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1533000

全球貴金屬催化劑市場 – 2024-2029 年預測

Global Precious Metals Catalyst Market - Forecasts from 2024 to 2029

出版日期: 2024年07月18日 | 出版商:

Knowledge Sourcing Intelligence | 英文 146 Pages | 商品交期: 最快1-2個工作天內

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簡介目錄

預計在預測期（2024-2029年）貴金屬催化劑市場將以8.56%的複合年成長率成長。

貴金屬催化劑也被稱為“貴金屬催化劑”，因為它們表現出獨特的性能。貴金屬催化劑具有不完全填充的 d 軌道，並且可以根據反應的性質從試劑中藉出或移除電子。因此，貴金屬始終具有較高的觸媒活性和選擇性。此外，由於貴金屬的觸媒活性和熱穩定性，它們在醫學、農業化學品、石油化學、化學以及環境和材料科學領域具有多種應用。

例如，由於鈀催化劑與其他官能基的高度相容性以及完全的立體選擇性和區域選擇性，即使在溫和的反應條件下也非常適合尿素誘導的 CH 活化。埃特沃斯羅蘭大學的 Novak 教授的團隊使用獨特的鈀催化劑透過 CH 活化完成了第一個甲醇烷基化步驟，從而獲得了鄰位三氟乙基化芳香脲。他們添加了一種新型高活性三氟甲基碘鎓鹽和TFA作為佐劑以實現高效轉化。

全球貴金屬催化劑市場的促進因素：

貴金屬催化劑在綠色化學中的使用越來越多，透過解決關鍵環境問題和促進整個行業的永續實踐，推動了市場擴張。這些催化劑對於催化化學反應非常重要，可以節省能源、減少廢棄物並實現更環保的製造流程。綠色化學是有意識地、有計劃地設計和創造化學產品和工藝，以最大限度地減少或消除有害物質的使用或生產。事實上，綠色化學涉及設計化學產品的整個生命週期，從構思到使用和處置。

鉑族金屬在汽車、製藥和石化產業有著廣泛的應用，包括去除和處理污染物、將溫室氣體轉化為有用的能源，以及使製造過程更加環保。例如，阿布達比國家石油公司 (ADNOC) 是石油和天然氣營運的全球領導者，業務遍及各個領域。 ADNOC計劃在2030年實現高達500萬桶的永續產能。

減少污染物的監管指南正在推動對這些催化劑的需求，而持續的科學發展正在提高其效率和有效性。關於與綠色化學中使用貴金屬催化劑相關的問題，解決其環境影響的法規和義務的先決條件不斷增加，這得益於它們對向資源節約型經濟轉型的積極影響。鑑於許多社會經濟和政治需要，以及提高人民參與度和政府透明度和課責的實際目標，OGD 在行動十年內製定了 2030 年永續發展計劃，成為加速實現這一目標的潛在手段。實施。

貴金屬催化劑市場的產品推出和進步透過引入升級的技術、提高的效率和新的應用可能性來推動成長。這些進步專門解決了汽車排放控制和工業運作的嚴格環境要求。

燃料電池等氫基發電技術預計將在向更永續的經濟轉型中發揮關鍵作用。 2023 年 1 月，賀利氏集團旗下電子部門賀利氏貴金屬公司與 Hulteberg Chemistry & Engineering AB 建立策略合作夥伴關係，共同開發和銷售用於 SOFC 的催化劑材料組合。 SOFC 是一種電化學裝置，用於利用氫氣和燃料發電。

此外，催化劑在活性和穩定性方面的性能得到改善，滿足了業界對環保製程不斷變化的需求。他們的目標是利用貴金屬來降低生產成本和對自然環境的影響，同時提高全球所有市場領域的競爭力和接受度。例如，NE CHEMCAT CORPORATION於2023年9月開始銷售貴金屬清除劑CPs系列中的新產品CPs-HP50的試劑。 CPs-HP50是一種含有硫醇基和胺基清除劑的二氧化矽粉末清除劑。用於從催化反應溶液中高效回收貴金屬。

全球貴金屬觸媒市場細分分析

從應用來看，汽車產業是成長最快的領域之一。

從應用來看，汽車產業是貴金屬觸媒市場成長最快的領域之一。這一成長的主要驅動力是全球更嚴格的排放法規，這些法規要求催化劑最大限度地減少汽車廢氣中的污染物。汽車觸媒轉換器中使用的鉑、鈀和銠等元素有助於轉化一氧化碳、氮氧化物和碳氫化合物等有毒氣體。
對混合動力汽車、電動和內燃機汽車的持續需求正在推動汽車產業對貴金屬催化劑的需求。此外，根據國際能源總署（IEA）的數據，2022年全球將銷售約66,000輛電動客車和約60,000輛中重型卡車，約佔客車總銷量和卡車總銷量的4.5%。
中國是電動（和燃料電池）卡車和巴士的領先生產國和出口國。 2022年將銷售5.4萬輛新型電動客車和5.2萬輛新型電動中重型卡車，分別佔中國總銷量的18%和4%，佔全球銷量的80%左右，各佔85%。此外，中國品牌在拉丁美洲、北美和歐洲國家的客車和卡車市場上處於領先地位。
2024年5月，美國插電式汽車銷量為124,921輛（純電動車98,797輛，插電式混合動力車26,124輛），較2023年5月成長3.2%。當月純電動車佔輕型車總銷量的8.74%。根據阿貢國家實驗室的公告，2024年插電式混合動力車和純電動車共售出590,477輛。
隨著製造商尋求超越排放氣體法規並提高燃油效率，對觸媒技術改進的需求也隨之增加。
亞太地區的貴金屬催化劑市場預計將顯著成長。
由於多種因素，亞太地區的貴金屬催化劑市場正在迅速擴大。中國、印度和日本的快速工業化和都市化正在增加對汽車催化劑的需求，以滿足嚴格的污染法規。此外，該地區電動車產業的成長也是推動市場的關鍵因素。例如，2024年2月，GFL的完全子公司Gujarat Fluorochemicals Ltd - GFCL EV Products Ltd計劃在未來四到五年內資本支出600萬印度盧比。透過這筆投資，我們將開發每年約200兆瓦時的EV/ESS電池系統，並增加電動車產量。同時，現代汽車於2024 年2 月宣布，將在2023 年至2033 年間投資超過38.5 億美元（3,200 億印度盧比），以擴大其電動車產品組合，並宣布將改進其現有的汽車和SUV 平台。
此外，就年銷量和製造產量而言，中國是全球最大的汽車市場，預計到2025年本土產量將超過3,500萬輛。工業部數據顯示，2021年汽車銷量將突破2,600萬輛，其中乘用車佔2,148萬輛，較2020年成長7.1%。
向綠色能源來源的過渡和電動車的日益普及正在推動汽車和工業應用對貴金屬催化劑的需求。根據日本汽車經銷商協會（JADA）和全國輕型汽車協會聯合會（Zenkei Jikyo）的統計，截至2022年終，日本電池式電動車（BEV）銷量為58,813輛，比2021年成長了2.7倍。純電動車佔比（純電動車佔乘用車銷量的比例）到2022年將上升至1.7%，2021年將超過0.6%，首次達到1%大關。在日本，隨著客戶考慮電動車對環境和經濟的影響，預計純電動車銷量將進一步增加，並制定了到 2035 年擁有 100% 綠色汽車的強化目標。
在技術發展和許多工業領域應用不斷增加的推動下，這一趨勢凸顯了亞太地區在全球貴金屬催化劑市場中的重要地位。

全球貴金屬催化劑市場的主要發展：

2024年4月，村田宣布開發一種新型陶瓷催化劑材料，以減少工業廢氣排放系統的影響。
2024 年 1 月，巴斯夫環境催化劑與金屬解決方案公司 (ECMS) 與賀利氏貴金屬公司在中國平湖成立了一家新的合資企業BASF賀利氏金屬資源有限公司 (BHMR)。該工廠將從廢棄的汽車催化劑中回收貴金屬，實現循環經濟，並為中國的供應安全和永續性目標做出貢獻。
2023年9月，田中貴金屬旗下經營工業貴金屬業務的核心公司田中貴金屬工業株式會社宣布與成都光明派特貴金屬有限公司簽署技術援助協議。
2023年7月，BASF最終完成行動排放氣體業務和貴金屬服務業務的分離，將新組織命名為BASF環境催化劑和金屬解決方案（ECMS）。

貴金屬催化劑市場細分與分析如下：

按類型

鉑
鈀
銠
銥
其他

按用途

車
製藥
石化
其他

按地區

北美洲
美國
加拿大
墨西哥
南美洲
巴西
阿根廷
南美洲其他地區
歐洲
英國
德國
法國
義大利
西班牙
其他歐洲國家
中東/非洲
沙烏地阿拉伯
阿拉伯聯合大公國
其他中東/非洲
亞太地區
中國
印度
日本
韓國
台灣
泰國
印尼
其他亞太地區

世界概況
北美洲
- 美國
- 加拿大
- 墨西哥
南美洲
- 巴西
- 阿根廷
- 南美洲其他地區
歐洲
- 英國
- 德國
- 法國
- 義大利
- 西班牙
- 其他歐洲國家地區
中東/非洲
- 沙烏地阿拉伯
- 阿拉伯聯合大公國
- 中東/非洲其他地區
亞太地區
- 中國
- 印度
- 日本
- 韓國
- 台灣
- 泰國
- 印尼
- 其他亞太地區

第8章競爭環境及分析

主要企業及策略分析
市場佔有率分析
合併、收購、協議和合作
競賽儀表板

第9章公司簡介

BASF
Evonik Industries AG
Murata Manufacturing Co., Ltd.
ALS Limited
Clariant
Alfa Chemistry
Heraeus Group
Tanaka Precious Metals
Hindustan Platinum
Umicore PMC
Catalytic Products International
Chimet SpA
J&J Materials
Sabin Metal
Standford Advanced Materials
American Elements

簡介目錄

Product Code: KSI061617032

The global precious metals catalyst market is projected to grow at a CAGR of 8.56% during the forecast period (2024-2029).

Precious metal catalysts are also known as "noble metal catalysts" since they exhibit distinct properties. They have an incompletely filled d-orbital that can lend or remove electrons from the reagent, depending on the nature of the reaction. As a result, precious metals consistently have high catalytic activity and selectivity. Additionally, due to noble metals' catalytic activity and thermal stability, they have several applications in the medicine, agrochemicals, petrochemicals, chemicals, and environmental and material science sectors.

For example, palladium catalysts are appropriate for the urea-directed C-H activation even when the reaction conditions are mild due to high compatibility with other functional groups, perfect stereoselectivity, and regioselectivity. Novak's group at Eotvos Lorand University employed a unique palladium catalyst to complete the first fluoro alkylation procedure via C-H activation, allowing access to ortho trifluoroethylated aromatic ureas. They added the new, highly active trifluoromethyl-yl (mesityl)iodonium salt and TFA as an adjuvant to achieve efficient conversion.

GLOBAL PRECIOUS METALS CATALYST MARKET DRIVERS:

The growing use of precious metal catalysts in green chemistry propels market expansion by solving major environmental issues and promoting sustainable practices across sectors. These catalysts are important in catalyzing chemical reactions that save energy, decrease waste, and enable greener manufacturing processes. Green chemistry can be described as the intentional, purposeful design and creation of chemical products and processes to minimize or eliminate the usage or creation of hazardous substances. Indeed, green chemistry involves the design of an entire life cycle of a chemical product from conception through utilization and disposal.

The PGM is extremely versatile in the service of the automotive, pharmaceutical, and petrochemical industries, removing/treating polluting agents, converting greenhouse gases to useful energy, and greener manufacturing processes. For instance, Abu Dhabi National Oil Company (ADNOC) is a global leader in the oil and gas business, operating across all sectors. ADNOC plans to attain 5 million barrels of maximum sustainable production capacity by 2030.

Regulatory guidelines to reduce pollutants drive the demand for these catalysts, while ongoing scientific developments improve their efficiency and efficacy. Regarding the issue involving the employment of precious metal catalysts in green chemistry, the increase in correspondent regulatory and obligatory preconditioning to the impact on the environment is supported by the positive influence on the transition to the resource-saving economy. With numerous socioeconomic and political imperatives, as well as the practical goals of increasing people's engagement and government transparency and accountability, OGD has emerged as a potential means of accelerating the implementation of the 2030 Agenda for Sustainable Development in the Decade of Action.

Product launches and advancements in the precious metals catalyst market fuel growth by introducing upgraded technologies, increased efficiency, and new application possibilities. These advances address rigorous environmental requirements, notably in automobile emissions control and industrial operations.

Hydrogen-based power-generating technologies, such as fuel cells, are projected to play a significant part in the shift to a more sustainable economy. In January 2023, the Heraeus Group electronics division Heraeus Precious Metals and Hulteberg Chemistry & Engineering AB company signed a strategic partnership to work on the creation and distribution of a portfolio of catalytic materials for SOFCs. SOFCs are electrochemical devices installed to generate power from hydrogen and fuels.

Additionally, improved catalyst performance concerning activity and stability meets the evolving industry requirements for environment-friendly processes. These aim to use noble metals to reduce manufacturing costs and effects on the natural environment while enhancing competitiveness and acceptability in all global market sectors. For instance, N. E. CHEMCAT CORPORATION started reagent sales of the new product of CPs-HP50 of the Precious Metal Scavenger CPs series in September 2023. CPs-HP50 is a silica powder scavenger composed of thiol-based and amine-based scavengers. An application of this product effectively collects valuable metals from solutions of catalytic reactions.

GLOBAL PRECIOUS METALS CATALYST MARKET SEGMENT ANALYSIS:

By Application, automotive is one of the most rapidly developing segments.

By application, the automotive industry is one of the fastest-growing areas of the precious metals catalyst market. This increase is largely driven by more rigorous emissions rules worldwide, which require catalysts to minimize pollutants from vehicle exhaust fumes. Elements like platinum, palladium, and rhodium, which are used in the catalytic converters of automobiles, help to change toxic gases like carbon monoxide, nitrogen oxides, and hydrocarbons.
Hybrid or electric cars and the ongoing need for cars using internal combustion engines fuel the demand for precious metal catalysts used in the automobile industry. Additionally, as per the International Energy Agency, in 2022, almost 66,000 electric buses and 60,000 medium- and heavy-duty trucks were sold globally, accounting for around 4.5% of total bus and 1.2% of total truck sales.
China reins supreme in producing and exporting electric (and fuel cell) trucks and buses. In 2022, 54,000 new electric buses and 52,000 electric medium- and heavy-duty trucks were sold, accounting for 18% and 4% of overall sales in China and about 80% and 85% of global sales, respectively. In addition, it is stated that Chinese brands are market leaders in the bus and truck markets of Latin America, North America, and European countries.
In May 2024, the United States sold 124,921 plug-in cars (98,797 BEVs and 26,124 PHEVs), a 3.2% increase over May 2023 sales. PEVs accounted for 8.74% of overall LDV sales in the same month. In all, 590,477 PHEVs and BEVs were sold in 2024, as declared by the Argonne National Laboratory.
As manufacturers attempt to exceed emissions limits and improve fuel efficiency, the need for improved catalyst technology increases. This trend emphasizes the automotive sector's crucial role in propelling innovation and growth in the precious metals catalyst industry.
Asia Pacific's precious metals catalyst market is anticipated to grow significantly.
The Asia Pacific region's precious metal catalyst market is expanding rapidly due to several factors. Rapid industrialization and urbanization in China, India, and Japan have increased demand for vehicle catalysts to meet tough pollution laws. Furthermore, the region's growing electric vehicle industry is an important factor fueling the market. For example, in February 2024, GFCL EV Products Ltd, a wholly-owned subsidiary of the Gujarat Fluorochemicals Ltd- GFL, planned an INR 6,000 Crore capital expenditure outlay for the next 4-5 years. This investment will allow the development of around 200 Mega Watt hours a year of battery systems for EVs and ESS, raising the production of EVs. Hyundai Motors, on the other hand, announced in February 2024 that it will invest more than $3.85 billion (Rs 32,000 crore) between 2023 and 2033 to extend its EV portfolio and improve its current vehicle and SUV platforms.
Besides this, China is the world's largest automobile market in terms of yearly sales and manufacturing output, with local production projected to exceed 35 million vehicles by 2025. According to figures from the Ministry of Industry and Information Technology, more than 26 million automobiles were sold in 2021, including 21.48 million passenger vehicles, a 7.1% increase over 2020.
The transition to greener energy sources and the growing popularity of electric vehicles are driving demand for precious metal catalysts in both automotive and industrial applications. From the statistics provided by the Japan Automobile Dealers Association (JADA) and the Japan Mini Vehicle Association (Zenkeijikyo), it was determined that by the end of 2022, 58,813 Battery Electric Vehicles (BEV) were sold in Japan, with a 2.7-fold increase from 2021. The BEV ratio (BEVs as a percentage of passenger car sales) increased to 1.7% in 2022, surpassing 0.6% in 2021 and reaching the 1% mark for the first time. Sales of BEV would further increase in Japan as the country sets an enhanced goal of having 100% environment-friendly vehicles by 2035 and customers consider the environmental and economic impacts of electric vehicles.
This trend highlights Asia Pacific's crucial position in the global precious metals catalysts market, pushed by technical developments and increased applications across numerous industrial areas.

Global Precious Metals Catalyst Market Key Developments:

In April 2024, Murata introduced a novel ceramic catalyst material developed to lessen the effect of industrial gas exhaust systems. Shanghai FT Technology Co., Ltd, a Chinese manufacturer (F-Tech), manufactures and distributes ceramic catalysts made from this material.
In January 2024, BASF Environmental Catalyst and Metal Solutions (ECMS) and Heraeus Precious Metals launched a new joint venture facility, BASF HERAEUS Metal Resource Co., Ltd (BHMR), in Pinghu, China. The plant recovers precious metals from discarded automobile catalysts, allowing a circular economy and helping China's supply security and sustainability objectives.
In September 2023, TANAKA Kikinzoku Kogyo K.K., TANAKA Precious Metals' core company that operates an industrial precious metals business, announced that it has signed a technical assistance agreement with Chengdu Guangming Paite Precious Metal Co. Ltd., an affiliated company in China, regarding fuel cell electrode catalyst manufacturing technologies.
In July 2023, BASF finalized the separation of its mobile emissions catalysts and precious metal services businesses, naming the new organization BASF Environmental Catalyst and Metal Solutions (ECMS).

The global precious metals catalyst market is segmented and analyzed as follows:

By Type

Platinum
Palladium
Rhodium
Iridium
Others

By Application

Automotive
Pharmaceutical
Petrochemicals
Others

By Geography

North America
United States
Canada
Mexico
South America
Brazil
Argentina
Rest of South America
Europe
United Kingdom
Germany
France
Italy
Spain
Rest of Europe
Middle East and Africa
Saudi Arabia
United Arab Emirates
Rest of the Middle East and Africa
Asia-Pacific
China
India
Japan
South Korea
Taiwan
Thailand
Indonesia
Rest of Asia-Pacific

1. INTRODUCTION

1.1. Market Overview
1.2. Market Definition
1.3. Scope of the Study
1.4. Market Segmentation
1.5. Currency
1.6. Assumptions
1.7. Base and Forecast Years Timeline
1.8. Key benefits for the stakeholders

2. RESEARCH METHODOLOGY

2.1. Research Design
2.2. Research Process

3. EXECUTIVE SUMMARY

3.1. Key Findings
3.2. Analyst View

4. MARKET DYNAMICS

4.1. Market Drivers
- 4.1.1. Growing Demand from End-Use Sectors
- 4.1.2. Environmental Concerns
4.2. Market Restraints
- 4.2.1. High Cost
- 4.2.2. Supply Constraints
4.3. Porter's Five Forces Analysis
- 4.3.1. Bargaining Power of Suppliers
- 4.3.2. Bargaining Power of Buyers
- 4.3.3. The Threat of New Entrants
- 4.3.4. Threat of Substitutes
- 4.3.5. Competitive Rivalry in the Industry
4.4. Industry Value Chain Analysis

5. GLOBAL PRECIOUS METALS CATALYST MARKET BY TYPE

5.1. Introduction
5.2. Platinum
5.3. Palladium
5.4. Rhodium
5.5. Iridium
5.6. Others

6. GLOBAL PRECIOUS METALS CATALYST MARKET BY APPLICATION

6.1. Introduction
6.2. Automotive
6.3. Pharmaceutical
6.4. Petrochemicals
6.5. Others

7. GLOBAL PRECIOUS METALS CATALYST MARKET BY GEOGRAPHY

7.1. Global Overview
7.2. North America
- 7.2.1. United States
- 7.2.2. Canada
- 7.2.3. Mexico
7.3. South America
- 7.3.1. Brazil
- 7.3.2. Argentina
- 7.3.3. Rest of South America
7.4. Europe
- 7.4.1. United Kingdom
- 7.4.2. Germany
- 7.4.3. France
- 7.4.4. Italy
- 7.4.5. Spain
- 7.4.6. Rest of Europe
7.5. Middle East and Africa
- 7.5.1. Saudi Arabia
- 7.5.2. United Arab Emirates
- 7.5.3. Rest of the Middle East and Africa
7.6. Asia-Pacific
- 7.6.1. China
- 7.6.2. India
- 7.6.3. Japan
- 7.6.4. South Korea
- 7.6.5. Taiwan
- 7.6.6. Thailand
- 7.6.7. Indonesia
- 7.6.8. Rest of Asia-Pacific