Boranes and Carboranes are a class of compounds crucial for competitive exams like GATE, involving complex structures and bonding. Understanding their properties and applications is essential for success in exams like CSIR NET, IIT JAM, and CUET PG.<\/p>\n
This topic belongs to the Inorganic Chemistry <\/strong>unit of the official CSIR NET \/ NTA syllabus, specifically covering Boranes and Carboranes<\/em>. Students preparing for IIT JAM and CUET PG exams also need to focus on this area, as it falls under the Inorganic Chemistry syllabus for these exams.<\/p>\n To gain a thorough understanding of Boranes & Carboranes, students can refer to standard textbooks such as The following table summarizes the key information:<\/p>\n Students are advised to consult these textbooks and practice problems to build a strong foundation in Boranes and Carboranes, a crucial topic for GATE and other competitive exams.<\/p>\n Boranes and carboranes are a class of compounds that contain boron and hydrogen, and boron, carbon, and hydrogen, respectively. These compounds are also known as borane hydrides and carbaboranes. They are classified based on their structure and composition.<\/p>\n The electronic structure of boranes & carboranes is characterized by a three-center two-electron bond<\/strong>, also known as a delocalized bond<\/em>. This type of bonding involves three atoms and two electrons, and is responsible for the unique properties of these compounds. In a three-center two-electron bond, the electrons are shared among three atoms, resulting in a deficient electron count<\/strong>.<\/p>\n Boranes and carboranes can be classified into several types based on their structure, including Boranes and carboranes For GATE and other competitive exams require a clear understanding of these core concepts, including their definition, classification, electronic structure, and types. A thorough knowledge of these topics is essential for students to excel in their exams.<\/p>\n Boranes and carboranes are a class of compounds that contain boron and hydrogen, and sometimes carbon. These compounds have unique structures and properties. The polyhedral structures of boranes and carboranes are classified based on their shape and composition.<\/p>\n Closo-boranes <\/strong>have closed triangular polyhedral structures, where all vertices are occupied by boron or carbon atoms. The general formula for closo-boranes is In contrast, nido-boranes <\/strong>have polyhedral structures that are missing one vertex. The general formula for nido-boranes is Inorganic Chemistry<\/code> by J.D. Lee, which provides comprehensive coverage of the subject. Another useful resource is Physical Chemistry<\/code> by I. M. Kolthoff, which offers in-depth explanations of various chemical concepts, including Boranes and Carboranes.<\/p>\n\n\n
\n Exam<\/th>\n Syllabus Unit<\/th>\n<\/tr>\n \n CSIR NET<\/td>\n Inorganic Chemistry<\/strong><\/td>\n<\/tr>\n \n IIT JAM<\/td>\n Inorganic Chemistry<\/strong><\/td>\n<\/tr>\n \n CUET PG<\/td>\n Inorganic Chemistry<\/strong><\/td>\n<\/tr>\n<\/tbody>\n<\/table>\n Understanding Boranes and Carboranes: Core Concepts<\/h2>\n
closo-<\/code> ,nido-<\/code>,\u00a0arachno-<\/code>, hypho-<\/code>, and klado-<\/code> boranes and carboranes. These prefixes are derived from Greek words and describe the shape of the molecule.<\/p>\n\n
Closo-<\/code> boranes & carboranes have a closed cage <\/strong>structure.<\/li>\nNido-<\/code> boranes & carboranes have a nested <\/strong>or open cage <\/strong>structure.<\/li>\nArachno-<\/code> boranes & carboranes have a spider-like <\/strong>structure.<\/li>\nHypho-<\/code> boranes & carboranes have a network <\/strong>or chain-like <\/strong>structure.<\/li>\nKlado-<\/code> boranes & carboranes have a branch-like <\/strong>structure.<\/li>\n<\/ul>\nBoranes and Carboranes For GATE: Types and Structures<\/h2>\n
Bn<\/sub>Hn+2<\/sub><\/code>, where n <\/em>represents the number of boron atoms. Examples of closo-boranes include B12<\/sub>H12<\/sub><\/code> (diborane(12)) and B10<\/sub>H14<\/sub><\/code> is not a closo-borane.<\/p>\nBn<\/sub>Hn+4<\/sub><\/code>. Nido-boranes have an open face, which is typically occupied by a bridging hydrogen atom.<\/p>\n