市場調查報告書
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全球陽極氧化鋁(AAO)晶圓市場規模、份額和行業趨勢分析報告:按晶圓類型、應用和地區展望和預測2022-2028Global Anodic Aluminium Oxide Wafer Market Size, Share & Industry Trends Analysis Report By Wafer Type, By Application, By Regional Outlook and Forecast, 2022 - 2028 |
預計到 2028 年,陽極氧化鋁 (AAO) 晶圓的全球市場規模將達到 2.548 億美元,預測期內復合年增長率為 21.0%。
在電子學中,晶圓也稱為切片或基板,是一塊薄薄的半導體,例如晶體矽 (c-Si),用於製造集成電路,或者在光伏電池中用於製造太陽能電池。增加. 晶圓是用於構建在晶圓上或晶圓中的微電子設備的基板。
晶圓經過離子注入、摻雜、蝕刻、各種材料的薄膜沉積、光刻圖案化等多種微細加工工藝,最終成為單個的微電子器件。 最後,晶圓切割將各個微電路分開並將它們封裝成集成電路。
自上世紀初以來,鋁陽極氧化一直用於裝飾和腐蝕目的。 陽極氧化鋁塗層的孔隙率是在 1930 年代發現的,並在 1950 年代到 70 年代得到進一步闡述。 鉻酸、草酸、磷酸和硫酸等各種酸用於生產陽極氧化鋁膜。
COVID-19 影響分析
COVID-19 大流行的爆發嚴重影響了陽極氧化鋁 (AAO) 晶圓市場。 隨著各國政府實施封鎖,生產和製造設施在全球範圍內關閉,造成危機局勢和勞動力短缺。 來自價值鏈各個階段(例如最終用戶、分銷商和供應商)的行業專家的意見表明,增長率正在放緩。 因此,大流行病的經濟影響相當具有破壞性。 然而,隨著 COVID-19 限制的逐步解除和行業重回正軌,市場有望在預測期內從虧損中恢復並出現增長。
市場增長因素
增加 AAO 模板在 MEM 器件製造中的使用
陽極氧化鋁 (AAO) 具有有趣的納米多孔結構,可以很好地用作納米圖案化、高度各向異性納米線製造和微機電 (MEM) 器件製造的模板。 用於高頻集成電路 (RFIC) 的螺旋電感器要求具有高質量和高性能。 出於這個原因,鐵磁材料被納入螺旋電感器以提高其性能並減小其尺寸。 AAO 模板將有助於製造 MEM 設備,從而推動陽極氧化鋁 (AAO) 晶圓的市場。
更多地使用 AAO 納米孔作為保護層
半導體電子設備通常覆蓋有保護外殼,以封閉內部組件並保護它們免受任何不利條件的影響。 外殼最終由單片鋁合金采用多種製造方法製成。 已知使用兩步陽極氧化工藝在鋁合金上製造的陽極氧化鋁納米孔 (AAO-np) 結構在氧化層中表現出良好的結晶度。
市場製約因素
晶圓缺陷影響器件性能
在製造和組裝過程中,晶圓可能含有物理缺陷或異物。 這些缺陷會導致較低的產量、較長的加工時間,甚至是不良的生產。 半導體生產線的環境也會影響晶圓質量。 也有被異物污染的可能,也有可能因靜電而污染wafer和dice。
晶圓型外觀
根據晶圓類型,陽極氧化鋁 (AAO) 晶圓市場分為 6 英寸、8 英寸、12 英寸等。 2021 年,12 英寸部分在陽極氧化鋁 (AAO) 晶圓市場的收入份額最大。 這是因為這種晶片類型比其他晶片類型更堅固。 更緊湊的設計和更寬的寬度以獲得更高的產量有助於提高利潤率。 此外,12 英寸晶圓需要的維護和建造資本支出要少得多。 12英寸晶圓用於存儲器、手機、個人電腦等。 這些因素正在提振對12英寸晶圓的需求並推動該行業的增長。
應用展望
陽極氧化鋁 (AAO) 晶圓分為消費電子、製藥、工業和其他。 2021 年,製藥領域的陽極氧化鋁 (AAO) 晶圓市場增長顯著。 這是因為它使用含有 HPC、甘氨酸和甘露醇的晶圓系統,可在 30 秒內崩解。 改進後的晶圓系統由果膠、羧甲基纖維素和明膠的粘性聚合物組合而成,鋅離子交聯果膠作為藥物庫,可在約 6 小時內有效釋放模型藥物鹽酸苯海拉明。
區域展望
按地區分析了北美、歐洲、亞太地區和 LAMEA 的陽極氧化鋁 (AAO) 晶圓市場。 2021 年,亞太地區在陽極氧化鋁 (AAO) 晶圓市場的收入份額最大。 這是由於高端增強技術的可用性、對創新電子產品的需求增加以及製造業的增長。 在全球範圍內,亞太地區是增長最快的經濟體,許多主要技術市場參與者的存在已成為該地區市場增長的催化劑。
The Global Anodic Aluminium Oxide Wafer Market size is expected to reach $254.8 Million by 2028, rising at a market growth of 21.0% CAGR during the forecast period.
Anodic Aluminum Oxide (AAO) is a self-organized substance that resembles a honey-comb structure created by the high-density arrays of parallel and uniform nanopores. AAO is produced by Aluminum's electrochemical oxidation (anodization) in a condition that balances out the growth and the localized dissolution of aluminum oxide.
Dense anodic alumina is formed with limited thickness during the absence of such dissolution. The diameter of the nanopores is controllable, with great precisions getting as small as five nanometers and as large as several hundred nanometers, and the length of the pore is a few tens of nanometers to a few hundred micrometers.
In electronics, a wafer, also known as a slice or substrate, is a thin slice of a semiconductor, like crystalline silicon (c-Si), which is utilized for the manufacturing of integrated circuits and, in photovoltaics, to create solar cells. The wafer is the substrate for microelectronic devices built upon and in the wafer.
Wafer goes through various microfabrication processes, like ion implantation, doping, etching, thin-film deposition of numerous materials, and photolithographic patterning. In the end, the individual microcircuits are separated with the help of wafer dicing and packed as an integrated circuit.
Anodizing aluminum has been used for decorative and corrosion purposes since the early last century. The porous nature of anodic alumina films was found during the 1930s and was further elaborated between the 1950s-1970s. Various acids like chromic acid, oxalic acid, phosphoric acid, or sulphuric acid are used to produce an anodic aluminum oxide membrane.
COVID-19 Impact Analysis
The outbreak of the COVID-19 pandemic has severely affected the anodic aluminum oxide wafer market. With the government of various nations imposing lockdowns, the production & manufacturing facilities were shut down globally, which caused a crisis and unavailability of the workforce. With the inputs from various industry experts belonging to the different stages of the value chain, like end users, distributors, and suppliers, the decline in growth can be seen. Thus, the economic impact of the pandemic has been quite disruptive. Despite this, as the restriction from COVID-19 is lifting slowly and the industries are getting back on track, the market is expected to recover from the losses and show growth in the projected period.
Market Growth Factors
Increased Usage Of AAO Template For Making Mems Devices
The anodic aluminum oxide (AAO) features an interesting nanoporous structure capable enough to be used as a template for nanopatterning, highly anisotropic nanowire fabrication, and Microelectromechanical (MEMs) devices fabrication. There is a strong demand for high-quality and performance spiral inductors for radio frequency integrated circuits (RFIC). Due to this, ferromagnetic materials are integrated into the spiral inductors to enhance their performance and reduce their size. The ability of AAO template to help manufacture MEMs devices will boost the anodic aluminum oxide wafer market.
Use Of AAO Nanopores As A Protective Layer Is Increased
Semiconductor electronic devices are usually covered with a protective enclosure to surround the internal components and protect them from any adverse condition. These enclosures are created based on different fabrication methods to form a final product in a single sheet, preferably made of aluminum alloys. Anodic Aluminum Oxide-nanopores (AAO-np) structures fabricated on the aluminum alloy using a two-step anodizing process are known to exhibit good crystallinity with an oxide layer.
Market Restraining Factors
Defects In Wafers, Affect The Performance Of The Device
During manufacturing and assembly, physical defects or containments can be induced into the wafer. These problems can cause a decrease in the production yield, longer processing time, or even production failure. Semiconductors' Front-of-line environment can also affect the quality of the wafers. There is also a possibility of contamination due to foreign material, and static charges could pollute the wafer and its dice.
Wafer Type Outlook
On the basis of wafer type, the anodic aluminum oxide wafer market is divided into 6-inch, 8-inch, 12-inch and others. The 12-inch segment witnessed the largest revenue share in the anodic aluminum oxide wafer market in 2021. This is because this wafer type is more enhanced than other wafer types. The broader width for tighter designs and higher yields helps in profit margins. Also, a 12-inch wafer needs much less capital expenditure to maintain and build. The 12-inch wafer is used for memory, mobile phones, and PCs. The demand for a 12-inch wafer is increasing due to these factors and thus propelling the segment's growth.
Application Outlook
By application, the anodic aluminum oxide wafer market is classified into consumer electronics, pharmaceuticals, industrial and others. The pharmaceutical segment recorded a remarkable growth rate in the anodic aluminum oxide wafer market in 2021. This is due to using a wafer system containing HPC, glycine, and mannitol, which can disintegrate within 30 seconds. The modified wafer system consists of pectin cross-linked with zinc ions serving as the drug reservoir and mucoadhesive polymer combination of pectin, carmellose, and gelatin, which gives effective release of model drug diphenhydramine hydrochloride in approximately six hours.
Regional Outlook
Region-wise, the anodic aluminum oxide wafer market is analyzed across North America, Europe, Asia Pacific, and LAMEA. The Asia Pacific region procured the largest revenue share in the anodic aluminum oxide wafer market in 2021. This is due to the availability of high-end enhanced technologies, increased demand for innovative electronics, and growth in the manufacturing industry. Globally, the Asia Pacific is the fastest economically growing region, and also the presence of many key tech market players is working as a catalyst for the market's growth in the region.
The market research report covers the analysis of key stake holders of the market. Key companies profiled in the report include Bonnell Aluminium (Tredegar Corporation), Dajcor Aluminum Ltd., Monocrystal, PLC (JSC Energomera Concern), Superior Metal Technologies, LLC (AGS Capital, LLC), InRedox LLC, Aluminium Products Company (ALUPCO), A. & D. Prevost Inc., Lorin Industries, Inc., CoorsTek, Inc., and Petersen Aluminum Corporation (PAC) (Carlisle Construction Materials) (Carlisle Companies Incorporated)
Market Segments covered in the Report:
By Wafer Type
By Application
By Geography
Companies Profiled
Unique Offerings from KBV Research
List of Figures