Inorganic Chemistry

“Inorganic Chemistry” provides an essential foundation for undergraduate students in the major areas of physical inorganic principles, chemical equilibrium calculation, an overview structural chemistry, descriptive chemistry of the elements and applications, including catalysis, industrial processes and inorganic materials. These topics form the basis for competency in inorganic chemistry, which are taught over the course of one semester. Over the years, the responsible professor has achieved the excellent.

开设学校:北京工业大学;学科:其他、

Inorganic Chemistry课程:前往报名学习

Inorganic Chemistry视频慕课课程简介:

“Inorganic Chemistry” provides an essential foundation for undergraduate students in the major areas of physical inorganic principles, chemical equilibrium calculation, an overview structural chemistry, descriptive chemistry of the elements and applications, including catalysis, industrial processes and inorganic materials. These topics form the basis for competency in inorganic chemistry, which are taught over the course of one semester. Over the years, the responsible professor has achieved the excellent.

前往报名学习

Inorganic Chemistry课程列表:

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chapter 1 Gases

-1.1 Ideal gas

-1.2 Law of partial pressure

-Chapter 1 test

-Chapter 1 Discussion

chapter 2 Basic Concepts of Thermodynamics

-2.1 Thermodynamic terms

-2.2 Thermodynamic terms

-2.3 Enthalpy and Enthalpy Change(H and H)

-2.4 Standard Molar Enthalpy Change of Formation、Calculation of Enthalpy Change of Reaction、Hess's Law、Concept of Entropy

-2.5 Reaction formula of thermochemical

-2.6 Hess's Law

-Chapter 2 test

-chapter 2 discussion

chapter 3 Chemical Equilibrium Constant and its Application

-3.1 Basic Characteristics Of Chemical Equilibrium Constant

-3.2 Expression Of Standard Equilibrium Constant

-3.3 Application Of Standard Equilibrium Constant

-3.4 Chemical Equilibrium Movement

-3.5 Influences of Concentration and Pressure on Chemical Equilibrium state

-3.6 Spontaneous Occurrences and Entropy

-3.7 The Third Law of Thermodynamics and Standard Entropy

-3.8 Standard Mole Gibbs Function of Formation

-Chapter 3 test

-Chapter 3 discussion

chapter 4 Acid-Base Equilibrium

-4.1 Development of the Concept and Theory of Acid-Base

-4.2 Relative Strength of Acids or Bases and Dissociation Equilibrium of H2O

-4.3 Application of Standard Equilibrium Constant

-4.4 Equilibrium of Dissociation of Salty Solution

-4.5 Buffer Solution

-4.6 Discussion

-4.7 Buffer Capacity and Calculation of Buffer Solution

-4.8 Overview of Acid-Base Electronic Theory and Coordination Compounds

-4.9 Composition and Naming of Coordination Compounds

-4.10 Coordinated Equilibrium and Related Reaction

-Chapter 4 text

-Chapter 4 discussion

chapter 5 Precipitation - Dissolution Equilibrium

-5.1 Solubility and Solubility Product

-5.2 Formation and Dissolution of Precipitate

-5.3 The Rule of Solubility Product and Common-Ion Effect

-5.4 Influence of the Formation of Complexes on Solubility - Coordination Dissolution of Precipitate

-5.5 Balance Between Two Kinds of Precipitates

-Chapter 5 text

-Chapter 5 discussion

chapter 6 Basic Concepts of Redox Reaction (Electrochemistry)

-6.1 Classification of chemical reactions and basic concepts of REDOX reactions

-6.2 Oxidation state and its Value

-6.3 Construction of Galvanic Cell

-6.4 Electrode Potential

-6.5 Standard Electrode Potential

-6.6 Nernst Equation

-6.7 Application of Nernst Equation

-6.8 Application of Electrode Potential

-Chapter 6 text

-Chapter 6 discussion

chapter 7 Atomic Structure and Periodic Law of Elements

-7.1 Development of Atomic Structure Theory

-7.2 Wave-particle duality of electrons

-7.3 The Schrodinger Equation and Quantum Numbers

-7.4 Spin quantum number

-7.5 Multi-Electron Atomic Structure

-7.6 Discussion

-7.7 Periodic Law of the Elements

-Chapter 7 text

-Chapter 7 discussion

chapter 8 Molecular Structure

-8.1 Lewis theory and valence bond theory

-8.2 Valence-shell Electron Pair Mutual Repulsion Theory

-8.3 Molecular Orbital Theory

-8.4 Bond Parameters: Bond Energy, Bond Length, Bond Angle, Bond Level, and Other Concepts

-8.5 The advantages and disadvantages of molecular theory and valence bond theory

-Chapter 8 text

-Chapter 8 discussion

chapter 9 Solid Structure

-9.1 Crystal Structure Characteristics and Types

-9.2 Structure of Metal Crystals and Atomic Crystals

-9.3 Characteristic Structure of Ionic Crystals and Their Lattice Energy

-9.4 Basic Concepts of Molecular Crystals

-9.5 Intermolecular Forces

-Chapter 9 text

-Chapter 9 discussion

chapter 10 The Structure of Coordination Compounds

-10.1 Spatial Configuration and Magnetic Properties of Coordination Compounds

-10.2 Theory and Application of Chemical Bonds of Coordination Compounds

-10.3 Crystal Field Theory and Application of Coordination Compounds

-Chapter 10 text

-Chapter 10 discussion

chapter 11 s-Block Elements

-11.1 Overview of s-Block Elements

-11.2 s-Block Element Compounds

-11.3 s-Block Element Salts

-Chapter 11 text

chapter 12 Elements of p-Block (1)

-Chapter 12 text

-Chapter 12 discussion

-12.1 Overview of P-Block Elements: Understanding the Relationship Between Material Structure and its Property Features.

-12.2 Elements of the Boron Group: Their Hydrides, Oxides, and Halides

-12.3 Elements of the Carbon Group: Hydroxide of Tin and Lead

-12.4 Aluminum compounds

-12.5 Elements of the Carbon Group and Their Property

-12.6 Elements of the Carbon Group and Their Compounds

chapter 13 Elements of p-Block(2)

-Chapter 13 text

-Chapter 13 discussion:

-13.1 Elements Overview of the Nitrogen Group

-13.2 Elements of the Nitrogen Group: Their Hydrides, Oxides, Nitrites and Salts

-13.3 Elements of the Oxygen Group: Oxidation Of O2, Structure and Strong Oxidation Of O3

-13.4 Elements of Sulfur Group and Their Oxygen-Containing Compounds

chapter 14 Elements of d-block

-Chapter 14 text

-Chapter 14 discussion

-14.1 Halogens: Acquirements of the Main Chemical Properties of Halogens

-14.2 Overview of d-Block Elements, and Chromium-Contained Compounds

-14.3. Manganese and its Compounds

-14.4. Iron, Cobalt, Nickel and Their Compounds

-14.5. Elements of the Copper Group: Their Property Features, and Important Compounds of Copper and Silver

-14.6. Elements of The Zinc Group: Understanding Their Property Features, Important Compounds of Zinc and Mercury

Inorganic Chemistry开设学校:北京工业大学

Inorganic Chemistry授课教师:

孙继红-教授-北京工业大学-

孙继红(Sun Jihong):男,1966年3月生于山西,博士,北京工业大学教授,博士生导师。1987年7月毕业于太原理工大学(原太原工业大学)应用化学系工业分析专业,并获工学学士学位。1987年7月至1996年8月,在太原理工大学精细化工研究所工作,主要从事分子筛合成及表征等教学科研工作。期间1989年9月至1992年9月攻读硕士研究生(在职),并获工学硕士学位。1996年9月在中国科学院山西煤炭化学研究所攻读博士学位,1999年8月毕业并获理学博士学位。1999年8月至2003年10月在荷兰Delft工业大学化工系作博士后研究工作。2003年11月至今在北京工业大学环境与能源工程学院工作。先后为本科生和研究生主讲 “无机化学“,”精细有机化学合成原理及工艺”,“固体表面化学,“材料化学”,“纳米技术与纳米催化”,“精细有机化学品”,“催化基础化学”,“化学化工文献检索”等课程,发表教学论文20余篇,无机化学获2006年北京工业大学精品课程,2016年获北京工业大学教学名师称号。科研兴趣主要从事纳米多孔功能材料的制备,多相催化以及精细化学品合成等研发工作。主持国家自然科学基金6项,省部级课题5项,发表科研论文200余篇,授权中国发明专利10项。

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