Evaluation of Three Peptide Immobilization Techniques on a QCM Surface Related to Acetaldehyde Responses in the Gas Phase

Wasilewski, T.; Szulczyński, Bartosz; Kamysz, Wojciech; Gębicki, Jacek; Namieśnik, Jacek

doi:10.3390/s18113942

Cited by 31 publications

(27 citation statements)

References 47 publications

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“…Furthermore, the biotoxicity of metallic electrodes caused by some bioactive coating films can be eliminated through employing electrodeless crystal configurations [36] . Additionally, molecularly imprinted polymers (MIPs) [37] , polished gold films [38] , biomimetic peptide-based sensing materials [39] , multi-wall carbon nanotubes [40] , acidized-multiwalled carbon nanotubes [41] and calixarenes [42] can be used in QCM sensors to coat surface layers.…”

Section: Quartz Crystal Microbalance (Qcm) Sensorsmentioning

confidence: 99%

Electronic Nose and Its Applications: A Survey

Karakaya

Ulucan

Türkan

2019

Int. J. Autom. Comput.

248

152

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In the last two decades, improvements in materials, sensors and machine learning technologies have led to a rapid extension of electronic nose (EN) related research topics with diverse applications. The food and beverage industry, agriculture and forestry, medicine and health-care, indoor and outdoor monitoring, military and civilian security systems are the leading fields which take great advantage from the rapidity, stability, portability and compactness of ENs. Although the EN technology provides numerous benefits, further enhancements in both hardware and software components are necessary for utilizing ENs in practice. This paper provides an extensive survey of the EN technology and its wide range of application fields, through a comprehensive analysis of algorithms proposed in the literature, while exploiting related domains with possible future suggestions for this research topic.

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Section: Quartz Crystal Microbalance (Qcm) Sensorsmentioning

confidence: 99%

Electronic Nose and Its Applications: A Survey

Karakaya

Ulucan

Türkan

2019

Int. J. Autom. Comput.

248

152

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“…The QCM transducers’ surfaces can be covered with different layers, such as metals, metal alloys, metal oxides [ 11 ], semiconductors, polymers, biomaterials, etc. [ 12 , 13 , 14 ]. The sensitivity of QCMs is about 100 times higher than that of a typical precise analytical balance, thus enabling observation of mass change at a nanogram level (for a typical piezoelectric sensor with 10 MHz frequency, a change in mass of 4.4 ng·cm −2 results in a frequency change of around 1 Hz) [ 15 ], as well as distinguishing single layers or even atomic monolayers [ 16 ].…”

Section: Qcm Technology Basicsmentioning

confidence: 99%

“…Due to the application of selected transduction techniques in chemo- and bio-sensors [ 18 , 19 , 20 , 21 , 22 , 23 ], it is possible to evaluate the deposition degree of particular materials [ 24 ], for instance in the form of self-assembled monolayers (SAM) [ 12 , 25 ], and to analyze gas phase composition [ 14 , 26 , 27 ]. Nowadays, the priority in design and development of QCM analytical platforms is given to naturally occurring compounds, since they are excellent receptors with superior selectivity for the target analytes [ 28 ].…”

Section: Qcm Technology Basicsmentioning

confidence: 99%

“…Nevertheless, the QCM analyses still have some limitations, namely the lack of a standardization method for protein/peptide drug product development studies and a relatively long time of analysis (approximately 1 h). Another important problem with the QCM might be poor reproducibility of layer deposition on the surface of transducer, which can have a massive impact on the measurements with this technology [ 12 , 127 ] and might call for complementary techniques, such as microscopic characterization of obtained surfaces. However, to overcome this problem one can also acquire commercially available sensors [ 128 ].…”

Section: Conclusion and Future Perspectivesmentioning

confidence: 99%

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Application of QCM in Peptide and Protein-Based Drug Product Development

2020

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AT-cut quartz crystals vibrating in the thickness-shear mode (TSM), especially quartz crystal resonators (QCRs), are well known as very efficient mass sensitive systems because of their sensitivity, accuracy, and biofunctionalization capacity. They are highly reliable in the measurement of the mass of deposited samples, in both gas and liquid matrices. Moreover, they offer real-time monitoring, as well as relatively low production and operation costs. These features make mass sensitive systems applicable in a wide range of different applications, including studies on protein and peptide primary packaging, formulation, and drug product manufacturing process development. This review summarizes the information on some particular implementations of quartz crystal microbalance (QCM) instruments in protein and peptide drug product development as well as their future prospects.

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“…When used as biosensors, it has an added advantage of being a label-free sensor. The typical configuration of QCM is a single element sensor, but multichannel QCM array have also been proposed [7], [8]. QCM arrays can help to minimize effects of variations in environmental parameters such as temperature.…”

Section: Introductionmentioning

confidence: 99%

Integrated Multichannel Electrochemical–Quartz Crystal Microbalance Sensors for Liquid Sensing

et al. 2020

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This paper highlights the design, simulation and fabrication of an array of twelve integrated electrochemical-quartz crystal microbalance (IEQCM) sensors on a single substrate for liquid sensing. Integration of both measurement techniques is made possible by combining the three electrode electrochemical device with the top and bottom electrodes for the microbalance. Important design parameters such as the working electrode radius and gap spacing, were studied using both theoretical calculations and COMSOL Multiphysics R finite element simulations. The sensor's working electrode radius affects the magnitude of the frequency response while the gap affects the capacitance and current density which are important for electrochemical measurements. It was found that the best values for the working electrode radius was 2 mm and gap spacing was 0.5 mm. The sensors were fabricated using microfabrication techniques for the gold electrode and screen printing techniques for the reference electrode. Water contact angle, atomic force microscopy, and scanning electron microscope were utilized to study the surface roughness of the IEQCM sensor. IEQCM has a low contact angle of 53.0 ± 1 • and low surface roughness of 1.92nm. For liquid sensing, an array of circular chambers were fabricated using polydimethylsiloxane (PDMS) and placed on top of the quartz substrate for liquid testing. Electrochemical measurements and cyclic voltammetry were performed using the sensor in ferri-ferrocyanide and phosphate buffered saline solution to study the function of scan rates on the peak current with respect to the potential difference. For mass sensing measurements, liquid water droplets of 1uL-10 uL were placed onto the sensing surface and the change in resonance frequencies of the sensors were measured. These resonance frequency changes can be converted in mass change/area in accordance to the advanced Sauerbrey equation. The multichannel IEQCM sensor shows good potential as a parallel sensor for both biosensing and environmental applications. INDEX TERMS Quartz crystal microbalance (QCM), electrochemical impedance spectroscopy (EIS), sensor arrays, microelectromechanical devices, mass spectroscopy, and acoustic devices.

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Evaluation of Three Peptide Immobilization Techniques on a QCM Surface Related to Acetaldehyde Responses in the Gas Phase

Cited by 31 publications

References 47 publications

Electronic Nose and Its Applications: A Survey

Electronic Nose and Its Applications: A Survey

Application of QCM in Peptide and Protein-Based Drug Product Development

Integrated Multichannel Electrochemical–Quartz Crystal Microbalance Sensors for Liquid Sensing

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