Highly Stretchable Potentiometric pH Sensor Fabricated via Laser Carbonization and Machining of Carbon−Polyaniline Composite

Rahimi, Rahim; Ochoa, Manuel; Tamayol, Ali; Khalili, Shahla; Khademhosseini, Ali; Ziaie, Babak

doi:10.1021/acsami.6b16228

Cited by 153 publications

(117 citation statements)

References 46 publications

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“…[1][2][3][4] Organic semiconductors, especially those based on conjugated polymers, are promising towards these ends and have been explored extensively. [5][6][7][8] While these materials offer extraordinary properties, production scale manufacturing of devices based on many of these materials remains a chemistry and engineering challenge due to a variety of factors. One issue relates to making large, even, and defect free films on transparent electrodes that are sufficient for device applications.…”

Section: Introductionmentioning

confidence: 99%

Flexible and Robust Electro‐Optically Responsive Films Based on Novel Silica/Oligoaniline/Carbon Dots Composite

Zhou

Berda

et al. 2019

ChemElectroChem

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We report a new electro-optical composite film based on silica, oligoaniline, and carbon dots prepared by a hydrolytic crosslinking reaction under electrokinetic potentials. The electroactive oligoaniline and fluorescent carbon dots are covalently linked through hydrolysis of siloxane, resulting in multifunctional composite films. The resultant crosslinked architecture endows the films with high flexibility and robust durability. These films display good electrochromic behavior with an obvious color contrast, quick switching rate, and acceptable cycling stability. Moreover, these films reveal an interesting electrofluorochromic performance in continuous potential ranges, attributed to the interaction between oligoaniline and carbon dots, and the change in structure that occurs with changing redox potentials. Further, an enhanced photocurrent response is observed in these materials, as a result of the organic-inorganic interfaces.

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Section: Introductionmentioning

confidence: 99%

Flexible and Robust Electro‐Optically Responsive Films Based on Novel Silica/Oligoaniline/Carbon Dots Composite

Zhou

Berda

et al. 2019

ChemElectroChem

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“…Because of the straightforward transduction principle and simple readout configuration, potentiometric pH sensors have been the dominant instrument used for pH sensing, including stretchable pH sensors. 112,121,188 The spectrometric pH sensor is an alternative sensing technique. Unlike electrochemical pH sensing, the spectrometric technique indirectly acquires the pH of a solution by measuring the concentration of the acidic and basic forms of the pH indicators.…”

Section: Ph Sensorsmentioning

confidence: 99%

“…Non-stretchable ISE materials were optimized through geometry engineering into meander/serpentine patterns and island-bridge configurations to produce stretchable pH sensors. 121,188 In 2014, Chung et al reported an island-bridge strategy enabled stretchable pH sensor array. 191 In 2015, Hwang et al reported the production of stretchable Si NM-and Si NR-based transient electronics with device islands connected by serpentine or out-out-plane interconnects that allow the system to accommodate large deformations without fracture.…”

Section: Ph Sensorsmentioning

confidence: 99%

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Stretchable sensors for environmental monitoring

Yang

Deng

2019

Applied Physics Reviews

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The development of flexible and stretchable sensors has been receiving increasing attention in recent years. In particular, stretchable, skin-like, wearable sensors are desirable for a variety of potential applications such as personalized health monitoring, human-machine interfaces, and environmental sensing. In this paper, we review recent advancements in the development of mechanically flexible and stretchable sensors and systems that can be used to quantitatively assess environmental parameters including light, temperature, humidity, gas, and pH. We discuss innovations in the device structure, material selection, and fabrication methods which explain the stretchability characteristics of these environmental sensors and provide a detailed and comparative study of their sensing mechanisms, sensor characteristics, mechanical performance, and limitations. Finally, we provide a summary of current challenges and an outlook on opportunities for possible future research directions for this emerging field.

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“…[3] With a soft polymer, to the traditionally adopted direct heating method for polymer carbonization lie on its patternability in ambient environment with more flexibility, versatility, and highly controlled fashion. DLWc has been successfully applied to fabricate carbon patterns targeted for a variety of interesting applications, e.g., supercapacitors, [37][38][39][40][41] flexible electrodes, [42] heating elements, [43] various sensors for detecting/measuring sound and vibration, [39] strain or stress, [44][45][46] humidity, [46] pH value, [47] and biomolecules. [48] Given the success of DLWc, its use for fabricating dense, homogenous, and ultrathin carbon films is still a challenge.…”

Section: Introductionmentioning

confidence: 99%

Microcontact Printing with Laser Direct Writing Carbonization for Facile Fabrication of Carbon‐Based Ultrathin Disk Arrays and Ordered Holey Films

Ruan

Luo

Wang

et al. 2019

Small

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A nanometer‐thick carbon film with a highly ordered pattern structure is very useful in a variety of applications. However, its large‐scale, high‐throughput, and low‐cost fabrication is still a great challenge. Herein, microcontact printing (µCP) and direct laser writing carbonization (DLWc) are combined to develop a novel method that enables ease of fabrication of nanometer‐thick and regularly patterned carbon disk arrays (CDAs) and holey carbon films (HCFs) from a pyromellitic dianhydride‐oxydianiline‐based polyamic acid (PAA) solution. The effect of PAA concentration and pillar lattice structure of the polydimethyl siloxane stamp are systematically studied for their influence on the geometrical parameter, surface morphology, and chemical structure of the finally achieved CDAs and HCFs. Within the PAA concentration being investigated, the averaged thickness of CDAs and HCFs can be tailored in a range from a few tens to a few hundred of nanometers. The µCP+DLWc‐enabled electrically conductive CDAs and HCFs possess the characteristics of ease‐of‐fabrication, nanometer‐thickness, highly regular and controlled patterns and structures, and the ability to form on both hard and soft substrates, which imparts usefulness in electronics, photonics, energy storage, catalysis, tissue engineering, as well as physical, chemical, and bio‐sensing applications.

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Highly Stretchable Potentiometric pH Sensor Fabricated via Laser Carbonization and Machining of Carbon−Polyaniline Composite

Cited by 153 publications

References 46 publications

Flexible and Robust Electro‐Optically Responsive Films Based on Novel Silica/Oligoaniline/Carbon Dots Composite

Flexible and Robust Electro‐Optically Responsive Films Based on Novel Silica/Oligoaniline/Carbon Dots Composite

Stretchable sensors for environmental monitoring

Microcontact Printing with Laser Direct Writing Carbonization for Facile Fabrication of Carbon‐Based Ultrathin Disk Arrays and Ordered Holey Films

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