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The University of Chinese Academy of Sciences is a good school, which is popular among graduate examiners. Every year, there are thousands of places for graduate students to enroll. The enrollment ratio of graduate students is about 3:1, which is of medium difficulty. The enrollment ratio of some popular graduate students majoring in inorganic chemistry will be higher. Please note: Data on the admission score (or postgraduate entrance examination score) of inorganic chemistry graduate students in the University of Chinese Academy of Sciences. Because many people apply for the postgraduate entrance examination in inorganic chemistry at the University of the Chinese Academy of Sciences every year, the competition is fierce, so it is strongly recommended that you prepare for the postgraduate entrance examination in inorganic chemistry at the University of the Chinese Academy of Sciences to prepare some basic postgraduate entrance examination questions over the years Notes and experience of postgraduate students (there are postgraduate students' experience channel, postgraduate students' WeChat official account, postgraduate students' APP and other product platforms, in which many postgraduate students will answer your questions for free to help you with the postgraduate entrance exam). In addition, the postgraduate school will also provide you with the reference books, postgraduate entrance exam outline Contact information such as postgraduate enrollment consultation telephone. I hope you will be admitted to the University of the Chinese Academy of Sciences For graduate students majoring in inorganic chemistry, the postgraduate entrance examination is a lonely thing, and they need to bear the loneliness. I wish all the students who take the postgraduate entrance examination will review well and prepare for the exam. Next year, they will go to 985/211 to realize their dream of graduate students in famous schools.
inorganic chemistry [070301] Academic degree
Professional information
- School: University of Chinese Academy of Sciences
- Enrollment year: 2020
- Enrollment category: Full time graduate student
- College: Fujian Institute of Material Structure
- Category code and name: [07] Neo Confucianism
- First level discipline code and name: [03] Chemistry
Specialty enrollment details
Research direction: |
(01) Clusters and functions (02) Nanocatalysis (03) Cluster based metal organic coordination structure chemistry (04) Inorganic coordination self-assembly (05) Light emitting display materials and organic light-emitting diodes (06) Self assembly of discrete coordination molecular containers (07) Metal oxygen clusters (08) New inorganic ion exchange materials (09) Surface inlaid with metal organic framework films (10) Synthesis and performance research of carbon nanomaterials (11) Preparation and Structure of Functional Magnetic Compounds (12) Inorganic Functional Materials (13) Supramolecular Chemistry (14) Crystalline Porous Framework Catalytic Materials (15) Coordination Supramolecular Cages and Clusters (16) Metal organic Framework Materials (17) Inorganic Nanophotoelectric Materials and Devices (18) Inorganic organic Hybrid Ferroelectric Semiconductor Photoelectric Crystal Materials (19) Design and Synthesis of Inorganic Nonlinear Optical Crystal Materials (20) Studies on cluster based mixed valence compounds and their intramolecular electron transfer (21) Inorganic crystalline battery materials (22) Rare earth functional complexes (23) Rare earth separation chemistry and engineering (24) Polar functional crystals and devices (25) Nanomaterial synthesis (26) Ordered functional porous materials (27) Conductive coordination polymer materials (28) Molecular and crystal engineering of functional hybrid clusters (29) Design, Synthesis and Performance Research of New Crystalline Porous Materials (30) Molecular Sieve Functional Materials (31) Cluster based Functional Materials (32) Metal organic Framework, Functional Complexes, Porous Materials Catalysis (33) Inorganic Nonlinear Optical Crystal Structure Design, Optical Properties, Structure Activity Relationship Research (34) Metal organic Framework Optical Functional Materials (35) Photocatalysis (36) Porous Functional Materials and Catalysis |
Enrollment: |
seventeen |
Examination subjects: |
① (101) Ideological and political theory ② (201) English 1 ③ (619) Physical Chemistry (A) ④ (819) Inorganic Chemistry Or ① (101) Ideological and political theory ② (201) English 1 ③ (619) Physical Chemistry (A) ④ (820) Organic Chemistry |
remarks: |
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Bioinorganic Chemistry [0703Z2] Academic degree
Professional information
- School: University of Chinese Academy of Sciences
- Enrollment year: 2020
- Enrollment category: Full time graduate student
- College: Institute of High Energy Physics
- Category code and name: [07] Neo Confucianism
- First level discipline code and name: [03] Chemistry
Specialty enrollment details
Research direction: |
(01) Nanobiological effects and safety (02) Nanobiological detection and imaging (03) Environmental health and chemical biology |
Enrollment: |
three |
Examination subjects: |
① (101) Ideological and political theory ② (201) English 1 ③ (610) Molecular Biology ④ (846) General Biology Or ① (101) Ideological and political theory ② (201) English 1 ③ (610) Molecular Biology ④ (852) Cell Biology Or ① (101) Ideological and political theory ② (201) English 1 ③ (611) Biochemistry (A) ④ (846) General Biology Or ① (101) Ideological and political theory ② (201) English 1 ③ (611) Biochemistry (A) ④ (852) Cell Biology |
remarks: |
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inorganic chemistry [070301] Academic degree
Professional information
- School: University of Chinese Academy of Sciences
- Enrollment year: 2020
- Enrollment category: Full time graduate student
- College: Shanghai Institute of Applied Physics
- Category code and name: [07] Neo Confucianism
- First level discipline code and name: [03] Chemistry
Specialty enrollment details
Research direction: |
(01) Radiochemistry (02) Nanomaterials and Nanobiology (03) Radiochemistry |
Enrollment: |
five |
Examination subjects: |
① (101) Ideological and political theory ② (201) English 1 ③ (612) Biochemistry and Molecular Biology ④ (819) Inorganic Chemistry Or ① (101) Ideological and political theory ② (201) English 1 ③ (612) Biochemistry and Molecular Biology ④ (820) Organic Chemistry Or ① (101) Ideological and political theory ② (201) English 1 ③ (612) Biochemistry and Molecular Biology ④ (821) Analytical Chemistry Or ① (101) Ideological and political theory ② (201) English 1 ③ (619) Physical Chemistry (A) ④ (819) Inorganic Chemistry Or ① (101) Ideological and political theory ② (201) English 1 ③ (619) Physical Chemistry (A) ④ (820) Organic Chemistry Or ① (101) Ideological and political theory ② (201) English 1 ③ (619) Physical Chemistry (A) ④ (821) Analytical Chemistry |
remarks: |
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inorganic chemistry [070301] Academic degree
Professional information
- School: University of Chinese Academy of Sciences
- Enrollment year: 2020
- Enrollment category: Full time graduate student
- College: Institute of High Energy Physics
- Category code and name: [07] Neo Confucianism
- First level discipline code and name: [03] Chemistry
Specialty enrollment details
Research direction: |
(01) Elemental Chemistry and Metallomics (02) Nuclear Chemistry and Radiochemistry (03) Environment and Health (04) Nanochemistry and Nanomaterials |
Enrollment: |
four |
Examination subjects: |
① (101) Ideological and political theory ② (201) English 1 ③ (618) General Chemistry (A) ④ (819) Inorganic Chemistry Or ① (101) Ideological and political theory ② (201) English 1 ③ (618) General Chemistry (A) ④ (820) Organic Chemistry Or ① (101) Ideological and political theory ② (201) English 1 ③ (618) General Chemistry (A) ④ (821) Analytical Chemistry Or ① (101) Ideological and political theory ② (201) English 1 ③ (619) Physical Chemistry (A) ④ (819) Inorganic Chemistry Or ① (101) Ideological and political theory ② (201) English 1 ③ (619) Physical Chemistry (A) ④ (820) Organic Chemistry Or ① (101) Ideological and political theory ② (201) English 1 ③ (619) Physical Chemistry (A) ④ (821) Analytical Chemistry |
remarks: |
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inorganic chemistry [070301] Academic degree
Professional information
- School: University of Chinese Academy of Sciences
- Enrollment year: 2020
- Enrollment category: Full time graduate student
- College: College of Chemical Sciences
- Category code and name: [07] Neo Confucianism
- First level discipline code and name: [03] Chemistry
Specialty enrollment details
Research direction: |
(01) Synthesis of inorganic nano materials and removal of environmental pollutants (02) Surface and interface characterization and photoelectric film materials |
Enrollment: |
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Examination subjects: |
① (101) Ideological and political theory ② (201) English 1 ③ (302) Mathematics II ④ (809) Solid state physics Or ① (101) Ideological and political theory ② (201) English 1 ③ (302) Mathematics II ④ (819) Inorganic Chemistry Or ① (101) Ideological and political theory ② (201) English 1 ③ (302) Mathematics II ④ (820) Organic Chemistry Or ① (101) Ideological and political theory ② (201) English 1 ③ (619) Physical Chemistry (A) ④ (809) Solid state physics Or ① (101) Ideological and political theory ② (201) English 1 ③ (619) Physical Chemistry (A) ④ (819) Inorganic Chemistry Or ① (101) Ideological and political theory ② (201) English 1 ③ (619) Physical Chemistry (A) ④ (820) Organic Chemistry |
remarks: |
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inorganic chemistry
1、 Discipline Overview The Institute of High Energy Physics has the right to grant the first level discipline of chemistry. At present, it has two second level disciplines, inorganic chemistry and bio inorganic chemistry (among which bio inorganic chemistry is an independent discipline), doctoral and master degree awarding points. Inorganic chemistry is the first degree program established by the chemistry discipline of the Institute of High Energy Physics. The master's degree program was approved in 1984. There are 1 academician (academician Chai Zhifang) and 11 researchers in this discipline, including 8 researchers of the "Hundred Talents Program", 13 associate researchers and 16 assistant researchers.
2、 Discipline connotation and characteristics
Elemental Chemistry and Metallomics The most basic task of "Metallomics" is to study the distribution and chemical species of metals in cells, and clarify the physiological role and function of biomolecules combined with metal ions in biological systems. The discipline integrates inorganic mass spectrometry, organic mass spectrometry and synchrotron radiation research technology in the whole animal? Organization? Cells? At the molecular level, metal and its related proteins are targeted to study the molecular mechanism and pathological characteristics of metal participation and its related important metalloproteins' abnormal aggregation, expression and metabolism, and explore early diagnosis methods and new intervention sites of related diseases. The current research work includes the aggregation and antagonism of heavy metals in organisms exposed to environmental heavy metals; Research on disease metallomics and metalloproteomics; Isotope dilution mass spectrometry (IDMS) was used for quantitative analysis of proteins; Isotope labeling technology is used in nuclear medical imaging technology.
Environment and health In view of the current situation of China's environmental problems and national strategic needs, this research direction uses the advantages of nuclear analysis technology such as high sensitivity, high accuracy, high resolution, and multi-element analysis ability to select atmospheric particles, heavy metals, and persistent organic pollutants that have significant or long-term impact on human health, economic and social development as research objects, and establish relevant analysis methods, To carry out research on the environmental behavior and toxicological effects of these pollutants, explore ways to prevent and reduce the toxic effects of mercury, organic halogens and other pollutants, and provide scientific basis for relevant environmental governance and decision-making in China. At present, environmental science and toxicology research on environmental heavy metals such as mercury, lead, rare earth elements and environmental persistent organic pollutants have been carried out. In recent years, research on environmental behavior and ecotoxicology of nanomaterials has been carried out to address the potential ecological environmental impact of nanomaterials.
Nanochemistry and Nanomaterials This research direction relies on the "Laboratory of Nanobiological Effects and Nanosecurity", the key laboratory of the Chinese Academy of Sciences. Nanomaterials, due to their special physical and chemical properties, have shown broad application prospects in industry, environment, biomedicine and other fields. However, as a new type of artificial material, its impact on biology and the environment has also attracted extensive attention. This research direction is mainly devoted to the application of nano chemical technology to selectively modify or modify nano materials for safer and more reliable applications. For example, using chemical modification or modification technology, when harmful biological effects of nanoscale substances are found, their harmful effects on human body will be eliminated and their beneficial functional properties will be enhanced. On the other hand, this research direction is devoted to the construction, modification, characterization of new nanomaterials and their applications in the detection of important biomolecules related to diseases; Develop early or ultra early medical diagnosis and treatment techniques for diseases.
3、 Training objects and objectives This discipline enrolls graduates with undergraduate professional foundation in chemistry, biology, materials and environmental chemistry, and cultivates doctoral and master talents who can engage in innovative research in interdisciplinary fields such as chemistry, biology, environment and nanomaterials. Entrance Examination for Postgraduates of Chinese Academy of Sciences
Inorganic Chemistry examination syllabus
Overview of basic requirements and scope of application of examination subjects: This examination outline is applicable to the entrance examination for graduate students majoring in chemistry, chemical engineering and materials in Chinese Academy of Sciences. Candidates are required to comprehensively and systematically master the basic concepts, basic theories and basic calculations of inorganic chemistry, and be able to explain some phenomena and facts in inorganic chemistry, and have strong ability to analyze and solve problems.
Examination form Closed book examination, written examination, 180 minutes, 150 points in total.
test structure Multiple choice questions, blank filling questions, question and answer questions, calculation questions, etc
Examination content: 1. Material state Master the state equation, partial pressure law, and partial volume law of ideal gas, understand the van der Waals equation of actual gas, and derive the ideal gas law from the theory of molecular motion; Master the evaporation and boiling point of liquid; Understand the shape and internal structure of crystals. 2. Atomic structure Understand hydrogen atom spectrum and Bohr theory, wave particle duality, probability density and electron cloud, spatial image of wave function, four quantum numbers, energy levels of multi electron atoms. Master the principle of extranuclear electron arrangement and its relationship with the periodic table of elements, and the periodicity of basic properties of elements. 3. Chemical bond and molecular structure Master the formation and characteristics of ionic bonds, the characteristics of ions, ionic crystals, and lattice energy; Master the essence, principle and characteristics of covalent bond. Flexible use of hybrid orbital theory, valence shell electron pair repulsion theory, molecular orbital theory. Understand bond parameters and molecular properties. Understand molecular crystal and atomic crystal; Common valence modification theory and energy band theory of metal bonds, metal crystals; Polar and non-polar molecules, intermolecular forces, ionic polarization, hydrogen bonding. 4. Hydrogen and rare gases Understand the bonding characteristics of hydrogen, the properties and preparation methods of hydrogen, the properties and compounds of hydrogen compound xenon, and the spatial structure of rare gases. 5. Preliminary chemical thermodynamics Master the basic concept of thermodynamics, the first law of thermodynamics, and the reversible path; Flexibly apply the thermal effect of chemical reaction, Gass law, generate heat and combustion heat, and estimate reaction heat from bond energy; Understand the concept of reaction direction, the influence of reaction enthalpy change on reaction direction, state function entropy and Gibbs free energy. 6. Chemical reaction rate Understand the reaction rate theory and master the factors affecting the reaction rate. 7. Chemical balance Master the reversibility and chemical balance of chemical reaction; Flexible use of equilibrium constant, standard equilibrium constant K θ and △ r G m The relationship between θ and understand the factors affecting the movement of chemical equilibrium. 8. Solution Understand the expression method of solution concentration, and flexibly apply the solubility principle and distribution law; Grasp the colligativity of non electrolyte dilute solution; Understand the preparation and properties of dispersion system and sol, electrophoresis and particle structure of sol, precipitation and stability of sol, and polymer solution. 9. Electrolyte solution Understand the development of acid-base theory and strong electrolyte solution theory; Master and flexibly use the dissociation balance of weak acids and bases, the hydrolysis of salts, and the precipitation dissolution balance of insoluble strong electrolytes. 10. Oxidation reduction reaction Master basic concepts, balance of redox reaction equation, primary cell and electrode potential. Use the relationship between the battery electromotive force and the Gibbs free energy of chemical reaction flexibly to understand the factors affecting the electrode potential. Master the application of electrode potential, potential diagram and its application. Understand chemical battery and electrolysis. 11. Halogen Understand the general properties of halogens, halogens and their compounds, and the oxidation-reduction properties of oxyacids. 12. Oxygen group elements Understand the general properties of oxygen group elements, oxygen, ozone, water, hydrogen peroxide, sulfur and their compounds, and master the change law of inorganic acid strength. 13. Nitrogen group element Understand the general properties of nitrogen group elements, nitrogen and its compounds, phosphorus and its compounds, arsenic, antimony, bismuth and its compounds, and the thermal decomposition of salts. 14. Carbon group elements Understand the commonness of carbon group elements, the elements of carbon group elements and their compounds, and the hydrolysis of inorganic compounds. 15. Boron group elements Understand the general properties of boron group elements, the simple substances of boron group elements and their compounds, and master the effect of inert electron pairs and the diagonal relationship in the periodic table. 16. Alkali metals and alkaline earth metals Understand the commonness of alkali metals and alkaline earth metals, understand the simple substances and compounds of alkali metals and alkaline earth metals, and the hydrolysis of ionic crystal salts. 17. Copper and zinc subgroups Generally understand the general properties, simple substances and compounds of copper group elements, and understand the comparison of properties between IB group and IA group elements; Generally understand the general properties, simple substances and compounds of zinc group elements, and understand the comparison of properties of IIB and IIA group elements. 18. Coordination compounds Understand the basic concept of coordination compounds, master the chemical bond theory of coordination compounds, understand and master the stability of coordination compounds, and understand the importance of coordination compounds. 19. Transition metal (I) Generally understand the elements of titanium, vanadium, chromium and manganese and their important compounds, and understand the color development law of substances, as well as the causes and influencing factors of color development. 20. Transition metal (II) Generally understand iron series, platinum series elements and their important compounds, and understand the generality of transition elements. 21. Lanthanide and actinide elements Generally understand the electronic layer structure of various series of elements, master the general properties of lanthanide and actinide elements and important compounds. 22. Nuclear Chemistry Generally understand nuclear structure, nuclear reaction and nuclear energy release.
Reference materials: 1. Inorganic Chemistry, Third Edition, Cao Xizhang, etc., Higher Education Press, 2003. 2. Inorganic Chemistry (revised edition), written by Zhang Zude, China University of Science and Technology Press, 2008. 3. Basic Inorganic Chemistry (Part I and Part II), original work: Zhang Shumin, revised by Wu Jigui and Wang Liufang, Lanzhou University Press, 1995 (Volume I), 1996 (Volume II). Prepared by: University of Chinese Academy of Sciences Prepared on: June 2019 one 26th
inorganic chemistry [070301] Academic degree
Professional information
- School: University of Chinese Academy of Sciences
- Enrollment year: 2020
- Enrollment category: Full time graduate student
- College: Qinghai Salt Lake Research Institute
- Category code and name: [07] Neo Confucianism
- First level discipline code and name: [03] Chemistry
Specialty enrollment details
Research direction: |
(01) Inorganic Physical Chemistry (02) Inorganic Material Chemistry |
Enrollment: |
eight |
Examination subjects: |
① (101) Ideological and political theory ② (201) English 1 ③ (619) Physical Chemistry (A) ④ (819) Inorganic Chemistry |
remarks: |
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Chinese Academy of Sciences Bioinorganic Chemistry Professional introduction:
1、 Discipline Overview
The Institute of High Energy Physics has the right to grant the first level discipline of chemistry. At present, it has two second level disciplines, inorganic chemistry and bio inorganic chemistry. Among them, bio inorganic chemistry is a discipline independently set up by the Institute of High Energy Physics, and it was granted the right to grant a doctor's degree in 2007.
There are 1 academician (academician Chai Zhifang) and 8 researchers in this discipline, including 6 researchers of the "Hundred Talents Program", 8 associate researchers and 13 assistant researchers.
2、 Discipline connotation and characteristics
Nano biological effect
This research direction relies on the "Key Laboratory of the Academy of Sciences for Nanobiological Effects and Nanosecurity" of the Institute of High Energy Physics, Chinese Academy of Sciences, the National Center for Nanoscience. The research direction focuses on the biological effect of nano materials, a new scientific issue, and is guided by the national demand for health and safety. In view of the new effects, new phenomena, and new laws generated by the interaction between nanostructures and nano size materials and life processes, the cross research of nano materials and toxicology, biology, and medicine is carried out. On the other hand, through the research of nano toxicology, we can carry out safe nano biomedical applications. For example, targeted delivery of traditional drugs using nanotechnology; Develop new nano drugs, such as the ongoing research on low toxicity and high efficiency anti-tumor nano drugs, and develop nano drugs and technologies with independent intellectual property rights. In the process of research, realize the intersection of chemical physics, biomedicine, nano science and large science platforms, and develop new disciplinary growth points. Carry out innovative research in frontier scientific and technological fields, obtain innovative achievements with independent intellectual property rights, cultivate and pool innovative talents, and build a high-level experimental technology and international academic exchange platform.
Nano biological detection and imaging
The medical function of nanomaterials and the toxicological research of nanomaterials are both based on the biological effects of nanomaterials, and these two aspects of research are closely related. The development of in-situ real-time nano detection and characterization methods for biological single cells is the key to understanding the properties and functions of biological nanostructures, and is also the frontier field of nano biology and nano medicine. How to conduct in situ, real-time and dynamic detection and characterization of biological cells in vivo with high sensitivity, high selectivity and multiple indicators is the most challenging problem proposed by life science to nanoscience. In recent years, with the development of detection technology, as well as the development of scanning probe microscopy, micro/nano processing technology and nano biosensor technology that can arrange, manipulate and characterize single cells in nanoscale, real-time detection of single cells has again become a research hotspot. Real time detection of single cells requires not only high sensitivity of detection methods, but also high selectivity to be suitable for analysis in complex systems, and the ability to simultaneously analyze multiple components to accurately reflect the biological characteristics of cells. The frontier in this field is to develop the detection and manipulation methods with high sensitivity, high selectivity and multiple indicators for single cells in the living cell state, to realize the detection of single cells and single molecules in complex biological systems, so as to find diseases at the single cell level as soon as possible, monitor the effectiveness of treatment, and achieve the ultimate goal of nano diagnosis.
This research direction is committed to building nanoparticles with special optical/magnetic properties, using biological and chemical technologies to endow nanoparticles with special positioning/stress functions, using fluorescence, nuclear magnetic resonance, Raman and other instruments for biological imaging and biological detection, observing the occurrence process of biological events in vivo in situ, establishing new biological detection technology methods, and from a new perspective, Breakthroughs have been made in the early diagnosis of diseases at the single cell level, making contributions to human health.
Environmental Health and Chemical Biology
In view of the current situation of China's environmental problems and national strategic needs, this research direction uses the advantages of nuclear analysis technology such as high sensitivity, high accuracy, high resolution, and multi-element analysis ability to select atmospheric particles, heavy metals, and persistent organic pollutants that have significant or long-term impact on human health, economic and social development as research objects, and establish relevant analysis methods, To carry out research on the environmental behavior and toxicological effects of these pollutants, explore ways to prevent and reduce the toxic effects of mercury, organic halogens and other pollutants, and provide scientific basis for relevant environmental governance and decision-making in China.
3、 Training objects and objectives
This discipline recruits graduates with undergraduate professional foundations in chemistry, biology and medicine, and cultivates doctoral and master talents who can engage in innovative research in interdisciplinary fields such as chemistry, biology, environment and nanomaterials.
essential information
Major Name: Inorganic Chemistry Major Code: 070301 Category/Category: Science Discipline/Category: Chemistry
Professional Introduction
Shenyang University of Chemical Technology as an example
Since the founding of Shenyang University of Chemical Technology, inorganic chemistry has been set up as the first basic course for all majors of technology. The teaching and research section of inorganic chemistry has a history of more than 60 years. The teaching and research section has 11 teaching staff, including 3 professors, 6 associate professors and 2 lecturers; There are 9 teachers with doctor's degree, 1 with master's degree, and 1 person studying for doctor's degree on the job; Two hundred level talents of the Hundred Thousand Talents Project of Liaoning Province; All teachers graduated from Jilin University, Northeast Normal University, Northeast University, Tianjin University, Chinese Academy of Sciences and other key universities. Full time teachers have a reasonable age structure, full of vitality and strong combat effectiveness. Relying on the School of Applied Chemistry, the International Joint Laboratory of Coordination Chemistry and the Key Laboratory of Inorganic Molecular Chemistry in Liaoning Province, this discipline has formed the research directions of inorganic supramolecular assembly chemistry, inorganic biomolecular chemistry, polyacid chemistry, inorganic pharmaceutical chemistry, coordination catalytic chemistry, inorganic environmental chemistry, inorganic nanomaterials and other distinctive advantages. In the process of postgraduate training, it not only emphasizes the basic theory training of inorganic chemistry, but also focuses on the cross penetration with materials science, environmental science, life science and other disciplines, creating a good learning and scientific research environment for graduate students. Therefore, he has made great achievements in scientific research. He has won 8 NSFC funded projects, more than 30 provincial and ministerial level funds, received nearly 5 million yuan in scientific research in the past five years, and published more than 120 SCI papers. The discipline focuses on international exchange and cooperation, and has established substantive cooperation relations with many famous universities and institutes such as Russia and Belgium, realizing regular exchange visits of research backbones, joint undertaking of scientific research projects, and joint training of master's students. The Inorganic Chemistry Teaching and Research Department offers the following professional elective courses and professional compulsory courses for master students: Advanced Inorganic Chemistry, Bioinorganic Chemistry, Supramolecular Chemistry, Coordination Chemistry, Polyacid Chemistry, Inorganic Synthetic Chemistry, Inorganic Material Chemistry, Inorganic Pharmaceutical Chemistry and other professional elective courses to strengthen the basic knowledge of graduate students, Enrich the knowledge structure of graduate students.
Distribution of specialty points
Beijing Normal University Peking University Renmin University of China Peking University of Science and Technology China University of Petroleum (Beijing) China University of Mining and Technology (Beijing) University of Chinese Academy of Sciences Nankai University Tianjin Normal University Tianjin University Hebei University Hebei Normal University Central Judicial Police College Hebei Normal University Hebei Science and Technology Normal University Shanxi University Shanxi Normal University Inner Mongolia Normal University Bohai University Liaoning University Northeast University Liaoning Petroleum and Chemical University Liaoning Normal University Shenyang Pharmaceutical University Shenyang Chemical University Yanbian University Jilin Fan University Northeast Normal University Jilin University Harbin Normal University Harbin University of Technology Heilongjiang University Qiqihar University Mudanjiang Normal College Naval Medical University Fudan University Tongji University East China Normal University Shanghai Normal University East China University of Science and Technology Yangzhou University Suzhou University Nanjing University of Technology Changzhou University Nanjing University Jiangsu University Nanjing Normal University Ningbo University Shaoxing College of Arts and Sciences Anhui University Huaibei Normal University China University of Science and Technology Anqing Normal University Anhui University of Architecture Fuyang Normal University Fujian Normal University Fuzhou University Xiamen University Gannan Normal University Jiangxi Normal University Jiangxi Science and Technology Normal University Yantai University Jinan University Qufu Normal University Liaocheng University Shandong University Middle School Ocean University of China Qingdao University of Science and Technology Qilu University of Technology Shandong Agricultural University Zhengzhou University Henan University Henan Normal University Wuhan University of Science and Technology Wuhan University of Technology Central South University for Nationalities Hubei University Central Normal University Hubei Normal University Central South University Xiangtan University Hunan Normal University Sun Yat sen University Jinan University South China University of Technology South China Normal University Shantou University Guangxi Normal University Southwest University Sichuan University of Science and Technology Southwest University Sichuan Institute of Technology Yunnan Normal University Yunnan University Northwest Nuclear Technology Research Institute Northwest University Shaanxi Normal University Shaanxi University of Technology Baoji College of Arts and Sciences Lanzhou University Lanzhou Jiaotong University Northwest Normal University Qinghai Normal University Qinghai University for Nationalities Ningxia University
Ranking of professional colleges
0703 Chemistry
Among the first level disciplines, there are 69 universities with "doctoral authorization" nationwide, and 66 participated in this evaluation; Some universities with "master's authorization" also participated in the evaluation; A total of 150 colleges and universities participated in the evaluation (note: colleges and universities with the same evaluation results are ranked according to the school code in no particular order).
S/N |
School code |
School name |
Selection results |
one |
ten thousand and one |
Peking University |
A+ |
two |
ten thousand and three |
Tsinghua University |
A+ |
three |
ten thousand three hundred and fifty-eight |
University of Science and Technology of China |
A+ |
four |
ten thousand and fifty-five |
Nankai University |
A |
five |
ten thousand one hundred and eighty-three |
Jilin University |
A |
six |
ten thousand two hundred and forty-six |
Fudan University |
A |
seven |
ten thousand three hundred and eighty-four |
Xiamen University |
A |
eight |
ten thousand two hundred and forty-eight |
Shanghai Jiaotong University |
A- |
nine |
ten thousand two hundred and eighty-four |
Nanjing University |
A- |
ten |
ten thousand three hundred and thirty-five |
Zhejiang University |
A- |
eleven |
ten thousand three hundred and eighty-six |
Fuzhou University |
A- |
twelve |
ten thousand four hundred and eighty-six |
WuHan University |
A- |
thirteen |
ten thousand five hundred and thirty-two |
Hunan University |
A- |
fourteen |
ten thousand five hundred and fifty-eight |
Sun Yat-sen University |
A- |
fifteen |
ten thousand six hundred and ten |
Sichuan University |
A- |
sixteen |
ten thousand and ten |
Beijing University of Chemical Technology |
B+ |
seventeen |
ten thousand and twenty-seven |
Beijing Normal University |
B+ |
eighteen |
ten thousand and two hundred |
Northeast Normal University |
B+ |
nineteen |
ten thousand two hundred and forty-seven |
Tongji University |
B+ |
twenty |
ten thousand two hundred and fifty-one |
East China University of Science and Technology |
B+ |
twenty-one |
ten thousand two hundred and sixty-nine |
East China Normal University |
B+ |
twenty-two |
ten thousand two hundred and eighty-five |
Suzhou University |
B+ |
twenty-three |
ten thousand four hundred and twenty-two |
Shandong University |
B+ |
twenty-four |
ten thousand four hundred and fifty-nine |
Zhengzhou University |
B+ |
twenty-five |
ten thousand four hundred and eighty-seven |
Huazhong University of Science and Technology |
B+ |
twenty-six |
ten thousand five hundred and eleven |
Central China Normal University |
B+ |
twenty-seven |
ten thousand six hundred and thirty-five |
Southwest University |
B+ |
twenty-eight |
ten thousand six hundred and ninety-seven |
Northwestern University |
B+ |
twenty-nine |
ten thousand seven hundred and eighteen |
Shaanxi Normal University |
B+ |
thirty |
ten thousand seven hundred and thirty |
Lanzhou University |
B+ |
thirty-one |
ten thousand and eight |
Beijing University of Science and Technology |
B |
thirty-two |
ten thousand one hundred and eight |
Shanxi University |
B |
thirty-three |
ten thousand one hundred and forty-one |
Dalian University of Technology |
B |
thirty-four |
ten thousand one hundred and forty-five |
Northeastern University |
B |
thirty-five |
ten thousand three hundred and nineteen |
Nanjing Normal University |
B |
thirty-six |
ten thousand three hundred and seventy |
Anhui Normal University |
B |
thirty-seven |
ten thousand four hundred and twenty-six |
Qingdao University of Science and Technology |
B |
thirty-eight |
ten thousand four hundred and forty-five |
Shandong Normal University |
B |
thirty-nine |
ten thousand four hundred and seventy-six |
Henan Normal University |
B |
forty |
ten thousand five hundred and thirty-three |
Central South University |
B |
forty-one |
ten thousand five hundred and forty-two |
Hunan Normal University |
B |
forty-two |
ten thousand five hundred and sixty-one |
South China University of Technology |
B |
forty-three |
ten thousand five hundred and seventy-four |
South China Normal University |
B |
forty-four |
ten thousand six hundred and seventy-three |
Yunnan University |
B |
forty-five |
eleven thousand one hundred and seventeen |
yangzhou university |
B |
forty-six |
ten thousand and seventy-five |
Hebei University |
B- |
forty-seven |
ten thousand one hundred and eighteen |
Shanxi Normal University |
B- |
forty-eight |
ten thousand one hundred and twenty-six |
Inner Mongolia University |
B- |
forty-nine |
ten thousand two hundred and twelve |
Heilongjiang University |
B- |
fifty |
ten thousand two hundred and fifty-five |
Donghua University |
B- |
fifty-one |
ten thousand two hundred and seventy |
Shanghai Normal University |
B- |
fifty-two |
ten thousand three hundred and fifty-seven |
Anhui University |
B- |
fifty-three |
ten thousand four hundred and three |
Nanchang University |
B- |
fifty-four |
ten thousand four hundred and fourteen |
Jiangxi Normal University |
B- |
fifty-five |
ten thousand four hundred and seventy-five |
Henan University |
B- |
fifty-six |
ten thousand five hundred and thirty |
Xiangtan University |
B- |
fifty-seven |
ten thousand six hundred and two |
Guangxi Normal University |
B- |
fifty-eight |
ten thousand six hundred and ninety-nine |
Northwestern Polytechnical University |
B- |
fifty-nine |
ten thousand seven hundred and thirty-six |
Northwest Normal University |
B- |
sixty |
ten thousand seven hundred and fifty-five |
Xinjiang University |
B- |
sixty-one |
eleven thousand four hundred and fourteen |
China University of Petroleum |
B- |
sixty-two |
ten thousand and two |
Renmin University of China |
C+ |
sixty-three |
ten thousand and nineteen |
China Agricultural University |
C+ |
sixty-four |
ten thousand and twenty-eight |
Capital Normal University |
C+ |
sixty-five |
ten thousand one hundred and forty |
Liaoning University |
C+ |
sixty-six |
ten thousand one hundred and sixty-five |
Liaoning Normal University |
C+ |
sixty-seven |
ten thousand two hundred and thirteen |
Harbin Institute of Technology |
C+ |
sixty-eight |
ten thousand two hundred and eighty |
Shanghai University |
C+ |
sixty-nine |
ten thousand three hundred and forty-five |
Zhejiang Normal University |
C+ |
seventy |
ten thousand three hundred and forty-six |
Hangzhou Normal University |
C+ |
seventy-one |
ten thousand three hundred and fifty-one |
Wenzhou University |
C+ |
seventy-two |
ten thousand three hundred and ninety-four |
Fujian Normal University |
C+ |
seventy-three |
ten thousand five hundred and twenty-four |
Central South University for Nationalities |
C+ |
seventy-four |
ten thousand five hundred and fifty-nine |
Jinan University |
C+ |
seventy-five |
ten thousand six hundred and ninety-eight |
Xi'an Jiaotong University |
C+ |
seventy-six |
eleven thousand six hundred and fifty-eight |
Hainan Normal University |
C+ |
seventy-seven |
ten thousand and sixty-five |
Tianjin Normal University |
C |
seventy-eight |
ten thousand and ninety-four |
Hebei Normal University |
C |
seventy-nine |
ten thousand one hundred and eighty-four |
Yanbian University |
C |
eighty |
ten thousand two hundred and eighty-seven |
Nanjing University of Aeronautics and Astronautics |
C |
eighty-one |
ten thousand two hundred and ninety-one |
Nanjing University of Technology |
C |
eighty-two |
ten thousand two hundred and ninety-nine |
jiangsu university |
C |
eighty-three |
ten thousand three hundred and thirty-eight |
Zhejiang University of Technology |
C |
eighty-four |
ten thousand three hundred and seventy-three |
Huaibei normal university |
C |
eighty-five |
ten thousand four hundred and twenty-three |
Ocean University of China |
C |
eighty-six |
ten thousand four hundred and twenty-seven |
Jinan University |
C |
eighty-seven |
ten thousand four hundred and forty-six |
qufu normal university |
C |
eighty-eight |
ten thousand four hundred and ninety-one |
China University of Geosciences |
C |
eighty-nine |
ten thousand five hundred and twelve |
Hubei University |
C |
ninety |
ten thousand five hundred and thirty-four |
Hunan University of Science and Technology |
C |
ninety-one |
ten thousand five hundred and sixty |
Shantou University |
C |
ninety-two |
ten thousand six hundred and eleven |
Chongqing University |
C |
ninety-three |
ten thousand one hundred and eighty-six |
Changchun University of Technology |
C- |
ninety-four |
ten thousand two hundred and three |
Jilin Normal University |
C- |
ninety-five |
ten thousand two hundred and thirty-one |
harbin normal university |
C- |
ninety-six |
ten thousand two hundred and eighty-eight |
Nanjing University of Technology |
C- |
ninety-seven |
ten thousand two hundred and ninety |
China University of Mining and Technology |
C- |
ninety-eight |
ten thousand three hundred and twenty |
Jiangsu Normal University |
C- |
ninety-nine |
ten thousand three hundred and eighty-five |
Huaqiao University |
C- |
one hundred |
ten thousand four hundred and ninety |
Wuhan University of Engineering |
C- |
one hundred and one |
ten thousand five hundred and thirteen |
Hubei Normal University |
C- |
one hundred and two |
ten thousand six hundred and fifty-seven |
Guizhou University |
C- |
one hundred and three |
ten thousand six hundred and ninety-one |
Yunnan University for Nationalities |
C- |
one hundred and four |
eleven thousand two hundred and fifty-eight |
Dalian University |
C- |
one hundred and five |
eleven thousand six hundred and forty-six |
Ningbo University |
C- |
Results of the Fourth National Discipline Assessment (2017) 0703 Chemical ranking:
Among the first level disciplines, there are 69 universities with "doctoral authorization" nationwide, and 66 participated in this evaluation; Some universities with "master's authorization" also participated in the evaluation; A total of 150 colleges and universities participated in the evaluation (note: colleges and universities with the same evaluation results are ranked according to the school code in no particular order).
S/N |
School code |
School name |
Selection results |
one |
ten thousand and one |
Peking University |
A+ |
two |
ten thousand and three |
Tsinghua University |
A+ |
three |
ten thousand three hundred and fifty-eight |
University of Science and Technology of China |
A+ |
four |
ten thousand and fifty-five |
Nankai University |
A |
five |
ten thousand one hundred and eighty-three |
Jilin University |
A |
six |
ten thousand two hundred and forty-six |
Fudan University |
A |
seven |
ten thousand three hundred and eighty-four |
Xiamen University |
A |
eight |
ten thousand two hundred and forty-eight |
Shanghai Jiaotong University |
A- |
nine |
ten thousand two hundred and eighty-four |
Nanjing University |
A- |
ten |
ten thousand three hundred and thirty-five |
Zhejiang University |
A- |
eleven |
ten thousand three hundred and eighty-six |
Fuzhou University |
A- |
twelve |
ten thousand four hundred and eighty-six |
WuHan University |
A- |
thirteen |
ten thousand five hundred and thirty-two |
Hunan University |
A- |
fourteen |
ten thousand five hundred and fifty-eight |
Sun Yat-sen University |
A- |
fifteen |
ten thousand six hundred and ten |
Sichuan University |
A- |
sixteen |
ten thousand and ten |
Beijing University of Chemical Technology |
B+ |
seventeen |
ten thousand and twenty-seven |
Beijing Normal University |
B+ |
eighteen |
ten thousand and two hundred |
Northeast Normal University |
B+ |
nineteen |
ten thousand two hundred and forty-seven |
Tongji University |
B+ |
twenty |
ten thousand two hundred and fifty-one |
East China University of Science and Technology |
B+ |
twenty-one |
ten thousand two hundred and sixty-nine |
East China Normal University |
B+ |
twenty-two |
ten thousand two hundred and eighty-five |
Suzhou University |
B+ |
twenty-three |
ten thousand four hundred and twenty-two |
Shandong University |
B+ |
twenty-four |
ten thousand four hundred and fifty-nine |
Zhengzhou University |
B+ |
twenty-five |
ten thousand four hundred and eighty-seven |
Huazhong University of Science and Technology |
B+ |
twenty-six |
ten thousand five hundred and eleven |
Central China Normal University |
B+ |
twenty-seven |
ten thousand six hundred and thirty-five |
Southwest University |
B+ |
twenty-eight |
ten thousand six hundred and ninety-seven |
Northwestern University |
B+ |
twenty-nine |
ten thousand seven hundred and eighteen |
Shaanxi Normal University |
B+ |
thirty |
ten thousand seven hundred and thirty |
Lanzhou University |
B+ |
thirty-one |
ten thousand and eight |
Beijing University of Science and Technology |
B |
thirty-two |
ten thousand one hundred and eight |
Shanxi University |
B |
thirty-three |
ten thousand one hundred and forty-one |
Dalian University of Technology |
B |
thirty-four |
ten thousand one hundred and forty-five |
Northeastern University |
B |
thirty-five |
ten thousand three hundred and nineteen |
Nanjing Normal University |
B |
thirty-six |
ten thousand three hundred and seventy |
Anhui Normal University |
B |
thirty-seven |
ten thousand four hundred and twenty-six |
Qingdao University of Science and Technology |
B |
thirty-eight |
ten thousand four hundred and forty-five |
Shandong Normal University |
B |
thirty-nine |
ten thousand four hundred and seventy-six |
Henan Normal University |
B |
forty |
ten thousand five hundred and thirty-three |
Central South University |
B |
forty-one |
ten thousand five hundred and forty-two |
Hunan Normal University |
B |
forty-two |
ten thousand five hundred and sixty-one |
South China University of Technology |
B |
forty-three |
ten thousand five hundred and seventy-four |
South China Normal University |
B |
forty-four |
ten thousand six hundred and seventy-three |
Yunnan University |
B |
forty-five |
eleven thousand one hundred and seventeen |
yangzhou university |
B |
forty-six |
ten thousand and seventy-five |
Hebei University |
B- |
forty-seven |
ten thousand one hundred and eighteen |
Shanxi Normal University |
B- |
forty-eight |
ten thousand one hundred and twenty-six |
Inner Mongolia University |
B- |
forty-nine |
ten thousand two hundred and twelve |
Heilongjiang University |
B- |
fifty |
ten thousand two hundred and fifty-five |
Donghua University |
B- |
fifty-one |
ten thousand two hundred and seventy |
Shanghai Normal University |
B- |
fifty-two |
ten thousand three hundred and fifty-seven |
Anhui University |
B- |
fifty-three |
ten thousand four hundred and three |
Nanchang University |
B- |
fifty-four |
ten thousand four hundred and fourteen |
Jiangxi Normal University |
B- |
fifty-five |
ten thousand four hundred and seventy-five |
Henan University |
B- |
fifty-six |
ten thousand five hundred and thirty |
Xiangtan University |
B- |
fifty-seven |
ten thousand six hundred and two |
Guangxi Normal University |
B- |
fifty-eight |
ten thousand six hundred and ninety-nine |
Northwestern Polytechnical University |
B- |
fifty-nine |
ten thousand seven hundred and thirty-six |
Northwest Normal University |
B- |
sixty |
ten thousand seven hundred and fifty-five |
Xinjiang University |
B- |
sixty-one |
eleven thousand four hundred and fourteen |
China University of Petroleum |
B- |
sixty-two |
ten thousand and two |
Renmin University of China |
C+ |
sixty-three |
ten thousand and nineteen |
China Agricultural University |
C+ |
sixty-four |
ten thousand and twenty-eight |
Capital Normal University |
C+ |
sixty-five |
ten thousand one hundred and forty |
Liaoning University |
C+ |
sixty-six |
ten thousand one hundred and sixty-five |
Liaoning Normal University |
C+ |
sixty-seven |
ten thousand two hundred and thirteen |
Harbin Institute of Technology |
C+ |
sixty-eight |
ten thousand two hundred and eighty |
Shanghai University |
C+ |
sixty-nine |
ten thousand three hundred and forty-five |
Zhejiang Normal University |
C+ |
seventy |
ten thousand three hundred and forty-six |
Hangzhou Normal University |
C+ |
seventy-one |
ten thousand three hundred and fifty-one |
Wenzhou University |
C+ |
seventy-two |
ten thousand three hundred and ninety-four |
Fujian Normal University |
C+ |
seventy-three |
ten thousand five hundred and twenty-four |
Central South University for Nationalities |
C+ |
seventy-four |
ten thousand five hundred and fifty-nine |
Jinan University |
C+ |
seventy-five |
ten thousand six hundred and ninety-eight |
Xi'an Jiaotong University |
C+ |
seventy-six |
eleven thousand six hundred and fifty-eight |
Hainan Normal University |
C+ |
seventy-seven |
ten thousand and sixty-five |
Tianjin Normal University |
C |
seventy-eight |
ten thousand and ninety-four |
Hebei Normal University |
C |
seventy-nine |
ten thousand one hundred and eighty-four |
Yanbian University |
C |
eighty |
ten thousand two hundred and eighty-seven |
Nanjing University of Aeronautics and Astronautics |
C |
eighty-one |
ten thousand two hundred and ninety-one |
Nanjing University of Technology |
C |
eighty-two |
ten thousand two hundred and ninety-nine |
jiangsu university |
C |
eighty-three |
ten thousand three hundred and thirty-eight |
Zhejiang University of Technology |
C |
eighty-four |
ten thousand three hundred and seventy-three |
Huaibei normal university |
C |
eighty-five |
ten thousand four hundred and twenty-three |
Ocean University of China |
C |
eighty-six |
ten thousand four hundred and twenty-seven |
Jinan University |
C |
eighty-seven |
ten thousand four hundred and forty-six |
qufu normal university |
C |
eighty-eight |
ten thousand four hundred and ninety-one |
China University of Geosciences |
C |
eighty-nine |
ten thousand five hundred and twelve |
Hubei University |
C |
ninety |
ten thousand five hundred and thirty-four |
Hunan University of Science and Technology |
C |
ninety-one |
ten thousand five hundred and sixty |
Shantou University |
C |
ninety-two |
ten thousand six hundred and eleven |
Chongqing University |
C |
ninety-three |
ten thousand one hundred and eighty-six |
Changchun University of Technology |
C- |
ninety-four |
ten thousand two hundred and three |
Jilin Normal University |
C- |
ninety-five |
ten thousand two hundred and thirty-one |
harbin normal university |
C- |
ninety-six |
ten thousand two hundred and eighty-eight |
Nanjing University of Technology |
C- |
ninety-seven |
ten thousand two hundred and ninety |
China University of Mining and Technology |
C- |
ninety-eight |
ten thousand three hundred and twenty |
Jiangsu Normal University |
C- |
ninety-nine |
ten thousand three hundred and eighty-five |
Huaqiao University |
C- |
one hundred |
ten thousand four hundred and ninety |
Wuhan University of Engineering |
C- |
one hundred and one |
ten thousand five hundred and thirteen |
Hubei Normal University |
C- |
one hundred and two |
ten thousand six hundred and fifty-seven |
Guizhou University |
C- |
one hundred and three |
ten thousand six hundred and ninety-one |
Yunnan University for Nationalities |
C- |
one hundred and four |
eleven thousand two hundred and fifty-eight |
Dalian University |
C- |
one hundred and five |
eleven thousand six hundred and forty-six |
Ningbo University |
C- |
Data source: Degree and Graduate Education Development Center of the Ministry of Education
National ranking of inorganic chemistry in 2007
ranking |
School name |
Grade |
ranking |
School name |
Grade |
ranking |
School name |
Grade |
one |
Nanjing University |
A+ |
seven |
Shandong University |
A |
thirteen |
Zhengzhou University |
A |
two |
Jilin University |
A+ |
eight |
Northeast Normal University |
A |
fourteen |
Tsinghua University |
A |
three |
Nankai University |
A+ |
nine |
Lanzhou University |
A |
fifteen |
WuHan University |
A |
four |
Peking University |
A+ |
ten |
Fudan University |
A |
sixteen |
Tongji University |
A |
five |
University of Science and Technology of China |
A |
eleven |
Xiamen University |
A |
seventeen |
Suzhou University |
A |
six |
Sun Yat-sen University |
A |
twelve |
Zhejiang University |
A |
|
|
|
B+, etc. (26): Beijing Normal University, Heilongjiang University, Fuzhou University, Hunan University, Beijing University of Technology, Sichuan University, Central South University, Beijing University of Chemical Technology, Huazhong University of Science and Technology, Harbin University of Technology, Anhui University, Changchun University of Technology, Northwest University, Tianjin University, East China University of Technology, Shanxi University, Shanghai Jiaotong University, Ningbo University Shanghai University, Shanxi Normal University, Dalian University of Technology, Liaoning Normal University, Liaoning University, Jinan University, Shaanxi Normal University, Henan University |
Class B (25): Guangxi Normal University, Henan Normal University, Qingdao University of Science and Technology, Northwest Normal University, Hebei University, East China Normal University, South China University of Technology, Xinjiang University, Nanchang University, Wuhan University of Technology, Shantou University, Hebei Normal University, Qufu Normal University, Harbin Normal University, Anqing Normal University, Anhui Normal University, Inner Mongolia University Central China Normal University, Guizhou University, Hubei University, Central North University, Shenyang Institute of Chemical Technology, Yunnan Normal University, Jiangsu University, Southwest University |
Class C (18): the list is omitted |
National ranking of inorganic chemistry in 2015-2016
ranking
|
School name
|
Star rating
|
Number of schools in this major
|
one |
Nanjing University |
5★ |
one hundred and fifty |
two |
Nankai University |
5★ |
one hundred and fifty |
three |
Jilin University |
5★ |
one hundred and fifty |
four |
Fudan University |
5★ |
one hundred and fifty |
five |
Xiamen University |
5★ |
one hundred and fifty |
six |
Peking University |
5★ |
one hundred and fifty |
seven |
Sun Yat-sen University |
5★ |
one hundred and fifty |
eight |
Northeast Normal University |
5★ |
one hundred and fifty |
nine |
University of Science and Technology of China |
4★ |
one hundred and fifty |
ten |
Zhejiang University |
4★ |
one hundred and fifty |
eleven |
Tsinghua University |
4★ |
one hundred and fifty |
twelve |
Suzhou University |
4★ |
one hundred and fifty |
thirteen |
Shandong University |
4★ |
one hundred and fifty |
fourteen |
Dalian University of Technology |
4★ |
one hundred and fifty |
fifteen |
Tianjin University |
4★ |
one hundred and fifty |
sixteen |
Zhengzhou University |
4★ |
one hundred and fifty |
seventeen |
Northwestern University |
4★ |
one hundred and fifty |
eighteen |
Lanzhou University |
4★ |
one hundred and fifty |
nineteen |
East China University of Science and Technology |
4★ |
one hundred and fifty |
twenty |
Beijing University of Chemical Technology |
4★ |
one hundred and fifty |
Postgraduate examination subjects of inorganic chemistry:
Major code and name |
070301 Inorganic Chemistry |
Examination subjects |
① 101 Ideological and Political Theory ② 201 English I ③ 651 analytical chemistry and physical chemistry ④ 880 Inorganic Chemistry and Organic chemistry |
Re examination written subjects, additional subjects with the same academic qualifications |
Subject of written retest : Comprehensive knowledge of chemistry;
Additional examination subjects with equivalent academic qualifications : ① Modern instrumental analysis ② Structural chemistry |
Research direction |
01 Coordination Chemistry 02 Functional Materials Chemistry 03 Physical Inorganic Chemistry 04 Solid Chemistry 05 Bioinorganic Chemistry 06 Energy and Materials Chemistry 07 Photocatalysis |
Inorganic Chemistry Postgraduate Examination Reference Book: The reference books for postgraduate enrollment and postgraduate entrance examination in the School of Chemistry and Molecular Science of Wuhan University in 2016 are as follows: The designated bibliography of 655 analytical chemistry and physical chemistry in Wuhan University: Analytical Chemistry, fifth edition, Wuhan University, Higher Education Press Physical Chemistry (Volume I and Volume II), first edition, edited by Wang Cunxin and Lin Zhixin, Wuhan University Press Wuhan University 881 Inorganic Chemistry and Organic Chemistry Postgraduate Examination Designated Bibliography: Inorganic Chemistry (Volume I and Volume II), Second Edition, Shao Xuejun, etc., Wuhan University Press Organic Chemistry (Volume I and Volume II), second edition, edited by Hu Hongwen, Higher Education Press Wuhan University 661 Cell Biology Postgraduate Examination Bibliography: Cell Biology, 2000 edition Zhai Zhonghe, Wang Xizhong, Ding Mingxiao, Higher Education Press Wuhan University 882 General Chemistry Postgraduate Examination Designated Bibliography: Introduction to Modern Chemistry (Volume I and Volume II), 2002 edition, edited by Shen Panwen, Higher Education Press Wuhan University 883 Principles of Chemical Engineering Postgraduate Examination Designated Bibliography: Fundamentals of Chemical Engineering, first edition, edited by Wuhan University, Higher Education Press Wuhan University 884 Inorganic Chemistry and Polymer Chemistry and Physics Postgraduate Examination Designated Bibliography: Inorganic Chemistry (Volume I and Volume II), Second Edition, Shao Xuejun, etc., Wuhan University Press Polymer Chemistry, 1998 edition, edited by Xiao Chaobo, Wuhan University Press Polymer Physics, edited by He Manjun, Fudan University Press Wuhan University 885 Molecular Biology Postgraduate Examination Designated Bibliography: Modern Molecular Biology, 1997 edition, Zhu Yuxian, Li Yi, Higher Education Press Genetics (Molecular Genetics), 1999 edition, Wang Yafu, Dai Zhuohua, Higher Education Press Instant Notes in Molecular Biology: 2000 English Photocopy or Chinese Version Turner P C, Mclennan A D, Bates A D, White M R H Science Press
Employment destination of inorganic chemistry graduate students: Employment Direction of Inorganic Chemistry Employment prospects: The continuous development of the discipline affects the employment of graduates of this major. With the mutual penetration of various disciplines and their own new achievements, the inorganic chemistry discipline has developed to a new stage. In the preparation and application of new materials, it has a very important strategic position and broad development prospects, synchronized with material science, life science and information The development of energy is the original discipline of various cross disciplines, especially the development of material science strongly depends on inorganic chemistry. The application scope of professionals in this discipline is very wide, and the employment scope is expanded accordingly. Employment destination: graduates of this major are mainly engaged in teaching, scientific research, production and inspection management in institutions of higher learning, scientific research departments, industrial and mining enterprises, government agencies, trade departments and other relevant professional units; It can also engage in applied research and development, production technology management and product marketing in environmental protection, chemical industry, medicine, foreign trade, customs, health, quality inspection, light industry, general education and other relevant units. Position related to inorganic chemistry Product manager, combustion chemical kinetics analysis engineer, chemical engineering patent agent, application technical support engineer (chemistry), oilfield chemical R&D engineer, synthetic chemical product manager, factory chemist, laboratory assistant (chemistry), technician (chemical laboratory), chemical quality inspector, chemical test engineer, chemical report review engineer, agricultural animal residue test engineer, Environmental sampling and testing engineer, cathode material development.