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STMicroelectronics Pte nfc receiver st25dv16k
Schematic illustration of the wearable and battery‐free wound dressing system (WDS). (a) Explosive view of the components and assembly method of the WDS. (b–e) Photograph of near‐field communication <t>(NFC)‐based</t> flexible printed circuit board (b), the whole system exhibits great flexibility under bending (c). (d) The optical image of flexible printing circuit board (fPCB) with the integration of Eco‐flex encapsulation layer combined with wound exudate sensor using connector (e). (f) The mechanism of WDS applied on wound for simultaneous monitoring of temperature, pH value, and procalcitonin (PCT). The smart phone is used to wireless power supply, data processing, and transmission. (g) Block diagram and working principle of the wound dressing system. (h) The photograph of WDS applied on the twist, arm, chest, and knee.
Nfc Receiver St25dv16k, supplied by STMicroelectronics Pte, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/product/nfc+receiver+st25dv16k/pmc10658553-119-3-6?v=STMicroelectronics+Pte
Average 90 stars, based on 1 article reviews
nfc receiver st25dv16k - by Bioz Stars, 2026-07
90/100 stars

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1) Product Images from "Wearable and battery‐free wound dressing system for wireless and early sepsis diagnosis"

Article Title: Wearable and battery‐free wound dressing system for wireless and early sepsis diagnosis

Journal: Bioengineering & Translational Medicine

doi: 10.1002/btm2.10445

Schematic illustration of the wearable and battery‐free wound dressing system (WDS). (a) Explosive view of the components and assembly method of the WDS. (b–e) Photograph of near‐field communication (NFC)‐based flexible printed circuit board (b), the whole system exhibits great flexibility under bending (c). (d) The optical image of flexible printing circuit board (fPCB) with the integration of Eco‐flex encapsulation layer combined with wound exudate sensor using connector (e). (f) The mechanism of WDS applied on wound for simultaneous monitoring of temperature, pH value, and procalcitonin (PCT). The smart phone is used to wireless power supply, data processing, and transmission. (g) Block diagram and working principle of the wound dressing system. (h) The photograph of WDS applied on the twist, arm, chest, and knee.
Figure Legend Snippet: Schematic illustration of the wearable and battery‐free wound dressing system (WDS). (a) Explosive view of the components and assembly method of the WDS. (b–e) Photograph of near‐field communication (NFC)‐based flexible printed circuit board (b), the whole system exhibits great flexibility under bending (c). (d) The optical image of flexible printing circuit board (fPCB) with the integration of Eco‐flex encapsulation layer combined with wound exudate sensor using connector (e). (f) The mechanism of WDS applied on wound for simultaneous monitoring of temperature, pH value, and procalcitonin (PCT). The smart phone is used to wireless power supply, data processing, and transmission. (g) Block diagram and working principle of the wound dressing system. (h) The photograph of WDS applied on the twist, arm, chest, and knee.

Techniques Used: Battery, Encapsulation, Transmission Assay, Blocking Assay



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STMicroelectronics Pte nfc receiver st25dv16k
Schematic illustration of the wearable and battery‐free wound dressing system (WDS). (a) Explosive view of the components and assembly method of the WDS. (b–e) Photograph of near‐field communication <t>(NFC)‐based</t> flexible printed circuit board (b), the whole system exhibits great flexibility under bending (c). (d) The optical image of flexible printing circuit board (fPCB) with the integration of Eco‐flex encapsulation layer combined with wound exudate sensor using connector (e). (f) The mechanism of WDS applied on wound for simultaneous monitoring of temperature, pH value, and procalcitonin (PCT). The smart phone is used to wireless power supply, data processing, and transmission. (g) Block diagram and working principle of the wound dressing system. (h) The photograph of WDS applied on the twist, arm, chest, and knee.
Nfc Receiver St25dv16k, supplied by STMicroelectronics Pte, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/product/nfc+receiver+st25dv16k/pmc10658553-119-3-6?v=STMicroelectronics+Pte
Average 90 stars, based on 1 article reviews
nfc receiver st25dv16k - by Bioz Stars, 2026-07
90/100 stars
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Schematic illustration of the wearable and battery‐free wound dressing system (WDS). (a) Explosive view of the components and assembly method of the WDS. (b–e) Photograph of near‐field communication (NFC)‐based flexible printed circuit board (b), the whole system exhibits great flexibility under bending (c). (d) The optical image of flexible printing circuit board (fPCB) with the integration of Eco‐flex encapsulation layer combined with wound exudate sensor using connector (e). (f) The mechanism of WDS applied on wound for simultaneous monitoring of temperature, pH value, and procalcitonin (PCT). The smart phone is used to wireless power supply, data processing, and transmission. (g) Block diagram and working principle of the wound dressing system. (h) The photograph of WDS applied on the twist, arm, chest, and knee.

Journal: Bioengineering & Translational Medicine

Article Title: Wearable and battery‐free wound dressing system for wireless and early sepsis diagnosis

doi: 10.1002/btm2.10445

Figure Lengend Snippet: Schematic illustration of the wearable and battery‐free wound dressing system (WDS). (a) Explosive view of the components and assembly method of the WDS. (b–e) Photograph of near‐field communication (NFC)‐based flexible printed circuit board (b), the whole system exhibits great flexibility under bending (c). (d) The optical image of flexible printing circuit board (fPCB) with the integration of Eco‐flex encapsulation layer combined with wound exudate sensor using connector (e). (f) The mechanism of WDS applied on wound for simultaneous monitoring of temperature, pH value, and procalcitonin (PCT). The smart phone is used to wireless power supply, data processing, and transmission. (g) Block diagram and working principle of the wound dressing system. (h) The photograph of WDS applied on the twist, arm, chest, and knee.

Article Snippet: All components, including NFC receiver (ST25DV16K, STMicroelectronics), microcontroller (STM32L011F4, STMicroelectronics), potentiostat amplifier (AD8606, AD), and digital‐to‐analog converter (DAC8562, TI) are all soldered on fPCB using solder paste (CD‐LT 528, Conduction, China) at 138°C.

Techniques: Battery, Encapsulation, Transmission Assay, Blocking Assay