Diamond-coated three-dimensional GaN micromembranes: Effect of nucleation and deposition techniques

Ižák, Tibor; Vanko, G.; Babchenko, Oleg; Potocký, Štěpán; Marton, Marián; Vojs, Marián; Kromka, Alexander

doi:10.1002/pssb.201552227

Cited by 8 publications

(6 citation statements)

References 27 publications

(33 reference statements)

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“…This surface morphology is similar to the reference sample nucleated using ultrasonic seeding with diamond nanoparticles [Figure (e)]. The nucleation method based on the PVA composites with diamond nanoparticles has been already successfully utilized for diamond growth on a fragile 3D GaN membranes …”

Section: Resultssupporting

confidence: 60%

Polymer‐based nucleation for chemical vapour deposition of diamond

Domonkos

Ižák

Kromka

et al. 2016

J of Applied Polymer Sci

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Chemical vapour deposition of diamond on foreign substrates is hindered due to its high surface energy. Therefore, nucleation treatment has to be employed to initialize the formation of diamond crystals. This article deals with diamond growth on silicon substrates coated with three types of polymers: (i) polystyrene (PS), (ii) polylactic-co-glycolic acid (PLGA), and (iii) polyvinyl alcohol (PVA) were applied in different forms, i.e., microspheres (PS, PLGA), monolayers (PLGA), multilayers (PLGA, PLGA/PS), and composites with embedded diamond nanoparticles (PLGA, PVA). Thin polymers and microsphere monolayers did not contribute to the diamond nucleation and/or growth. A thicker continuous polymer film (>750 nm) or thin polymer/microsphere layer led to a homogeneous and dense formation of diamond grains. In the case of nucleation using polymer composites, where the thin polymer film serves as a 3D carrier matrix for embedded diamond nanoparticles, a comparable nucleation density to the well-established ultrasonic seeding method was achieved.

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Section: Resultssupporting

confidence: 60%

Polymer‐based nucleation for chemical vapour deposition of diamond

Domonkos

Ižák

Kromka

et al. 2016

J of Applied Polymer Sci

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“…The diamond deposition on the GaN membranes with diameters of 1 mm was performed in an ellipsoidal cavity microwave plasma chemical vapor deposition (CVD) reactor [2]. After diamond deposition, the membrane area was not smooth, and many wrinkles were observed.…”

Section: Methodology and Resultsmentioning

confidence: 99%

“…In our previous experiments, we studied back-side diamond deposition on GaN membranes. In that study, several technological issues are highlighted, such as the importance of the polymer-based nucleation method [2]. In the present study, we show and discuss the technological issues related to front-side diamond deposition on GaN membranes (i.e., diamond growth on top of the GaN membranes), and we propose technological steps to overcome problems related to the recent procedure.…”

Section: Introductionmentioning

confidence: 90%

Direct Deposition of CVD Diamond Layers on Top of GaN Membranes

Izsák

Vanko

Držík

et al. 2020

4th International Conference nanoFIS 2020 - Functional Integrated nanoSystems

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We present technological issues in the deposition of diamond films on gallium nitride (GaN) membranes. Many wrinkles and thicker diamond layers were observed at the membrane center and poor quality diamond outside the membrane area. The deflection of the membranes was analyzed by a bulging method using white light interferometry. The membrane bending is discussed in the terms of temperature gradient and mismatch of thermal expansion coefficients of materials.

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“…Inasmuch as the proposed reconstruction patterns involve the topmost GaN substrate's layer, natural candidates for substitutional atoms are Si and C. The GaN material utilized in HEMTs is usually epitaxially grown on Si(111) or silicon carbide substrate layers [5,41]. These layers are either mechanically removed or chemically etched in GaN-on-diamond bonding technology [5,[20][21][22].…”

Section: Charge Compensationmentioning

confidence: 99%

DFT-Based Studies on Carbon Adsorption on the wz-GaN Surfaces and the Influence of Point Defects on the Stability of the Diamond–GaN Interfaces

Sznajder

Hrytsak

2021

Materials

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Integration of diamond with GaN-based high-electron-mobility transistors improves thermal management, influencing the reliability, performance, and lifetime of GaN-based devices. The current GaN-on-diamond integration technology requires precise interface engineering and appropriate interfacial layers. In this respect, we performed first principles calculation on the stability of diamond–GaN interfaces in the framework of density functional theory. Initially, some stable adsorption sites of C atoms were found on the Ga- and N-terminated surfaces that enabled the creation of a flat carbon monolayer. Following this, a model of diamond–GaN heterojunction with the growth direction [111] was constructed based on carbon adsorption results on GaN{0001} surfaces. Finally, we demonstrate the ways of improving the energetic stability of diamond–GaN interfaces by means of certain reconstructions induced by substitutional dopants present in the topmost GaN substrate’s layer.

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Diamond-coated three-dimensional GaN micromembranes: Effect of nucleation and deposition techniques

Cited by 8 publications

References 27 publications

Polymer‐based nucleation for chemical vapour deposition of diamond

Polymer‐based nucleation for chemical vapour deposition of diamond

Direct Deposition of CVD Diamond Layers on Top of GaN Membranes

DFT-Based Studies on Carbon Adsorption on the wz-GaN Surfaces and the Influence of Point Defects on the Stability of the Diamond–GaN Interfaces

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