Review of polymer-based sensors for agriculture-related applications

Palaparthy, Vinay S.; Baghini, Maryam Shojaei; Singh, Devendrá

doi:10.1680/emr.13.00010

Cited by 42 publications

(23 citation statements)

References 28 publications

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“…Since then, enormous progress has been made in the macromolecular engineering of the !-conjugated polymers and in their uses as active materials in polymeric light-emitting diodes (PLEDs) [2][3][4][5][6]. These polymers are promising organic analogues of inorganic semi-conducting materials, and their exploitation in other electronic devices, such as thin-film transistors [7,8], photovoltaic cells [9,10], chemical sensors [11] and organic lasers [12] are currently expanding. The main advantages of using such functional polymers lie in their low production cost and easy processibility.…”

Section: Introductionmentioning

confidence: 99%

New poly(p-phenylenevinylene) derivatives containing isosorbide unit in the side-chain

Zrida¹,

Hriz²,

Jaballah³

et al. 2014

Express Polym. Lett.

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Abstract. New conjugated PPV derivatives containing the chiral isosorbide group (P1-3) have been synthesized via the Gilch reaction. The polymers are optically active, soluble in common organic solvents and show good film-forming abilities. High number-average molecular weights were determined by size exclusion chromatography (SEC) (16·10 3 -21·10 3 g·mol -1 ). The molecular structures of the polymers were confirmed by nuclear magnetic resonance (NMR) and Fourier transform infrared (FTIR) spectroscopies. Thermogravimetric analysis of the polymers showed good thermal stability up to 320°C. The optical properties of these !-conjugated materials were investigated by UV-vis absorption and photoluminescence (PL) spectroscopies. The polymers show a yellow fluorescence in dilute solution, and an orange emission is observed in thin films. The introduction of the polar isosorbide groups improved the PL intensity, and quantum yields between 50 and 73% were obtained. The HOMO-LUMO energy levels were estimated by cyclic voltammetry, and the electrochemical gaps were 1.81, 1.83 and 2.48 eV for P1, P2 and P3, respectively. Single-layer diode devices were fabricated and show relatively low turn-on voltages between 3.1 and 3.4 V. Vol.8, No.10 (2014) 709-722 Available online at www.expresspolymlett.com DOI: 10.3144/expresspolymlett.2014.74 * Corresponding author, e-mail: mustapha.majdoub@fsm.rnu.tn © BME-PT insoluble in common organic solvents. This intractability has been addressed by chemically attaching aliphatic side-chains to the polymer backbone [19]. Hence, many PPV-type architectures are processed in a derivative form. The effects of the side-group structure on the opto-electronic properties have been extensively investigated [20]. However, most studies have involved nonpolar sidechains, and the effect of relatively polar side-groups was rarely reported (e.g PPV derivative containing ethylene oxide-type side chains) [12]. Here, we report the first PPV derivatives containing the polar and chiral isosorbide groups. In fact, the incorporation of chiral groups in polypyrroles and polythiophenes was reported. These groups confer original physico-chemical properties to the polymer [21][22][23]. Therefore, these optically active polymers were used to prepare chiral electrodes for asymmetric electrosynthesis, polarization-sensitive electro-optical devices, polarized photo-and electroluminescent devices and enantioselective sensors [24]. Herein, we present the synthesis and structural characterizations of the isosorbide-containing PPVs; the thermal, thin film surface, optical and electrochemical properties were investigated. Keywords: polymer synthesis, optically active polymers, semi-conducting polymers, isosorbide, photoluminescence eXPRESS Polymer Letters Experimental 2.1. Materials and measurementsThe poly (2-hexyloxy-5-methoxy-p-phenylenevinylene) (MH-PPV) was synthesized by using Gilch condensation. Detailed synthesis procedure can be found elsewhere [20].

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Section: Introductionmentioning

confidence: 99%

New poly(p-phenylenevinylene) derivatives containing isosorbide unit in the side-chain

Zrida¹,

Hriz²,

Jaballah³

et al. 2014

Express Polym. Lett.

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“…The first article 8 Compared with other solvents (capping agents), oleic acid is cheaper, more environment friendly and stable in air. The as-prepared CdTe quantum dots exhibit cubic crystallite with size in the range of 3-11 nm.…”

Section: Ice | Sciencementioning

confidence: 99%

Editorial

Ravindra¹

2013

Emerging Materials Research

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Research in materials science and engineering is progressing rapidly. The global emphasis, education and awareness have been focusing on the intensification of applications, recycling and reuse of materials for the benefit of humanity. This is leading to a new culture of enhanced creativity and increased respect for the world we live in. Thus, the gaps between fundamental research in materials science and engineering, research and development, and manufacturing are beginning to narrow.Due to the unique set of characteristics that include mechanical, optical, electronic and structural properties, scientists are exploring graphene for device applications. Researchers have shown that graphene can be used to improve the performance of a broad range of devices. By incorporating graphene into a silicone encapsulant, scientists have demonstrated increase in thermal conductivity, decrease in thermal expansion coefficient, improvement in chemical resistance and enhancement in the long-term stability of inorganic white light-emitting diodes (LEDs).1 Graphene has been a boon for applications in optoelectronics. The applications include polarizers, ultrafast lasers, transparent electrodes and photodetectors. However, a low absolute absorption observed in a single layer of graphene, ~2·3% of the incident photon, needs to addressed. In an attempt, Pirruccio et al.2 studied a multilayer structure of graphene in an attenuated total reflectance configuration. They found an enhanced absorption over the entire visible spectrum as a consequence of coherent absorption resulting from controllable interference and dissipation. Recent research has also shown that graphene materials are useful for capacitive energy storage. Yang et al.3 have integrated graphene sheets with a non-volatile liquid electrolyte forming an electrochemical capacitor (EC) with energy density of ~60 Wh/l, which is much greater than for most commercially available ECs (5-8 Wh/l). In a separate research, Mousavi et al. 4 has studied metamaterial tuning, a topic of extreme importance in modern science and technology, in which the resonance frequency of metamaterials shifts to blue -this has been made possible by coating them with a graphene layer. Now, with the help of both blue shifting and red shifting of the resonant frequency, the metamaterials working in the broader frequency range are discovered day by day, which has a wide range of applications from 'super lens' to cloaking devices.Research on biosensors has recently been updated with the discovery of a glass-based chip, instead of silicon-based electrochemical arrays.5 Limitations inherent in the complexity of the integrated circuit in the existing device have been addressed in this research by designing solution-based circuits. This not only enables highly multiplexed sensing but also provides rapid detection at lower cost. Similarly, a new probing device used in the fluorescence studies of biological system has been designed by Yang et al. 6 This device has an advantage over commonly used organic fluoro...

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“…Relative humidity (RH) is another parameter which indirectly affects photosynthesis and the plant growth. High RH reduces carbon dioxide uptake in the plants [15]. Atmospheric temperature is another important parameter which affects plant development and productivity, e.g., pollination is a temperature sensitive phenomenon.…”

Section: Introductionmentioning

confidence: 99%

Design and Implementation of a Wireless Sensor Network for Agricultural Applications

John¹,

Kasbekar²,

Sharma³

et al. 2018

EAI Endorsed Trans IoT

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We present the design and implementation of a shortest path tree based, energy efficient data collection wireless sensor network to sense various parameters in an agricultural farm using in-house developed low cost sensors. Nodes follow a synchronized, periodic sleep-wake up schedule to maximize the lifetime of the network. The implemented network consists of 24 sensor nodes in a 3 acre maize farm and its performance is captured by 7 snooper nodes for different data collection intervals: 10 minutes, 1 hour and 3 hours. The almost static nature of wireless links in the farm motivated us to use the same tree for a long data collection period (3 days). The imbalance in energy consumption across nodes is observed to be very small and the network architecture uses easy-to-implement protocols to perform different network activities including handling of node failures. We present the results and analysis of extensive tests conducted on our implementation, which provide significant insights.

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Review of polymer-based sensors for agriculture-related applications

Cited by 42 publications

References 28 publications

New poly(p-phenylenevinylene) derivatives containing isosorbide unit in the side-chain

New poly(p-phenylenevinylene) derivatives containing isosorbide unit in the side-chain

Editorial

Design and Implementation of a Wireless Sensor Network for Agricultural Applications

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