2020
DOI: 10.1021/acsanm.0c02512
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Nitrogen-Incorporated Ovoid-Shaped Nanodiamond Films for Dopamine Detection

Abstract: Nitrogen-incorporated ovoid-shaped nanodiamond (NOND) film exhibits excellent electrochemical sensing properties owing to its unique characteristics. In this study, to improve the sensitivity of NOND-based biosensors for dopamine (DA) detection, a detailed investigation concerning the growth mechanism of NOND films was conducted, it is found that the NOND films did not directly grow on a Si substrate during the growth process but preferentially originated from the formation of a thin Si3N4 interlayer attribute… Show more

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Cited by 11 publications
(14 citation statements)
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References 34 publications
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“…Various approaches have been utilized to overcome this issue. For example, Chang et al, (2020) [ 133 ] develop electrochemical sensor using nitrogen-incorporated ovoid-shaped nanodiamond (NOND). The NOND film was synthesized using MPECVD method in pristine and patterned Si substrate.…”
Section: Sensor Applicationsmentioning
confidence: 99%
“…Various approaches have been utilized to overcome this issue. For example, Chang et al, (2020) [ 133 ] develop electrochemical sensor using nitrogen-incorporated ovoid-shaped nanodiamond (NOND). The NOND film was synthesized using MPECVD method in pristine and patterned Si substrate.…”
Section: Sensor Applicationsmentioning
confidence: 99%
“…Such excellence was particularly pronounced for the AA detection performance. Note that none of the previous form of diamond film, neither the porous/nonporous boron-doped diamond (BDD) film [64][65][66] nor the N-incorporated diamond film [4,26] were able to detect the AA molecule.…”
Section: Impact Of the Two-dimensional Object Evolution On The Electr...mentioning
confidence: 99%
“…[14] The N-UNCD is fabricated through the intriguing bottom-up evolution of the diamond-graphite hybrid nanostructure under chemical vapor deposition (CVD). [4][5][6][7][8][9] While the material is indeed outstanding in the neural stimulation and recording, there's still an important issue to be resolved: their performance for the simultaneous electrochemical detection of the neural transmitter, for example, dopamine (DA) in presence of ascorbic acid (AA) and uric acid (UA) is still far from satisfactory, [26,27] as compared to that of the nanocarbon-powder-based porous thin films. [28] Furthermore, the detection of AA in presence of interference from DA and UA, which is inevitable in many biological samples, [29] is particularly challenging, relative to those of DA and UA, which might be attributed to the lack of π-π molecular bonding route of AA absorption on carbon electrode.…”
mentioning
confidence: 99%
“… 31 , 32 In particular, nitrogen-incorporated diamond films can increase the formation of sp 2 hybridization, which is beneficial in increasing the number of charge carriers. 33 NUNCDs have been used in several applications, especially in biosensors; 34 36 in this regard, the sensing surface area and the electrical conductivity are two key parameters to affect the sensor performance. A heterojunction semiconductor system can create more electron travel pathways due to the generation of electric fields at the interfaces.…”
Section: Introductionmentioning
confidence: 99%
“…According to the published articles, it was reported that the incorporation of N 2 into the CH 4 plasma in the UNCD fabrication process can synthesize electrically active acicular-shaped NUNCD which possesses excellent charge transmission properties with high surface area. , In particular, nitrogen-incorporated diamond films can increase the formation of sp 2 hybridization, which is beneficial in increasing the number of charge carriers . NUNCDs have been used in several applications, especially in biosensors; in this regard, the sensing surface area and the electrical conductivity are two key parameters to affect the sensor performance. A heterojunction semiconductor system can create more electron travel pathways due to the generation of electric fields at the interfaces. NUNCD and ZnO/NUNCD on the Si substrate possess different work functions; the lower work function of ZnO/NUNCD facilitates carrier transfer through the interfaces.…”
Section: Introductionmentioning
confidence: 99%