived bioresorbable electronic stimulators designed to facilitate neuromuscular regeneration.

Bioresorbable Microdroplet Lasers as Injectable Systems for Transient Thermal Sensing and Modulation.

Wireless, soft electronics for rapid, multisensor measurements of hydration levels in healthy and diseased skin.

Kangaroo father care: A pilot feasibility study of physiologic, biologic, and psychosocial measures to capture the effects of father-infant and mother-infant skin-to-skin contact in the Neonatal Intensive Care Unit.

Recent progress, challenges, and opportunities for wearable biochemical sensors for sweat analysis.

Author Correction: Recent advances in neurotechnologies with broad potential for neuroscience research.

Wireless, implantable catheter-type oximeter designed for cardiac oxygen saturation.

Bioresorbable Metals for Biomedical Applications: From Mechanical Components to Electronic Devices.

Wireless skin sensors for physiological monitoring of infants in low-income and middle-income countries.

Wireless and battery-free technologies for neuroengineering.

Light-activated shape morphing and light-tracking materials using biopolymer-based programmable photonic nanostructures.

Three-dimensional, multifunctional neural interfaces for cortical spheroids and engineered assembloids.

Soft, skin-interfaced sweat stickers for cystic fibrosis diagnosis and management.

Modeling programmable drug delivery in bioelectronics with electrochemical actuation.

Automated, multiparametric monitoring of respiratory biomarkers and vital signs in clinical and home settings for COVID-19 patients.

A skin-conformable wireless sensor to objectively quantify symptoms of pruritus.

Wireless, Skin-Interfaced Devices for Pediatric Critical Care: Application to Continuous, Noninvasive Blood Pressure Monitoring.

Compliant 3D frameworks instrumented with strain sensors for characterization of millimeter-scale engineered muscle tissues.

Real-Time UV Measurement With a Sun Protection System for Warning Young Adults About Sunburn: Prospective Cohort Study.

Comprehensive pregnancy monitoring with a network of wireless, soft, and flexible sensors in high- and low-resource health settings.

Wireless multilateral devices for optogenetic studies of individual and social behaviors.

Differential cardiopulmonary monitoring system for artifact-canceled physiological tracking of athletes, workers, and COVID-19 patients.

Transparent, Compliant 3D Mesostructures for Precise Evaluation of Mechanical Characteristics of Organoids.

Surgical implantation of wireless, battery-free optoelectronic epidural implants for optogenetic manipulation of spinal cord circuits in mice.

Miniaturized electromechanical devices for the characterization of the biomechanics of deep tissue.

Catalytic effects of magnetic and conductive nanoparticles on immobilized glucose oxidase in skin sensors.

Activation of the dorsal, but not the ventral, hippocampus relieves neuropathic pain in rodents.

Fully implantable and bioresorbable cardiac pacemakers without leads or batteries.

Wireless, battery-free, subdermally implantable platforms for transcranial and long-range optogenetics in freely moving animals.

Photocurable bioresorbable adhesives as functional interfaces between flexible bioelectronic devices and soft biological tissues.

State of Sweat: Emerging Wearable Systems for Real-Time, Noninvasive Sweat Sensing and Analytics.

Three dimensional bioelectronic interfaces to small-scale biological systems.

Bitter Flavored, Soft Composites for Wearables Designed to Reduce Risks of Choking in Infants.

A Wireless Near-Infrared Spectroscopy Device for Flap Monitoring: Proof of Concept in a Porcine Musculocutaneous Flap Model.

Battery-free, wireless soft sensors for continuous multi-site measurements of pressure and temperature from patients at risk for pressure injuries.

Skin-Integrated Devices with Soft, Holey Architectures for Wireless Physiological Monitoring, With Applications in the Neonatal Intensive Care Unit.

Three-dimensional electronic microfliers inspired by wind-dispersed seeds.

Intramuscular Near-Infrared Spectroscopy for Muscle Flap Monitoring in a Porcine Model.

Wireless, battery-free, and fully implantable electrical neurostimulation in freely moving rodents.