Table of Contents
1 Industry Overview of P-Anisidine
1.1 Definition and Specifications of P-Anisidine
1.1.1 Definition of P-Anisidine
1.1.2 Specifications of P-Anisidine
1.2 Classification of P-Anisidine
1.3 Applications of P-Anisidine
1.3.1 Nuclear Application
1.3.2 Non-Nuclear Application
1.4 Industry Chain Structure of P-Anisidine
1.5 Industry Overview and Major Regions Status of P-Anisidine
1.5.1 Industry Overview of P-Anisidine
1.5.2 Global Major Regions Status of P-Anisidine
1.6 Industry Policy Analysis of P-Anisidine
1.7 Industry News Analysis of P-Anisidine
2 Manufacturing Cost Structure Analysis of P-Anisidine
2.1 Raw Material Suppliers and Price Analysis of P-Anisidine
2.2 Equipment Suppliers and Price Analysis of P-Anisidine
2.3 Labor Cost Analysis of P-Anisidine
2.4 Other Costs Analysis of P-Anisidine
2.5 Manufacturing Cost Structure Analysis of P-Anisidine
2.6 Manufacturing Process Analysis of P-Anisidine
3 Technical Data and Manufacturing Plants Analysis of P-Anisidine
3.1 Capacity and Commercial Production Date of Global P-Anisidine Major Manufacturers in 2023
3.2 Manufacturing Plants Distribution of Global P-Anisidine Major Manufacturers in 2023
3.3 R&D Status and Technology Source of Global P-Anisidine Major Manufacturers in 2023
3.4 Raw Materials Sources Analysis of Global P-Anisidine Major Manufacturers in 2023
4 Capacity, Production and Revenue Analysis of P-Anisidine by Regions, Types and Manufacturers
4.1 Global Capacity, Production and Revenue of P-Anisidine by Regions 2019-2024
4.2 Global and Major Regions Capacity, Production, Revenue and Growth Rate of P-Anisidine 2019-2024
4.3 Global Capacity, Production and Revenue of P-Anisidine by Types 2019-2024
4.4 Global Capacity, Production and Revenue of P-Anisidine by Manufacturers 2019-2024
5 Price, Cost, Gross and Gross Margin Analysis of P-Anisidine by Regions, Types and Manufacturers
5.1 Price, Cost, Gross and Gross Margin Analysis of P-Anisidine by Regions 2019-2024
5.2 Price, Cost, Gross and Gross Margin Analysis of P-Anisidine by Types 2019-2024
5.3 Price, Cost, Gross and Gross Margin Analysis of P-Anisidine by Manufacturers 2019-2024
6 Consumption Volume, Consumption Value and Sale Price Analysis of P-Anisidine by Regions, Types and Applications
6.1 Global Consumption Volume and Consumption Value of P-Anisidine by Regions 2019-2024
6.2 Global and Major Regions Consumption Volume, Consumption Value and Growth Rate of P-Anisidine 2019-2024
6.3 Global Consumption Volume and Consumption Value of P-Anisidine by Types 2019-2024
6.4 Global Consumption Volume and Consumption Value of P-Anisidine by Applications 2019-2024
6.5 Sale Price of P-Anisidine by Regions 2019-2024
6.6 Sale Price of P-Anisidine by Types 2019-2024
6.7 Sale Price of P-Anisidine by Applications 2019-2024
6.8 Market Share Analysis of P-Anisidine by Different Sale Price Levels
7 Supply, Import, Export and Consumption Analysis of P-Anisidine
7.1 Supply, Consumption and Gap of P-Anisidine 2019-2024
7.2 Global Capacity, Production, Price, Cost, Revenue, Supply, Import, Export and Consumption of P-Anisidine 2019-2024
7.3 USA Capacity, Production, Price, Cost, Revenue, Supply, Import, Export and Consumption of P-Anisidine 2019-2024
7.4 EU Capacity, Production, Price, Cost, Revenue, Supply, Import, Export and Consumption of P-Anisidine 2019-2024
7.5 China Capacity, Production, Price, Cost, Revenue, Supply, Import, Export and Consumption of P-Anisidine 2019-2024
7.6 Japan Capacity, Production, Price, Cost, Revenue, Supply, Import, Export and Consumption of P-Anisidine 2019-2024
8 Major Manufacturers Analysis of P-Anisidine
8.1 Manufacturer One
8.1.1 Company Profile
8.1.2 Product Picture and Specifications
8.1.2.1 Type I
8.1.2.2 Type II
8.1.2.3 Type III
8.1.3 Capacity, Production, Price, Cost, Gross and Revenue
8.1.4 Contact Information
8.2 Manufacturer Two
8.2.1 Company Profile
8.2.2 Product Picture and Specifications
8.2.2.1 Type I
8.2.2.2 Type II
8.2.2.3 Type III
8.2.3 Capacity, Production, Price, Cost, Gross and Revenue
8.2.4 Contact Information
8.3 Manufacturer Three
8.3.1 Company Profile
8.3.2 Product Picture and Specifications
8.3.2.1 Type I
8.3.2.2 Type II
8.3.2.3 Type III
8.3.3 Capacity, Production, Price, Cost, Gross and Revenue
8.3.4 Contact Information
8.4 Manufacturer Four
8.4.1 Company Profile
8.4.2 Product Picture and Specifications
8.4.2.1 Type I
8.4.2.2 Type II
8.4.2.3 Type III
8.4.3 Capacity, Production, Price, Cost, Gross and Revenue
8.4.4 Contact Information
8.5 Manufacturer Five
8.5.1 Company Profile
8.5.2 Product Picture and Specifications
8.5.2.1 Type I
8.5.2.2 Type II
8.5.2.3 Type III
8.5.3 Capacity, Production, Price, Cost, Gross and Revenue
8.5.4 Contact Information
…
9 Marketing Trader or Distributor Analysis of P-Anisidine
9.1 Marketing Channels Status of P-Anisidine
9.2 Traders or Distributors with Contact Information of P-Anisidine by Regions
9.3 Ex-work Price, Channel Price and End Buyer Price Analysis of P-Anisidine
9.4 Regional Import, Export and Trade Analysis of P-Anisidine
10 Industry Chain Analysis of P-Anisidine
10.1 Upstream Major Raw Materials Suppliers Analysis of P-Anisidine
10.1.1 Major Raw Materials Suppliers with Contact Information Analysis of P-Anisidine
10.1.2 Major Raw Materials Suppliers with Supply Volume Analysis of P-Anisidine by Regions
10.2 Upstream Major Equipment Suppliers Analysis of P-Anisidine
10.2.1 Major Equipment Suppliers with Contact Information Analysis of P-Anisidine
10.2.2 Major Equipment Suppliers with Product Pictures Analysis of P-Anisidine by Regions
10.3 Downstream Major Consumers Analysis of P-Anisidine
10.3.1 Major Consumers with Contact Information Analysis of P-Anisidine
10.3.2 Major Consumers with Consumption Volume Analysis of P-Anisidine by Regions
10.4 Supply Chain Relationship Analysis of P-Anisidine
11 Development Trend of Analysis of P-Anisidine
11.1 Capacity, Production and Revenue Forecast of P-Anisidine by Regions and Types
11.1.1 Global Capacity, Production and Revenue of P-Anisidine by Regions 2024-2029
11.1.2 Global and Major Regions Capacity, Production, Revenue and Growth Rate of P-Anisidine 2024-2029
11.1.3 Global Capacity, Production and Revenue of P-Anisidine by Types 2024-2029
11.2 Consumption Volume and Consumption Value Forecast of P-Anisidine by Regions, Types and Applications
11.2.1 Global Consumption Volume and Consumption Value of P-Anisidine by Regions 2024-2029
11.2.2 Global and Major Regions Consumption Volume, Consumption Value and Growth Rate of P-Anisidine 2024-2029
11.2.3 Global Consumption Volume and Consumption Value of P-Anisidine by Types 2024-2029
11.2.4 Global Consumption Volume and Consumption Value of P-Anisidine by Applications 2024-2029
11.3 Supply, Import, Export and Consumption Forecast of P-Anisidine
11.3.1 Supply, Consumption and Gap of P-Anisidine 2024-2029
11.3.2 Global Capacity, Production, Price, Cost, Revenue, Supply, Import, Export and Consumption of P-Anisidine 2024-2029
11.3.3 USA Capacity, Production, Price, Cost, Revenue, Supply, Import, Export and Consumption of P-Anisidine 2024-2029
11.3.4 EU Capacity, Production, Price, Cost, Revenue, Supply, Import, Export and Consumption of P-Anisidine 2024-2029
11.3.5 China Capacity, Production, Price, Cost, Revenue, Supply, Import, Export and Consumption of P-Anisidine 2024-2029
11.3.6 Japan Capacity, Production, Price, Cost, Revenue, Supply, Import, Export and Consumption of P-Anisidine 2024-2029
12 New Project Investment Feasibility Analysis of P-Anisidine
12.1 New Project SWOT Analysis of P-Anisidine
12.2 New Project Investment Feasibility Analysis of P-Anisidine
13 Conclusion of the Global P-Anisidine (CAS 104-94-9) Industry 2024 Market Research Report
※参考情報 p-アニシジン(P-Anisidine、CAS番号104-94-9)は、有機化合物の一種であり、特にアミノ化合物群に属します。この化合物は、主に芳香族アルコールとアミンの特性を兼ね備えており、化学的には、メトキシ基(–OCH₃)を持つアニジン(アニリン)の誘導体です。p-アニシジンは、化学式C₇H₉NOと表され、分子量は135.15 g/molです。この化合物は、主に工業や研究分野で使用される重要な中間体です。 p-アニシジンの主な特徴としては、芳香族性とそれに伴う化学的安定性が挙げられます。特に、p-アニシジンは水に対しては可溶性が低いものの、有機溶媒にはよく溶ける性質があります。また、重要な化学反応として、アミノ基の存在から、官能基変換の反応に使われることが多く、これによりさまざまな化合物へと変化させることが可能です。 p-アニシジンには、いくつかの種類の誘導体が存在します。例えば、m-アニシジンやo-アニシジンといった異性体もあり、それぞれ異なった物理化学的特性や反応性を持っています。これらの異性体は、結合の位置によって異なる化学的性質を示し、特定の用途においてはp-アニシジンが最も利用される傾向にありますが、他の異性体も同様に重要な役割を果たします。 p-アニシジンの用途は多岐にわたります。主な利用目的は、染料や顔料の合成の中間体としての使用です。合成染料は、さまざまな産業で色付けのために利用され、p-アニシジンは特にその基礎材料として重要視されています。また、医薬品や農薬、化粧品といった製品の製造においても、中間体として活用されることがあります。さらに、化学分析においては、p-アニシジンが反応試薬として使われるケースも見受けられます。 関連技術としては、p-アニシジンを生成するための合成方法があります。多くの場合、アニリンをメトキシ化する過程で得られます。この反応は、メトキシ基を導入することで進行し、その結果としてp-アニシジンが形成されます。また、その合成過程で触媒や温度、反応条件を調整することで高収率での合成が可能となります。 p-アニシジンは、化学的性質が安定しているため、保管や取り扱いにおいても安全性が求められます。しかし、健康への影響や環境への配慮から、その取り扱いには十分な注意が必要です。特に、適切な防護具を着用し、換気の良い場所で作業することが推奨されます。 近年では、環境への配慮から代替化合物が模索されることも増えており、その中にはp-アニシジンに類似した機能を持ちながらも、より安全性に優れたものも出てきています。それでも、p-アニシジンはその特性から依然として使用され続けており、その重要性が薄らぐことはありません。 最後に、p-アニシジンは、化学産業における基礎的な中間体であり、さまざまな製品の製造において重要な役割を果たしています。今後も、技術の進展とともに新たな用途や合成方法が開発されることで、引き続き注目される化合物であると言えるでしょう。 |
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