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Journal articles on the topic 'Nano-sensor'

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Author: Grafiati
Published: 9 March 2023
Last updated: 10 March 2023

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1

jain, Shruti, M. Arif Sanjid, Ashish agarwal, and Shobi Bagga. "Nano Displacement Sensor." International Journal of Engineering Trends and Technology 40, no. 6 (October 25, 2016): 330–34. http://dx.doi.org/10.14445/22315381/ijett-v40p253.

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2

Devika, Ms J., and Ms S. Sasipriya. "Exploration of Nano Humidity Sensor in Agriculture Field." International Journal of Trend in Scientific Research and Development Volume-2, Issue-4 (June 30, 2018): 1903–6. http://dx.doi.org/10.31142/ijtsrd14281.

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3

Akkaş, Mustafa Alper. "Nano-Sensor Modelling for Intra-Body Nano-Networks." Wireless Personal Communications 118, no. 4 (February 11, 2021): 3129–43. http://dx.doi.org/10.1007/s11277-021-08171-2.

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AbstractIn this work, the author has evaluated the propagation of electromagnetic waves inside the human tissue such as blood, skin and fat for single-path and multi-path layers according to nano sensor transmit power calculations. In particular, the propagation characteristics of the Intra-Body Nano-Network communication channel are calculated using a theoretical approach. The analysis in this paper provides an evaluation related to the path loss, bit error rate, signal to noise ratio and the channel capacity. The model is evaluated for each single-path effect and multi-path effect. The effects of human tissue for each blood, skin and fat for single-path effect and multi-path are included in the analysis. The model frequency range is chosen from 0.01 to 1.5 THz frequencies, which are ideal for designing nano sensors antennae and using THz range for communication. This paper will also guide other researchers who are working on the electromagnetic radiation performance of Intra-Body Nano-Network and Nano sensors designed at the THz range.
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4

Sahafi, Ali, Jafar Sobhi, and Ziaddin Daie Koozehkanani. "Nano Watt CMOS temperature sensor." Analog Integrated Circuits and Signal Processing 75, no. 3 (February 22, 2013): 343–48. http://dx.doi.org/10.1007/s10470-013-0046-6.

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5

Huang, Kai Jin, Li Yan, and Chang Sheng Xie. "Fabrication and Gas Sensing Properties of Nano γ-Fe2O3/ZnO Double-Layer Film Gas Sensor." Applied Mechanics and Materials 29-32 (August 2010): 602–6. http://dx.doi.org/10.4028/www.scientific.net/amm.29-32.602.

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The nano γ-Fe2O3/ZnO double-layer film gas sensor was fabricated by the screen printing technology and the hydrothermal method. XRD and SEM techniques were used to characterize the phases and morphologies of the film. The gas sensing properties of the gas sensor to ethanol were investigated. The result shows that the gas sensitivity of the gas sensor is higher than that of the nano γ-Fe2O3 single-layer film gas sensor and the nano ZnO single-layer film gas sensor. The high gas sensitivity of the nano γ-Fe2O3/ZnO double-layer film to ethanol was caused by the combined effect and nano effect.
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6

Hui, Guo Hua. "A Novel Temperature Sensor Based on Gold Interdigital Electrodes and Nano ZnO Particles." Applied Mechanics and Materials 20-23 (January 2010): 1495–98. http://dx.doi.org/10.4028/www.scientific.net/amm.20-23.1495.

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Nano ZnO is an important kind of semiconductor materials, and it has been widely used in various single detection fields. In this paper, we prepared nano ZnO powder through direct precipitation method. We fabricated temperature sensor utilizing the interdigitated Au electrodes drop-deposited by nano ZnO powder. The response of the sensor to temperature was studied by CHI660 electrical chemical workstation. The results proved that the temperature sensor based on nano ZnO material presented sensitivity and repeatibility
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7

Nahm, Seung Hoon, Hoon Sik Jang, Sank Koo Jeon, and Hak Joo Lee. "Mechanical Properties Evaluation of Nano-Structured Materials in Scanning Electron Microscope." Materials Science Forum 654-656 (June 2010): 2312–15. http://dx.doi.org/10.4028/www.scientific.net/msf.654-656.2312.

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To apply nano-structured materials in micro/nano system, understanding of the mechanical properties of nano-structured materials is required. In order to perform the mechanical test of nano-structured materials, the mechanical testing system was installed in a scanning electron microscope (SEM). The nano-manipulator was set up in the SEM, and the force sensor formed as a cantilever was mounted on the nano-manipulator. Then, the force sensor can be controlled by using the nano-manipulator. The nano-structured materials were dispersed on the transmission electron microscope (TEM) grid, and both end of the nano-structured materials were welded on the TEM grid and the tip of force sensor by exposing E-beam of the SEM. The tensile tests for carbon nanotubes, ZnO nanorods and ZnS nanowires were carried out in the SEM, respectively. The load response during the mechanical test was obtained by force sensor. The dimension of nano-structured materials was obtained by determining the configuration measured from the TEM. And, strain-stress curve was obtained after mechanical test. The elastic modulus of the nano-structured materials after the tensile tests were calculated and compared. The elastic modulus for multi-walled carbon nanotubes, ZnO nanorod and ZnS nanowire were ~0.98 TPa, ~59 and ~39 GPa, respectively.
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8

Muhardi, Muhardi, Winda Sari, and Yuda Irawan. "PROTOTYPE JEMURAN OTOMATIS MENGGUNAKAN SENSOR RAINDROP DAN SENSOR LDR BERBASIS ARDUINO NANO." Jurnal Ilmu Komputer 10, no. 2 (October 31, 2021): 102–6. http://dx.doi.org/10.33060/jik/2021/vol10.iss2.222.

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Pada saat memasuki musim hujan banyak kegiatan masyarakat yang memanfaatkan panas matahari menjadi terganggu. Salah satunya yaitu menjemur pakaian. Hal ini menjadi masalah ketika pakaian yang dijemur menjadi basah. Berdasar kan permasalahan diatas dibuatlah Prototype Jemuran Otomatis Menggunakan Sensor Raindrop dan Sensor LDR Berbasis Arduino Nano. Dimana dapat membantu menyelamatkan kain jemuran keposisi yang tidak terkena hujan. Hal ini dapat menjadi suatu prototype yang dapat diterapkan di cantik laundry sehingga tidak perlu takut dan khawatir apabila jemuran pakaian ditinggal disaat melakukan pekerjaan yang lainnya. Prototype Jemuran Otomatis Menggunakan Sensor Raindrop dan Sensor LDR Berbasis Arduino Nano bisa masuk otomatis secara langsung dan bisa menyalakan kipas didalam ruangan apabila hujan turun. Kipas berfungsi untuk mengeringkan pakaian yang berada didalam ruangan agar pakaian tidak berbau. Untuk mengatasi permasalahan tersebut, dibuatlah Prototype Jemuran Otomatis Menggunakan Sensor Raindrop dan Sensor LDR Berbasis Arduino Nano. Dengan memanfaatkan sensor Raindrop dan sensor LDR. Hasil dari penelitian ini adalah jemuran dapat masuk ke dalam ruangan saat sensor Raindrop dan Sensor LDR mendeteksi hari sudah gelap atau saat hujan turun.
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9

Poronica, Balwinder Singh, and Rekha Devi. "Parameterized Comparison of Carbon Nano Tube Piezoresisitive Nano Pressure Sensor." Sensor Letters 15, no. 8 (August 1, 2017): 676–81. http://dx.doi.org/10.1166/sl.2017.3866.

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10

Balavalad, Kirankumar B., PraveenKumar B. Balavalad, and Somanath Pidashetti. "Optimization of Nano Capacitive Pressure Sensor for Medical Applications." IOP Conference Series: Materials Science and Engineering 1065, no. 1 (February 1, 2021): 012050. http://dx.doi.org/10.1088/1757-899x/1065/1/012050.

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Abstract Nano/NEMS sensors have emerged from MEMS technology. Nano sensors have got lot of applications in medical and health care applications. Nano sensors have lot of attributes which make them very unique and special, such as: small size, low mass, high sensitivity and low cost of production. In this paper we present optimization of nano capacitive pressure sensor dimensions for medical applications. Capacitive pressure sensors are well suited for low pressure sensing applications. Typically, in medical field involve low pressure levels ranging from few Pascals to kilo Pascals. DoE is used for the optimization of sensor dimensions. The sensor is optimized to operate over the pressure range up to 100 kPa. Over this pressure range the sensor dimensions are optimized to get better response in terms of capacitance. The proposed optimization illustrates the dimensions best suited for the design of nano capacitive pressure sensor for operational range up to 100 kPa.
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11

Wang, Shih-Han, Tse-Chuan Chou, and Chung-Chiun Liu. "Nano-crystalline tungsten oxide NO2 sensor." Sensors and Actuators B: Chemical 94, no. 3 (October 2003): 343–51. http://dx.doi.org/10.1016/s0925-4005(03)00383-6.

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12

Podešva, Pavel, and František Foret. "Metal nano-film resistivity chemical sensor." ELECTROPHORESIS 37, no. 3 (August 13, 2015): 392–97. http://dx.doi.org/10.1002/elps.201500190.

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13

LIU, YIYANG, YUECHAO WANG, PENG YU, and ZAILI DONG. "DESIGN, MODELING, AND MICROMANIPULATION EXPERIMENTS OF A NOVEL 2-D MICRO FORCE SENSOR." International Journal of Information Acquisition 07, no. 01 (March 2010): 51–57. http://dx.doi.org/10.1142/s0219878910002075.

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Because of the micro/nano manipulation's complexity, the accurate feedback information of the micro interactive force acting on micro devices is quite important and necessary for micro/nano manipulation, especially the 2-D micro interactive force feedback information. At present, there are no reliable and accurate 2-D micro force sensors applied in micro/nano manipulation. To solve the above problem, a novel 2-D micro force sensor that can reliably measure force in the range of submicro Newton (μN) is designed and developed in this paper. Based on the model of 1-D micro force sensor designed by us, the model of this 2-D sensor is set up. To verify the model of the 2-D sensor, micromanipulation experiments are designed and realized. Experiment results show the submicro Newton resolution, and verify the validity of the 2-D sensor's model. The developed 2-D micro force sensor will contribute to promoting the complexity of micro/nano manipulation, and will facilitate to automate the micro/nano manipulation.
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14

Suradi, Suradi, Faridah Faridah, and A. Patala Putra. "AUTOMATIC HAND DRYER BERBASIS ARDUINO NANO." ILTEK : Jurnal Teknologi 13, no. 01 (April 14, 2018): 1871–76. http://dx.doi.org/10.47398/iltek.v13i01.125.

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Automatic Hand driyer ini bisa memberikan kemudahan pengeringan tangan basah. Di Rumah Sakit, selalu menemukan Perawat dan Petugas Kesehatan lainnya dianjurkan mencuci tangan setelah menghubungi pasien atau bahan kimia lainnya agar tidak diserang kuman di tangan. Sehingga membuat Automatic Hand Dryer Berbasis Arduino Nano, Tujuan penelitian ini adalah menggunakan mikrokontroler Arduino Nano dan sensor Ultrasound sebagai alat kontrol pengering tangan. Menggunakan sensor Ultrasound untuk mendeteksi gerakan tangan, mendapatkan informasi dan mengirimkannya ke mikrokontroler. Penelitian ini menggunakan mikrokontroler Arduino Nano untuk memproses input dan menggerakkan motor AC pada pengering tangan. Pengering tangan otomatis ini bisa memberikan kemudahan pengeringan tangan basah anda sehingga bisa menghemat waktu dan tenaga. Kesimpulan bahwa pemanfaatan mikrokontroler arduino nano menggunakan sensor ultrasound sebagai alat kontrol pengering tangan telah dikembangkan.
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15

Chakravarthy, K. K. J., P. S. Brahmanandam, D. M. Potukuchi, G. Anil Kumar, and N. S. Subba Rao. "Simulations of silicon nanowire sensor and an integrated smart bio-nano sensor." International Journal of Dental Materials 04, no. 03 (2022): 58–61. http://dx.doi.org/10.37983/ijdm.2022.4302.

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Background:Simulation-based nano biosensors have been introduced in recent times that will provide a model for the researchers to verify various critical functions of them, which could effectively save time, money, and effort.Materials and Methods:In this study, we have performed simulations of a silicon nanowire (Si-NW) biosensor, and its various parameters were evaluated. This silicon sensor was designed using the BiosensorLab tool, a simulator from the nanohub website. This paper also presentedan Integrated Smart Bio-nano Sensor. The motivation behind this smart sensor was that an incident happened in one of the southern states of India, in the year 2020; the leakage of styrene gas (C8H8) from the Polymers industry caused 12 deaths and several people hospitalized. Most people died after they inhaled styrene gas because they thought the pungent smell (of styrene gas) was also part of their kitchen’s emissions. This incident prompted us to propose an Integrated Smart Bio-nano Sensor. Results:The proposed sensor was capable of classifying the origin of sources of emissions dynamically (smart), even under lower concentrations of gas levels (25 ppm) and could alert the habitants in case of untoward danger. Conclusions:After verifying settling time vs. analyte concentration, the density of captured target molecules concentration with time vs. time, and the signal-to-noise ratio (SNR) of the biosensor in the presence of parasitic molecules vs. receptor density, it was concluded that these three parameters have helped in identifying the characteristics of the proposed bio-nano sensor.
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16

JANG, HOON-SIK, SEUNG HOON NAHM, JUNG HAN KIM, and KYU HWAN OH. "TENSILE PROPERTIES OF CARBON NANOFIBERS USING NANO-MANIPULATOR INSIDE SCANNING ELECTRON MICROSCOPE." International Journal of Modern Physics B 25, no. 31 (December 20, 2011): 4233–36. http://dx.doi.org/10.1142/s0217979211066659.

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We performed the tensile test of an individual carbon nanofiber (CNF) inside a scanning electron microscope. The mechanical testing system was installed in a scanning electron microscope (SEM). The nano-manipulator was set up in the SEM, and the force sensor, which is formed as a cantilever, was mounted on the nano-manipulator. Then, the force sensor can be controlled by using the nano-manipulator. The CNFs were dispersed on the transmission electron microscope (TEM) grid, and the both end of the CNFs were welded on the TEM grid and the tip of force sensor by exposing electron-beam of the SEM. The tensile test of the CNFs was performed by controlling the nano-manipulator. The load response during the tensile test was obtained by force sensor. Stess-strain curve was obtained from force-displacement curve of CNF after tensile test. The elastic modulus of CNFs was calculated at ~12.5 GPa.
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17

Molinnus, Denise, Stefan Beging, Carsten Lowis, and Michael J. Schöning. "Towards a Multi-Enzyme Capacitive Field-Effect Biosensor by Comparative Study of Drop-Coating and Nano-Spotting Technique." Sensors 20, no. 17 (August 31, 2020): 4924. http://dx.doi.org/10.3390/s20174924.

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Multi-enzyme immobilization onto a capacitive field-effect biosensor by nano-spotting technique is presented. The nano-spotting technique allows to immobilize different enzymes simultaneously on the sensor surface with high spatial resolution without additional photolithographical patterning. The amount of applied enzymatic cocktail on the sensor surface can be tailored. Capacitive electrolyte-insulator-semiconductor (EIS) field-effect sensors with Ta2O5 as pH-sensitive transducer layer have been chosen to immobilize the three different (pL droplets) enzymes penicillinase, urease, and glucose oxidase. Nano-spotting immobilization is compared to conventional drop-coating method by defining different geometrical layouts on the sensor surface (fully, half-, and quarter-spotted). The drop diameter is varying between 84 µm and 102 µm, depending on the number of applied drops (1 to 4) per spot. For multi-analyte detection, penicillinase and urease are simultaneously nano-spotted on the EIS sensor. Sensor characterization was performed by C/V (capacitance/voltage) and ConCap (constant capacitance) measurements. Average penicillin, glucose, and urea sensitivities for the spotted enzymes were 81.7 mV/dec, 40.5 mV/dec, and 68.9 mV/dec, respectively.
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18

LIU, YIYANG, YUECHAO WANG, PENG YU, and ZAILI DONG. "INFINITE DIMENSION MODELING OF A NOVEL MICROFORCE SENSOR AND THE APPLICATION IN MICROMANIPULATION." International Journal of Information Acquisition 07, no. 04 (December 2010): 299–307. http://dx.doi.org/10.1142/s0219878910002221.

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To accurately measure the micro-interactive force (for example, adhesion, surface tension, friction, and assembly force) acting on microdevices during micro/nano manipulation, a novel microforce sensor that can reliably measure force in the range of sub-micro-Newton (μN) is designed and developed in this study. During the application of this microforce sensor in micro/nano manipulation, the accuracy of this sensor's model is quite important to the force control of the system. Therefore, the accurate infinite dimension model of the microforce sensor and micromanipulator is built up. Based on the infinite dimension model, the impedance control system is designed. To verify the infinite dimension model and the control system, micromanipulation experiments are designed and realized. Experiment results verify the accuracy of the infinite dimension model of the sensor and show the efficiency of the impedance control system. The developed microforce sensor and the infinite dimension modeling provide a feasible and versatile solution in microforce sensing and feedback force control for micro/nano manipulation, and will promote the technology of automating the micro/nano manipulation.
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19

Nazemi, Haleh, Aashish Joseph, Jaewoo Park, and Arezoo Emadi. "Advanced Micro- and Nano-Gas Sensor Technology: A Review." Sensors 19, no. 6 (March 14, 2019): 1285. http://dx.doi.org/10.3390/s19061285.

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Micro- and nano-sensors lie at the heart of critical innovation in fields ranging from medical to environmental sciences. In recent years, there has been a significant improvement in sensor design along with the advances in micro- and nano-fabrication technology and the use of newly designed materials, leading to the development of high-performance gas sensors. Advanced micro- and nano-fabrication technology enables miniaturization of these sensors into micro-sized gas sensor arrays while maintaining the sensing performance. These capabilities facilitate the development of miniaturized integrated gas sensor arrays that enhance both sensor sensitivity and selectivity towards various analytes. In the past, several micro- and nano-gas sensors have been proposed and investigated where each type of sensor exhibits various advantages and limitations in sensing resolution, operating power, response, and recovery time. This paper presents an overview of the recent progress made in a wide range of gas-sensing technology. The sensing functionalizing materials, the advanced micro-machining fabrication methods, as well as their constraints on the sensor design, are discussed. The sensors’ working mechanisms and their structures and configurations are reviewed. Finally, the future development outlook and the potential applications made feasible by each category of the sensors are discussed.
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20

Xu, Shiyou, and Yong Shi. "Low temperature high sensor response nano gas sensor using ITO nanofibers." Sensors and Actuators B: Chemical 143, no. 1 (December 4, 2009): 71–75. http://dx.doi.org/10.1016/j.snb.2009.08.057.

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21

Chen, Weihua, Kaiyang Zhang, and Zewei Zhong. "TiO2-DNA Nanosensor In Situ for Quick Detection of Nasal Flora in Allergic Rhinitis Patients." Computational and Mathematical Methods in Medicine 2022 (April 13, 2022): 1–9. http://dx.doi.org/10.1155/2022/5708326.

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Background. A relevant study found that allergic rhinitis (AR) may be related to the imbalance of nasal flora. Therefore, if the nasal flora of AR patients can be detected quickly, it is of great significance to study the distribution law of nasal flora in AR patients and explore its correlation with AR. Objective. To design a new and convenient nano-DNA sensor for quick screening of nasal flora in allergic rhinitis (AR) patients, so as to provide experimental basis for the prevention and treatment of AR. Methods. We create a synthesized nanostructured DNA biosensor called Nano-TiO2-DNA sensor which can be combined with samples from nasal mucosa or secretion with high efficiency and detect certain flora in situ without DNA extraction or RNA sequencing. In a physical property test, firstly, we tested the permeability, solubility, and storage temperature of nano-TiO2, so as to provide experimental basis for the synthesis of Nano-TiO2-DNA sensor. Subsequently, the permeability of Nano-TiO2-DNA sensor in Staphylococcus aureus was further tested. In a clinical experiment, we selected 60 AR patients treated in our hospital from September 2020 to September 2021 as the AR group and 60 healthy people who underwent physical examination at the same time as the control group. The Nano-TiO2-DNA sensor was used to detect typical nasal flora in AR patients, and Pearson’s correlation analysis was used to explore the correlation between nasal flora with serum IgE and eosinophils. Results. As for physicochemical characteristics, this sensor can permeate into certain bacteria directly and specifically. It has high affinity ability with a target, and the combination can be detected by evaluating the released fluorescence qualitatively and quantitatively. It can be stored at −20°C in ethyl alcohol stably. By this sensor, we have successfully detected Staphylococcus aureus, Klebsiella pneumoniae, and viridans streptococci in AR patients compared with healthy people, which will help these patients in the prevention of acute sinusitis and acute or subacute pneumonia. Furthermore, we found Proteus had the strongest positive correlation with AR while Actinomyces had the biggest negative correlation. Conclusion. The Nano-TiO2-DNA sensor will help an outpatient doctor more for quick screening certain nasal flora in AR patients and improve the prevention of AR-related complications.
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22

Shin, Yoo-Kyum, Yujin Shin, Jung Woo Lee, and Min-Ho Seo. "Micro-/Nano-Structured Biodegradable Pressure Sensors for Biomedical Applications." Biosensors 12, no. 11 (November 1, 2022): 952. http://dx.doi.org/10.3390/bios12110952.

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The interest in biodegradable pressure sensors in the biomedical field is growing because of their temporary existence in wearable and implantable applications without any biocompatibility issues. In contrast to the limited sensing performance and biocompatibility of initially developed biodegradable pressure sensors, device performances and functionalities have drastically improved owing to the recent developments in micro-/nano-technologies including device structures and materials. Thus, there is greater possibility of their use in diagnosis and healthcare applications. This review article summarizes the recent advances in micro-/nano-structured biodegradable pressure sensor devices. In particular, we focus on the considerable improvement in performance and functionality at the device-level that has been achieved by adapting the geometrical design parameters in the micro- and nano-meter range. First, the material choices and sensing mechanisms available for fabricating micro-/nano-structured biodegradable pressure sensor devices are discussed. Then, this is followed by a historical development in the biodegradable pressure sensors. In particular, we highlight not only the fabrication methods and performances of the sensor device, but also their biocompatibility. Finally, we intoduce the recent examples of the micro/nano-structured biodegradable pressure sensor for biomedical applications.
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PENG, Bao-jin, Lian-qin LI, Qian-qian MA, Meng-jiao WANG, and Zeng-hui WANG. "Micro-nano optical fiber coupled strain sensor." Optics and Precision Engineering 29, no. 5 (2021): 958–66. http://dx.doi.org/10.37188/ope.20212905.0958.

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24

Srivastava, AtulRanjan, AmodKumar Pandey, and Kartik Goyal. "EFFECT OF SENSOR NETWORKS IN NANO-ROBOTICS." International Journal of Advanced Research 5, no. 5 (May 31, 2017): 1197–201. http://dx.doi.org/10.21474/ijar01/4232.

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Riul, Antonio, Roger R. Malmegrim, Fernando J. Fonseca, and Luiz H. C. Mattoso. "Nano-Assembled Films for Taste Sensor Application." Artificial Organs 27, no. 5 (May 9, 2003): 469–72. http://dx.doi.org/10.1046/j.1525-1594.2003.07243.x.

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26

Kumar, Vivek, Shashwati Sen, M. Sharma, K. P. Muthe, Jagannath, N. K. Gaur, and S. K. Gupta. "Tellurium Nano-Structure Based NO Gas Sensor." Journal of Nanoscience and Nanotechnology 9, no. 9 (September 1, 2009): 5278–82. http://dx.doi.org/10.1166/jnn.2009.1185.

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Lutanie, Elisabeth. "New nano-sensor speeds up DNA detection." Materials Today 12, no. 11 (November 2009): 9. http://dx.doi.org/10.1016/s1369-7021(09)70288-3.

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28

Hao, L., J. C. Macfarlane, S. K. H. Lam, C. P. Foley, P. Josephs-Franks, and J. C. Gallop. "Inductive Sensor Based on Nano-Scale SQUIDs." IEEE Transactions on Appiled Superconductivity 15, no. 2 (June 2005): 514–17. http://dx.doi.org/10.1109/tasc.2005.849892.

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29

Gao, Libo, Ke Cao, Xinkang Hu, Ran Xiao, Bin Gan, Weidong Wang, and Yang Lu. "Nano electromechanical approach for flexible piezoresistive sensor." Applied Materials Today 18 (March 2020): 100475. http://dx.doi.org/10.1016/j.apmt.2019.100475.

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30

Junaidi, Ach, Frida Agung Rakhmadi, Asih Melati, and Kuwat Triyana. "Design of Ammonia Gas Measurement System using TGS-826 Sensor, Arduino Nano Microcontroller, 16x2 LCD, and Micro SD Module." Proceeding International Conference on Science and Engineering 3 (April 30, 2020): 243–44. http://dx.doi.org/10.14421/icse.v3.505.

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Design of ammonia gas measurement system using TGS-826 sensor, Arduino Nano microcontroller, 16x2 LCD and micro SD module has been successfully carried out. Design was created with the help of SketchUp application. System design that has been made consists of ammonia adsorption chamber and electronic components in the form of a TGS-826 sensor, Arduino Nano microcontroller, 16x2 LCD and micro SD module. Working principle of the system that has been designed begins with the active sensor TGS-826 in detecting ammonia gas. Output from the sensor is then forwarded to the Arduino Nano microcontroller for processing. Processed data is then displayed by 16x2 LCD and the ammonia gas measurement data will automatically be stored in the micro SD module. Results of this design will make it easier in making the system.
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Talukder, Rahat Morad, Al Shahriar Hossain Rakib, Julija Skolnik, Zohair Usfoor, Katharina Kaufmann, Roland Hergenröder, and Victoria Shpacovitch. "Modifications of the PAMONO-Sensor Help to Size and Quantify Low Number of Individual Biological and Non-Biological Nano-Particles." Engineering Proceedings 6, no. 1 (May 17, 2021): 26. http://dx.doi.org/10.3390/i3s2021dresden-10136.

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In a series of recently published works, we demonstrated that the plasmon-assisted microscopy of nano-objects (PAMONO) technique can be successfully employed for the sizing and quantification of single viruses, virus-like particles, microvesicles and charged non-biological particles. This approach enables label-free, but specific detection of biological nano-vesicles. Hence, the sensor, which was built up utilizing plasmon-assisted microscopy, possesses relative versatility and it can be used as a platform for cell-based assays. However, one of the challenging tasks for such a sensor was the ability to reach a homogeneous illumination of the whole surface of the gold sensor slide. Moreover, in order to enable the detection of even relatively low concentrations of nano-particles, the focused image area had to be expanded. Both tasks were solved via modifications of previously described PAMONO-sensor set ups. Taken together, our latest findings can help to develop a research and diagnostic platform based on the principles of the surface plasmon resonance (SPR)-assisted microscopy of nano-objects.
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Li, Jun Shou, Yu Jun Yin, Jun Yan, and Bao Cai Xu. "Thermal Explosive Deforming Synthesis of SnO2 Nano-Fiber." Key Engineering Materials 280-283 (February 2007): 699–700. http://dx.doi.org/10.4028/www.scientific.net/kem.280-283.699.

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A new method, named the thermal explosive deforming synthesis (TEDS), for producing SnO2 nano-fibers is reported. The optimal condition for forming SnO2 nano-fibers is also discussed. The resulting SnO2 fibers have diameters in the range of 20 ~ 100 nm and are expected as the matrix materials for gas sensor, humidity sensor and piezoresistive pick-up.
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33

Liu, Weiping, Zhaofeng Wang, Ximing Zhang, Yulin Wang, Bochun Hu, and Ye Zhuang. "Fault Tolerant and Nano Displacement Drive Control Method of Photoelectric Motor for Battery Electric Vehicle." Journal of Nanoelectronics and Optoelectronics 16, no. 2 (February 1, 2021): 293–302. http://dx.doi.org/10.1166/jno.2021.2957.

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The low-resolution photoelectric position sensor is used, that is, Hall position sensor replaces the traditional photoelectric encoder and other high-resolution position sensors to monitor the rotor position. However, because the three-phase Hall position sensor can only output six position signals, a hardware circuit design of low-resolution position sensor monitoring rotor position signal is proposed. Meanwhile, nanotechnology has been introduced in the study of micro drive of battery electric vehicle (BEV). BEV driver has some disadvantages such as hysteresis, creep and nonlinearity, which seriously affects its application in nano environment. A nano displacement sensor is designed for the characteristics of BEV driver. The nonlinear problem of micro driver is solved through the closed-loop control of position feedback. In the test, through the verification of rotor position and current waveform, it can be proved that the method based on photoelectric position sensor and rotor position signal monitoring can ensure the low deviation of rotor position calculation and correct output signal of three-phase photoelectric position sensor. The decoupling performance of vector control is verified by 3/2 transformation. In the displacement detection of micro driver, the designed nano displacement sensor has higher resolution and its performance is better than that of the previous three generations of displacement sensors.
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Han, Jing, Dong Li, Chunmao Zhao, Xiaoyan Wang, Jie Li, and Xinzhe Wu. "Highly Sensitive Impact Sensor Based on PVDF-TrFE/Nano-ZnO Composite Thin Film." Sensors 19, no. 4 (February 18, 2019): 830. http://dx.doi.org/10.3390/s19040830.

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A thin film of polyvinylidene fluoride-trifluoroethylene (PVDF-TrFE) has good flexibility and simple preparation process. More importantly, compared with PVDF, its piezoelectric β-phase can be easily formed without mechanical stretching. However, its piezoelectricity is relatively lower. Therefore, at present, PVDF-TrFE is always compounded with other kinds of piezoelectric materials to solve this problem. The effect of nano-ZnO doping amount on the sensing characteristics of the piezoelectric films was studied. PVDF-TrFE/nano-ZnO films with different nano-ZnO contents were prepared by spin coating process and packaged. The dispersion of nano-ZnO dopants and the crystallinity of β-phase in piezoelectric films with different nano-ZnO contents were observed by scanning electron microscopy and X-ray diffraction, and the piezoelectric strain constants and dielectric constants were measured, respectively. The effect of different nano-ZnO contents on the output performance of the piezoelectric sensor was obtained by a series of impact experiments. The results show that the piezoelectric strain constant and dielectric constant can be increased by doping nano-ZnO in PVDF-TrFE. Moreover, the doping amount of nano-ZnO in PVDF-TrFE is of great significance for improving the piezoelectric properties of PVDF-TrFE/nano-ZnO thin films. Among the prepared piezoelectric films, the output voltage of PVDF-TrFE/nano-ZnO piezoelectric sensor with 7.5% nano-ZnO doping amount is about 5.5 times that of pure PVDF-TrFE. Thus, the optimal range of the doping amount for nano-ZnO is about 4–10%.
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35

Huang, Kai Jin. "Gas Sensitivity of MnO2 Doped Nano ZnO Coplanar Plate-Type Gas Sensor Arrays." Advanced Materials Research 159 (December 2010): 634–37. http://dx.doi.org/10.4028/www.scientific.net/amr.159.634.

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Based on the integrated technologies of screen printing and hydrothermal method, this paper introduced a new integrative method with materials microstructure controlled growth and gas sensor fabrication. For example,based on space positioning using screen printing and ZnO nanwall with large specific surface area induced by hydrothermal method on the surface of ZnO film, the MnO2 doped nano ZnO coplanar plate-type gas sensor arrays with a good gas sensitivity to formaldehyde were fabricated successfully. The results show that the sensitivity to formaldehyde of MnO2 doped nano ZnO gas sensor arrays fabricated by hydrothermal method in 0.01mol/L Zn(NO3)2 solution, 95°C for 5h on the surface of MnO2 doped nano ZnO film and sintering at 500°C for 2h is higher than that of in distilled water. The existence of ZnO nanwall with large specific surface area induced by hydrothermal method on the surface of MnO2 doped nano ZnO film is the important reason of improvement for the sensitivity to formaldehyde.
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36

Saputra, Festian Yanuar, M. Saleh Al Amin, and Perawati . "Alat Pengukur Tinggi Badan, Berat Badan, Dan Suhu Badan Digital Menggunakan Sensor Ultrasonik, Load Cell, Dan Inframerah Mlx90614." Jurnal Tekno 19, no. 1 (April 25, 2022): 60–67. http://dx.doi.org/10.33557/jtekno.v19i1.1638.

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Digitally measuring height, weight, and human body temperature based on Arduino nano, ultrasonic (proximity sensor), Load Cell (weight sensor), and Mlx90614 (temperature sensor) is a tool that serves to measure and get the value of a sensor quantity on a person's body based on certain units. The working principle of this tool is based on ultrasonic reflected light, the pressure of an object, and infrared radiation. The system design includes the working principle of ultrasonic sensors, load cells, Mlx90614, arduino nano, 16x2 lcd + i2c lcd, lm2596 step down module. This device circuit system is a circuit capable of changing a length, weight, and temperature so that it can be processed and displayed in the form of an electrical system. The process of change is by converting distance, weight, and temperature into analog voltages, after going through the signal conditioning process by amplifying, the analog voltage is converted into digital data. The digital data obtained is then processed by Arduino and displayed. The results of the performance of this tool have an average measurement error of 1.16% for measuring height, -0.69% for measuring weight, and 4.35% for measuring body temperature. Keywords: Arduino Nano, Ultrasonic Sensor, Load Cell Sensor, Mlx90614 Sensor.
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Wu, Yuting, Xiaoli Zhu, Qingning Duan, Juan Ji, Yingji Jin, Jindong Li, and Yan Qin. "Detection of Budesonide and Other Anti-Inflammatory Drugs Based on Biological Nano Sensing Technology in the Treatment of Childhood Asthma." Journal of Nanoscience and Nanotechnology 21, no. 2 (February 1, 2021): 1025–31. http://dx.doi.org/10.1166/jnn.2021.18660.

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Biological nano sensing technology is a new high-tech which is a cross fusion of biology, chemistry, physics, electronics and many other fields. Biological nano sensing technology mainly uses the unique chemical properties and corresponding physical properties of biomolecules at nanometer level to detect, which greatly improves the sensitivity and flexibility of detection. The micro effect, quantum effect and corresponding macro quantum tunneling effect of nano molecules make their corresponding nano biosensors have extremely high detection performance. In this paper, the antiinflammatory drugs such as budesonide, which are used to treat children’s asthma, will be measured by the biological nano sensor based on the new nano materials. The treatment of children after the inhalation of budesonide and other drugs will be measured by the biological nano sensor technology. Finally, a new research idea will be provided for the research of children’s asthma pathology and related fields. In this paper, in the actual preparation of nano sensors, we mainly use functionalized carbon nanotubes to prepare sensors. The main advantage is that the price is low and easy to market and experiment promotion.
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38

Chavan, D. N., G. E. Patil, D. D. Kajale, V. B. Gaikwad, P. K. Khanna, and G. H. Jain. "Nano Ag-DopedIn2O3Thick Film: A Low-TemperatureH2SGas Sensor." Journal of Sensors 2011 (2011): 1–8. http://dx.doi.org/10.1155/2011/824215.

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Thick films of AR grade In2O3were prepared by standard screen-printing technique. The gas sensing performances of thick films were tested for various gases. It showed maximum sensitivity to ethanol vapour at 350°C for 80 ppm concentration. To improve the sensitivity and selectivity of the film towards a particular gas, In2O3sensors were surface-modified by dipping them in a solution of 2% nanosilver for different intervals of time. Obtained results indicated that spherical nano-Ag grains are highly dispersed on the surface of In2O3sensor. The surface area of the nano-Ag/ In2O3sensor is several times larger than that of pure In2O3sensor. In comparison with pure In2O3sensor, all of the nano-Ag-doped sensors showed better sensing performance in respect of response, selectivity, and optimum operating temperature. The surface-modified (30 min) In2O3sensor showed larger sensitivity to H2S gas (10 ppm) at 100°C. Nano silver on the surface of the film shifts the reactivity of film from ethanol vapour to H2S gas. A systematic study of gas sensing performance of the sensor indicates the key role played by the nano silver species on the surface. The sensitivity, selectivity, response, and recovery time of the sensor were measured and presented.
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39

Malode, Shweta J., K. Keerthi Prabhu, and Nagaraj P. Shetti. "Electrocatalytic behavior of a heterostructured nanocomposite sensor for aminotriazole." New Journal of Chemistry 44, no. 44 (2020): 19376–84. http://dx.doi.org/10.1039/d0nj04644b.

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40

Jeong, D. H., Hyun Kyu Kweon, and Y. S. Kim. "Development of the Precision Stage with Nanometer Accuracy and a Millimeter Dynamic Range." Key Engineering Materials 381-382 (June 2008): 47–48. http://dx.doi.org/10.4028/www.scientific.net/kem.381-382.47.

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Most of the nano-positioning systems(stage) are accomplished by a flexure hinge mechanism, which is two or three multilayer PZT actuators to realize the high accuracy and long range[1]. In this paper, it can be made by a new nano stage with the bending characteristics of the mechanical cantilever that is composed of the step motor, one multilayer PZT actuator and the displacement sensor unit. The sensor unit consists of semiconductor LD, PD and sensor holder. The displacement of stage is acquired by the bending control of the cantilever between the step motor and the PZT actuator. The basic properties of the positioning stage are presented. From these results, we can know that the new nano stage can be made by only one multilayer PZT actuator .
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41

Huang, Kai Jin, Shou Wei Ma, and Fang Li Yuan. "High Ethanol Gas Sensitivity of Nano γ-Fe2O3/ZnO Double-Layer Films Prepared by the Screen Printing Technology and the Hydrothermal Method." Applied Mechanics and Materials 151 (January 2012): 350–54. http://dx.doi.org/10.4028/www.scientific.net/amm.151.350.

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The gas sensor with high ethanol gas sensitivity made of nano γ-Fe2O3/ZnO double-layer films was fabricated by the screen printing technology and the hydrothermal process with addition of citric acid (CA) surfactant based on Zn(NO3)2·6H2O and HMTA. XRD and SEM techniques were used to characterize the phases and morphologies of the films. The gas sensing properties of the gas sensor to ethanol were investigated. The result shows that the gas sensitivity of the nano γ-Fe2O3/ZnO double-layer films is higher than that of the nano γ-Fe2O3 single-layer film fabricated by the screen printing technology and the nano ZnO single-layer film fabricated by the hydrothermal process with addition of citric acid (CA) surfactant based on Zn(NO3)2·6H2O and HMTA, respectively. The high ethanol gas sensitivity of the nano γ-Fe2O3/ZnO double-layer films was caused by the nano effect and the special energy band structure
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42

Meng, Jinwei, Wei Luo, Duo Yi, Xuejin Li, and Xueming Hong. "Numerical Analyses of Liquid-Core Fiber Optic SPR Sensor with Nano-Porous Sio2 as Inner Coating." Journal of Physics: Conference Series 2185, no. 1 (January 1, 2022): 012076. http://dx.doi.org/10.1088/1742-6596/2185/1/012076.

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Abstract In this paper, a novel type of liquid-core fiber optic SPR sensor with a nano-porous SiO2 inner coating is proposed. The nano-porous SiO2 is deposited on the inner wall of the quartz tube. Due to the flexible and adjustable refractive index of the deposited material, the RI detection range of the sensor is expanded. The simulation results show that the proposed sensor owns good responses in both low and high refractive index regions, with the corresponding RI sensitivities of 1043.71 nm/RIU and 1234.86 nm/RIU respectively, while the FWHM is only about 20 nm. There are some potential applications for the proposed sensor in environmental monitoring, biochemical detection, food safety etc.
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43

Zhao, Xiao Feng, Tong Wu, Jing Ya Cao, Dian Zhong Wen, Hong Quan Zhang, Cui Cui Zhuang, and Yang Yu. "Fabrication and Characteristics of Silicon Bridge Magnetic Sensor Based on Nano-Polysilicon TFTs." Key Engineering Materials 609-610 (April 2014): 1100–1105. http://dx.doi.org/10.4028/www.scientific.net/kem.609-610.1100.

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A silicon bridge magnetic sensor based on nano-polysilicon TFTs is presented in this paper.It adopted four nano-polysilicon TFTs on the center of every squared silicon membrane edge to forma Wheatstone bridge, and then its squared silicon membrane center was sticked by ferromagnetic material.The sensor simulation was realized by adopting ANSYS software. The simulation results showthat based on the piezoresistive effect, the measurement to the external magnetic field can be achieved.According to the simulation results, we designed and fabricated the silicon bridge magnetic sensor byCMOS technology and MEMS technology. The experimental results show that when supply voltageof the sensor is 5.0 V, its full range (4.0 kGs) output voltage is 10.97 mV, and magnetic sensitivity is1.44 mV/kGs.
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44

Baharudin, Diani Muslimah. "RANCANG BANGUN SISTEM DETEKSI GERAKAN MANUSIA UNTUK OTOMATISASI AIR CONDITIONING BERBASIS ARDUINO." JURNAL PERANGKAT LUNAK 4, no. 3 (December 12, 2022): 139–45. http://dx.doi.org/10.32520/jupel.v4i3.2243.

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Sebuah perangkat yang disebut air conditioner (AC) digunakan untuk mendinginkan dan mengontrol kelembaban di ruang tertutup. Namun masih banyak terjadi pemborosan penggunaan, seperti gagal mematikan pendingin ruangan (AC) saat keluar ruangan, yang membuat cara penggunaan air conditioner (AC) yang ada saat ini menjadi tidak efektif. Akibatnya, kami membutuhkan teknologi yang tepat untuk menyelesaikan masalah ini. Merancang dan membangun sistem deteksi manusia untuk sistem otomasi berbasis Arduino untuk AC. Alat ini digunakan untuk mendeteksi gerakan manusia dan mengontrol AC ruangan dari jarak jauh yang berbasis web dan Arduino. Perangkat keras berbentuk kotak dengan Arduino Nano sebagai pengendali utama sistem, sensor PIR sebagai input pendeteksi gerakan, dan DHT11 sebagai sensor suhu dan kelembapan.Kata Kunci : Arduino Nano, Sensor PIR, Sensor DHT11, IoT
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45

Aprilia, Suci, Erry Koryanti, and Idha Royani. "Optimasi Ukuran dan Jumlah Pori yang Terbentuk Pada Molacularly Imprinted Polymer (MIP) Nano Karbaril (C12H11NO2)." POSITRON 10, no. 2 (December 29, 2020): 14. http://dx.doi.org/10.26418/positron.v10i2.40104.

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Telah dilakukan pembuatan molecular imprinted polymer (MIP) nano karbaril dengan metode cooling-heating. Pembuatan MIP nano karbaril bertujuan untuk mendapatkan material sensor yang potensial dalam aplikasinya. Dalam penelitian ini, bahan aktif karbaril di-milling dengan variasi waktu 10 menit dan 15 menit. Pada proses polimerisasi melibatkan templat nano karbaril, methacrylic acid (MAA) sebagai monomer fungsional, ethylene glycol dimathacrylate (EDMA) sebagai crosslinker, benzoil peroksida (BPO) sebagai inisiator, dan acetonitril sebagai pelarut yang disintesis menggunakan metode cooling-heating. Dengan cara yang sama, non-imprinted polymer (NIP) juga dibuat sebagai polimer kontrol. NIP merupakan polimer yang dibuat dengan komposisi dan cara yang sama dengan MIP, namun tidak ditambahkan nano karbaril sebagai zat aktif. Pembuangan templat pada proses ekstraksi sangat berperan penting untuk menghasilkan material sensor yang baik. MIP, polimer, dan NIP yang dihasilkan di karakterisasi menggunakan Fourier transform infrared (FTIR) dan sampel terbaik dideteksi lebih lanjut dengan uji x-ray diffraction (X-RD), dan scanning electron microscope (SEM). Hasil FTIR menunjukkan bahwa gugus fungsi spesifik nano karbaril pada NIP tidak tampak bila dibandingkan dengan spektra MIP, dan terjadi penurunan persen transmitansi pada polimer dan peningkatan % transmitansi pada MIP. Hal ini menjelaskan bahwa terjadi penurunan konsentrasi nano karbaril pada MIP setelah proses ektraksi. Hasil X-RD menunjukkan ukuran kristal yaitu 9,16 Å. Hasil SEM menunjukkan bahwa jumlah pori tercetak dengan ukuran ≤100 nm yaitu 383 pori. Data ini mengindikasikan bahwa MIP nano karbaril potensial untuk diaplikasikan sebagai material sensor.
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46

Li, Xi De, and Zhao Zhang. "Probe-Type Microforce Sensor for Mirco/Nano Experimental Mechanics." Advanced Materials Research 33-37 (March 2008): 943–48. http://dx.doi.org/10.4028/www.scientific.net/amr.33-37.943.

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In recent years with the development of MEMS and NEMS, various micro and nano scale experiments are required. In general, the smaller the sample, the smaller the force is in the measurement. But it is difficult to load and measure such small force. We developed a probe-type loading and force sensor system to measure micro/nano samples. The system employs a semiconductor strain gauge of a cantilever type sensor and a micro manipulator. A highly sensitive, stable sensing cantilever beam made of single crystal silicon is ion implanted to form the P-type resistor (strain sensor). A tungsten probe with 100 nm radius of curvature was attached to the end of the cantilever as the micro loading tip. We constructed the measurement system and investigated its properties, such as linearity, dynamic response and stability. We also employed microspeckle interferometry to calibrate the force sensor. In preliminary experiments, we successfully obtained the force resolution 0.7 μN and applied our probe-type microforce sensor to calibrate an atomic force microscope (AFM) probe beam and test a single silkworm filament.
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47

Jianjun Lu, and Marcus Bowles. "How Will Nano-Sensor Technology Affect Logistics Management." Journal of Convergence Information Technology 8, no. 2 (January 31, 2013): 820–28. http://dx.doi.org/10.4156/jcit.vol8.issue2.98.

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48

Hazra, Surajit, and Sukumar Basu. "Graphene-Oxide Nano Composites for Chemical Sensor Applications." C 2, no. 2 (April 12, 2016): 12. http://dx.doi.org/10.3390/c2020012.

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49

Keller, L. O., K. T. Kallis, and H. L. Fiedler. "Nano-Fin Based Mercury-Sensor for Environmental Surveillance." Journal of Nanoscience and Nanotechnology 10, no. 9 (September 1, 2010): 5921–25. http://dx.doi.org/10.1166/jnn.2010.2605.

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50

POROD, WOLFGANG, FRANK WERBLIN, LEON O. CHUA, TAMÁS ROSKA, ÁNGEL RODRIGUEZ-VÁZQUEZ, BOTOND ROSKA, PATRICK FAY, GARY H. BERNSTEIN, YIH-FANG HUANG, and ÁRPÁD I. CSURGAY. "Bio-Inspired Nano-Sensor-Enhanced CNN Visual Computer." Annals of the New York Academy of Sciences 1013, no. 1 (May 2004): 92–109. http://dx.doi.org/10.1196/annals.1305.011.

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