kmno4如何英文命名—Formal IUPAC Nomenclature:
来源:产品中心 发布时间:2025-05-15 23:05:01 浏览次数 :
247次
Okay,何英 let's discuss the various ways to name KMnO₄ in English, considering both formal IUPAC nomenclature and more common, practical usage.The most accurate and formal name for KMnO₄ according to IUPAC (International Union of Pure and Applied Chemistry) nomenclature is:
Potassium tetraoxomanganate(VII)
Let's break this down:
Potassium: Identifies the cation, K⁺.
tetraoxomanganate: Indicates a complex anion. "tetraoxo" means four oxygen atoms are bonded to the central atom. "manganate" specifies the central atom is manganese.
(VII): This is the oxidation state of the manganese atom, indicated using Roman numerals. Manganese in KMnO₄ has an oxidation state of +7.
Why is this formal name used less frequently?
Length and Complexity: It's quite a mouthful. It's accurate, but cumbersome for routine use, especially in less formal settings.
Not Always Necessary: In many contexts, the oxidation state of manganese is implied or understood.
More Common and Practical Names:
The most widely used names for KMnO₄ are:
Potassium Permanganate: This is the most common and universally recognized name.
Condy's Crystals: This is a historical and somewhat archaic name, primarily used in medical or first-aid contexts (especially in the UK). It refers to a brand or product name from the past.
Why are "Potassium Permanganate" and "Condy's Crystals" preferred in most situations?
Simplicity: They are short, easy to remember, and relatively unambiguous.
Widespread Recognition: Most chemists, scientists, and even laypeople (especially in contexts like water treatment or wound care) will immediately understand what "potassium permanganate" refers to.
Historical Usage: The term "permanganate" has been used for a long time and is ingrained in the chemical vocabulary.
Alternative Considerations and Less Common Names:
Potassium Manganate(VII): While technically accurate, this is less common than "potassium permanganate." It explicitly states the oxidation state of manganese, but it's often considered redundant.
Permanganate of Potash: This is an older term that you might encounter in historical texts, but it's not in common modern usage.
Manganese Potassium Oxide: This is a very general description and is not a suitable name for KMnO₄. It doesn't convey the specific structure or properties of the compound.
Naming Considerations Based on Context:
Formal Scientific Papers/Publications: While "potassium permanganate" is often acceptable, using the IUPAC name "potassium tetraoxomanganate(VII)" at least once in the paper (typically in the introduction or materials section) to provide the most precise and unambiguous identification of the compound is considered good practice.
Laboratory Settings: "Potassium permanganate" is perfectly acceptable for labeling bottles, writing lab reports, and general discussions.
Industrial/Commercial Use: "Potassium permanganate" is the standard name for purchasing, selling, and discussing industrial applications.
Medical/First Aid: "Potassium permanganate" is common, but you might encounter "Condy's Crystals" (especially in older literature or certain regions).
Teaching/Education: "Potassium permanganate" is the preferred name for most introductory chemistry courses. When discussing oxidation states and IUPAC nomenclature, you can introduce "potassium tetraoxomanganate(VII)" to illustrate the principles.
In Summary:
While the formal IUPAC name is "potassium tetraoxomanganate(VII)," the overwhelmingly preferred and practically useful name in English is potassium permanganate. "Condy's Crystals" is a historical alternative with limited modern usage. The best choice depends on the specific context, but for most purposes, "potassium permanganate" is the clear winner. In formal scientific writing, it's good practice to mention the IUPAC name at least once.
相关信息
- [2025-05-15 22:51] 纤维强度标准要求:提升产品质量的关键因素
- [2025-05-15 22:47] ppr怎么判断是不是再生料—PPR管的秘密:如何火眼金睛辨别再生料?
- [2025-05-15 22:34] 如何加速n甲基葡萄糖胺溶解—加速N-甲基葡萄糖胺溶解:科研的迫切需求与实用技巧
- [2025-05-15 22:14] 阻燃ABS燃烧时间怎么回事—阻燃ABS燃烧时间:火焰背后的思考
- [2025-05-15 22:07] IEC电缆标准号:为电力行业保驾护航
- [2025-05-15 22:05] 甲醇合成循环比如何计算—甲醇合成循环比:窥探效率的窗口
- [2025-05-15 21:59] 如何鉴别丁烷丁炔和丁烯—火焰之舞:鉴别丁烷、丁炔与丁烯——从结构、性质到应用
- [2025-05-15 21:51] pc塑料板如何用焊条焊接的—电焊条与PC板的奇妙碰撞:一场注定失败的实验,却孕育着无限可能
- [2025-05-15 21:46] 中美螺纹标准对比:深入了解两大标准的差异与应用
- [2025-05-15 21:38] 如何在甲苯对位引入硝基—甲苯对位硝化的艺术与科学:通往对硝基甲苯的道路
- [2025-05-15 21:30] 如何测量高锰酸钾的含量:方法、原理与注意事项
- [2025-05-15 21:13] PP粒子搅拌不均匀如何控制—PP粒子搅拌不均匀的控制:现状、挑战与机遇
- [2025-05-15 21:05] 色差标准多少范围——让每一件产品都完美无瑕
- [2025-05-15 20:59] xrd如何找晶面并标出—XRD:从衍射峰中窥探晶体的秘密,晶面标定的艺术与科学
- [2025-05-15 20:50] 如何使用d2008电子—D2008 电子创作:一场时代的数字复兴
- [2025-05-15 20:47] 用火烧法ABS和PC怎么分别—火焰之舞:ABS与PC的焚烧鉴别
- [2025-05-15 20:39] 让沥青标准粘度检测更高效——提升道路质量的关键
- [2025-05-15 20:29] 精馏实验如何调节回流比—精馏实验:回流比的艺术与科学
- [2025-05-15 20:25] 如何做产品介绍产品pp题思路—产品介绍 (Product Pitch) 题思路背后的原理、
- [2025-05-15 20:23] 注塑如何使PVC料衔接PVC—核心挑战:PVC 与 PVC 的完美融合
