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Perovskite Light-Emitting Diodes (PeLEDs)
Mechatronics Engineering

Perovskite Light-Emitting Diodes (PeLEDs)

Introduction Perovskite light-emitting diodes (PeLEDs) represent a groundbreaking advancement in optoelectronics, leveraging the unique properties of perovskite materials to produce highly efficient light-emitting devices. Emerging in the early 2010s, PeLEDs have gained attention due to their remarkable luminescence and tunable emission spectra, leading to their potential application in next-generation displays, lighting, and flexible electronics. Their significance is underscored by a rapid increase in research and development, which positions PeLEDs as a promising alternative to traditional light-emitting technologies like organic LEDs (OLEDs) and inorganic semiconductors. The notable advantages of PeLEDs include their high photoluminescence quantum yields (PLQY), ease of fabrication through solution-based processes, and the capability to produce vibrant colors across a […]

/ 14 minutes of reading
Tactile Sensing With 3D Micro Strain Gauges
Mechanical Engineering

Tactile Sensing With 3D Micro Strain Gauges

Introduction to Tactile Sensing With 3D Micro Strain Gauges Tactile sensing with 3D micro strain gauges refers to the use of advanced sensor technologies that enable the detection of various physical stimuli, such as pressure, strain, and temperature, through flexible and adaptable sensors. These sensors are integral to the development of electronic skin, intelligent robotics, and wearable medical devices, enhancing human-computer interactions and enabling more responsive robotic systems. The significance of tactile sensing lies in its ability to mimic human skin’s sensory capabilities, which is crucial for applications that require intricate tactile feedback and real-time monitoring of physiological signals. Recent advancements in fabrication techniques, particularly 3D printing, have revolutionized the production

/ 11 minutes of reading
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