Experimental and theoretical rationalization of the growth mechanism of silicon quantum dots in non-stoichiometric SiN<i><sub>x</sub></i>: role of chlorine in plasma enhanced chemical vapour deposition

Mon-Pérez, E.; Salazar, Jaime Santoyo; Ramos, Estrella; Suárez, A López; Dutt, A.; Santana, G.; Monroy, B.M.

doi:10.1088/0957-4484/27/45/455703

Cited by 15 publications

(13 citation statements)

References 35 publications

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“…The silicon and oxygen precursors were SiH 4 (5%) and N 2 O, respectively. For comparison, we choose N 2 [9], [10] and NH 3 [11], [12] as nitrogen precursor, respectively. Initially, the single SiN x and SiO 2 layers were deposited respectively at the reactor to calibrate the growth rate and optical constants about refractive index (n) and extinction coefficient (k).…”

Section: Methodsmentioning

confidence: 99%

A High-Performance SiO₂/SiN _x 1-D Photonic Crystal UV Filter Used for Solar-Blind Photodetectors

et al. 2019

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To improve the solar-blind/visible-blind photocurrent response rejection ratio of solar-blind photodetectors, we designed and fabricated a high-performance SiO 2 /SiN x 1-D photonic crystal (PC) ultraviolet (UV) filter on (0 0 0 1) double-polished sapphire substrate. When depositing SiN x , we found that employing NH 3 as nitrogen precursor instead of N 2 can simultaneously improve the peak reflectivity of filter stopband in the designed visible-blind region and the transmissivity in the solar-blind region. Research shows that it is associated with the H atom concentration in SiN x and the generation of Si-O-N transition layer at SiO 2 /SiN x interface. Finally, we obtained a high-performance SiO 2 /SiN x PC UV filter with a stopband reflectivity over 90% from 285 to 345 nm and a transmissivity over 80% in the solar-blind region. The UV filter is also demonstrated to have a good effect in improving the solar-blind/visible-blind photocurrent response rejection ratio of a back-illuminated AlGaN photodetector by depositing it to the back of the detector.

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Section: Methodsmentioning

confidence: 99%

A High-Performance SiO₂/SiN _x 1-D Photonic Crystal UV Filter Used for Solar-Blind Photodetectors

et al. 2019

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“…The hydrogen from the precursor helps to extract the Cl from the thin‐film surface, thus forming an HCl bond. [ 24 ] These reaction changes could be either exothermic or endothermic in nature. On the other hand, the probability that atomic hydrogen breaks the weaker bonds from the thin film, either on the surface or in bulk, is very high.…”

Section: Emission Mechanisms Of Si Nanostructures In the Nitride‐rela...mentioning

confidence: 99%

“…The most probable bonds to be broken during the reaction process are SiH, NH, and SiSi. [ 24 ] In this way, the SiH and SiSi breaking bonds help in the formation of reaction centers for growth enhancement of Si NPs and QDs inside the SiNx matrix, whereas dissociation of the NH bond endorses the matrix growth, favoring insertion of the silylene species (exothermic reactions) which can increase the average size of Si NPs and QDs. According to the theoretical calculations obtained in this report, in all cases, the insertion of silylene species on the SiCl and SiH bonds generated crystalline zones in the nitride matrix producing many SiSi bonds.…”

Section: Emission Mechanisms Of Si Nanostructures In the Nitride‐rela...mentioning

confidence: 99%

“…According to the theoretical calculations obtained in this report, in all cases, the insertion of silylene species on the SiCl and SiH bonds generated crystalline zones in the nitride matrix producing many SiSi bonds. [ 24 ] Consequently, the exothermic reactions could induce a local heating process inside the matrix, and as a result, the crystallinity of Si QDs is enhanced in the case of the SiN x rich in Si, as evidenced by Figure a,b and the SAED images shown in Figure 11c when compared with Figure 11d–f for SiN x matrix rich in nitrogen. [ 24 ] In all cases, these samples showed visible PL following the QCE, as observed in Figure 11g for the silicon‐rich and nitrogen‐rich matrix, respectively.…”

Section: Emission Mechanisms Of Si Nanostructures In the Nitride‐rela...mentioning

confidence: 99%

“…Several investigations related to the structural, optical, and electrical analysis of Si‐based nanomaterials have been explored and discussed in some of our recently published reports. [ 22–29 ] Now, keeping in mind the optical responses offered by Si‐based compound nanomaterials (QDs, SiO x , SiN x , SiC) and the experience gained from our previous studies, we believe that the PL properties could be a linking point to the biological research. Moreover, in this review, the Web of Science database has been used to compile information about the number of literature reports in the area, in general, for bioimaging and optical diagnostics.…”

Section: Introductionmentioning

confidence: 97%

See 2 more Smart Citations

Silicon Compound Nanomaterials: Exploring Emission Mechanisms and Photobiological Applications

Dutt,

Salinas,

Martínez-Tolibia

et al. 2023

Advanced Photonics Research

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After the first visible photoluminescence (PL) from porous silicon (pSi), continuous efforts are made to fabricate Si‐based compound nanomaterials embedded in matrices such as oxide, nitride, and carbide to improve optical performance and industrial acceptability. These nanomaterials’ functional and desired properties (nanoparticles and quantum dots embedded in matrices) can vary significantly when embedded in technologically relevant matrices. However, exploring the exact emission mechanisms is one of the remaining challenges from the past few decades. To cover this gap, this review discusses the morphological and optoelectronic properties of Si‐based compound nanomaterials and their correlation with the quantum confinement effect and different surface states to find precise emission mechanisms. One of the biggest challenges of using silicon nanomaterials in the biological sector is the development of sensitive materials of low/acceptable toxicity for identifying target analytes either inside/outside the biological platforms. In this scenario, silicon‐based compound matrices can offer different characteristics and advantages depending on their size configurations and PL emission mechanisms. On the other hand, a proper understanding of these multifaceted silicon nanomaterials’ optical properties (emission mechanisms) can be exploited for pathogen detection and in situ applications in cells and tissues, embarking on a new era of bioimaging technology.

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Double stack layer structure of SiN x /pm-Si thin films for downshifting and antireflection properties

Mon-Pérez¹,

Dutt²,

Santoyo-Salazar

et al. 2017

Materials Letters

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Experimental and theoretical rationalization of the growth mechanism of silicon quantum dots in non-stoichiometric SiN_x: role of chlorine in plasma enhanced chemical vapour deposition

Cited by 15 publications

References 35 publications

A High-Performance SiO₂/SiN _x 1-D Photonic Crystal UV Filter Used for Solar-Blind Photodetectors

A High-Performance SiO₂/SiN _x 1-D Photonic Crystal UV Filter Used for Solar-Blind Photodetectors

Silicon Compound Nanomaterials: Exploring Emission Mechanisms and Photobiological Applications

Double stack layer structure of SiN x /pm-Si thin films for downshifting and antireflection properties

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Experimental and theoretical rationalization of the growth mechanism of silicon quantum dots in non-stoichiometric SiNx: role of chlorine in plasma enhanced chemical vapour deposition

Cited by 15 publications

References 35 publications

A High-Performance SiO2/SiN x 1-D Photonic Crystal UV Filter Used for Solar-Blind Photodetectors

A High-Performance SiO2/SiN x 1-D Photonic Crystal UV Filter Used for Solar-Blind Photodetectors

Silicon Compound Nanomaterials: Exploring Emission Mechanisms and Photobiological Applications

Double stack layer structure of SiN x /pm-Si thin films for downshifting and antireflection properties

Contact Info

Product

Resources

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Experimental and theoretical rationalization of the growth mechanism of silicon quantum dots in non-stoichiometric SiN_x: role of chlorine in plasma enhanced chemical vapour deposition

A High-Performance SiO₂/SiN _x 1-D Photonic Crystal UV Filter Used for Solar-Blind Photodetectors

A High-Performance SiO₂/SiN _x 1-D Photonic Crystal UV Filter Used for Solar-Blind Photodetectors