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Selective gas phase pulsed etching of oxides with NbCl5

IF 5.1 2区材料科学 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY

Journal of Materials Chemistry C Pub Date : 2024-12-09 DOI:10.1039/D4TC03488K

Juha Ojala, Marko Vehkamäki, Mykhailo Chundak, Anton Vihervaara, Kenichiro Mizohata and Mikko Ritala

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引用次数: 0

Abstract

Ta₂O₅ films were etched with NbCl₅ using a chemical vapor etching method known as gas-phase pulsed etching (GPPE) where the etchant is delivered in short pulses with inert gas purging in between the pulses. Arrhenius type dependence of etch per cycle (EPC) on temperature was found at 275–375 °C and the activation energy of the etching reaction is estimated at 120 kJ mol⁻¹. Length of the etchant pulse had a linear effect on EPC and increasing the purge length also increased EPC. Roughnesses of the partially etched films increased from 0.2 to 1.4 nm, as measured by atomic force microscopy. No residual Nb or Cl was detected in the films by energy-dispersive X-ray spectroscopy, but a small amount of Cl residue was seen with in vacuo X-ray photoelectron spectroscopy. Etching of TiO₂ and ZrO₂ was also observed but HfO₂ was not etched by NbCl₅ at 300–400 °C. Selectivity with respect of SiO₂, Al₂O₃, and TiN was also proven at the same temperature range. EPC up to 2.8, 1.1, and 4.0 Å were observed for Ta₂O₅, ZrO₂, and TiO₂, respectively.

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NbCl5选择性气相脉冲蚀刻氧化物

用NbCl5化学气相蚀刻方法蚀刻Ta2O5薄膜，该方法被称为气相脉冲蚀刻（GPPE），其中蚀刻剂以短脉冲输送，脉冲之间有惰性气体清洗。在275 ~ 375℃范围内，蚀刻每周期（EPC）与温度呈Arrhenius型关系，蚀刻反应的活化能估计为120 kJ mol−1。腐蚀脉冲长度对消失模量呈线性影响，增大吹扫长度也会增加消失模量。通过原子力显微镜测量，部分蚀刻膜的粗糙度从0.2 nm增加到1.4 nm。能量色散x射线能谱未检测到薄膜中残留Nb和Cl，但真空x射线光电子能谱检测到少量Cl残留。在300-400℃的温度下，还观察到TiO2和ZrO2的蚀刻，但HfO2没有被NbCl5蚀刻。在相同的温度范围内，对SiO2、Al2O3和TiN的选择性也得到了证实。Ta2O5、ZrO2和TiO2的EPC值分别为2.8、1.1和4.0 Å。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Journal of Materials Chemistry C

Journal of Materials Chemistry C MATERIALS SCIENCE, MULTIDISCIPLINARY-PHYSICS, APPLIED

CiteScore

10.80

自引率

6.20%

发文量

1468

期刊介绍： The Journal of Materials Chemistry is divided into three distinct sections, A, B, and C, each catering to specific applications of the materials under study: Journal of Materials Chemistry A focuses primarily on materials intended for applications in energy and sustainability. Journal of Materials Chemistry B specializes in materials designed for applications in biology and medicine. Journal of Materials Chemistry C is dedicated to materials suitable for applications in optical, magnetic, and electronic devices. Example topic areas within the scope of Journal of Materials Chemistry C are listed below. This list is neither exhaustive nor exclusive. Bioelectronics Conductors Detectors Dielectrics Displays Ferroelectrics Lasers LEDs Lighting Liquid crystals Memory Metamaterials Multiferroics Photonics Photovoltaics Semiconductors Sensors Single molecule conductors Spintronics Superconductors Thermoelectrics Topological insulators Transistors

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