Zhang Research Group

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张勤芳课题组祝您新年快乐!

Focus News

Professor zhang qinfang was invited to attend the 19th international conference on small particles and inorganic clusters

       

   The 19th international conference on small particles and inorganic clusters (ISSPIC XIX) was held in hangzhou, east China's zhejiang province. Professor zhang qinfang was invited to make a report on "Correlation Effects in Low Dimensional Systems: From DFT to DMFT".
   The theme of this conference is the physical and chemical properties of atomic clusters, the properties of nano-scale substances, and the latest development of basic theories and research methods of nanoscience oriented by technological applications. ISSPIC conference is an international conference with the highest level in the field of nano science recognized by the international academic circle. The biennial conference is held alternately in Europe, America, Asia and Australia. Nearly 400 participants from 28 countries including China, the United States, Germany and Japan attended the meeting.
 In recent years, our university clusters and nano science and technology is developing rapidly, developed by this school, the international first-class quality of high resolution choice clusters beam experiment device and catalytic online testing system has been through, yancheng city, jiangsu province institute of physics and technology bureau of technical appraisal, the experimental system runs stably, has formed a preliminary research results. The holding of this conference is of great significance for expanding the international influence of our university in nanotechnology and promoting the research and industrial application of nanotechnology.

Highlights
MnB2 nanosheet and nanotube: stability, electronic structures, novel functionalization and application for Li-ion batteries
VC2 and V1 2Mn1 2C2 nanosheets with robust mechanical and thermal properties as promising materials for Li-ion batteries
Efficient Carrier Separation and Band Structure Tuning of Two-Dimensional C2N GaTe van der Waals Heterostructure
Thermal spin-transfer torque in magnetoelectronic devices
First-principles study of the spin-mixing conductance in Pt Ni81Fe19 junctions
Strain-engineered magnetic order in (LaMnO3)n (SrMnO3)2n superlattices
Anisotropic two-dimensional electron gas at the LaAlO3 SrTiO3 (110) interface
High-Mobility Sm-Doped Bi2Se3 Ferromagnetic Topological Insulators and Robust Exchange Coupling
Infrared Response and Optoelectronic Memory Device Fabrication Based on Epitaxial VO2 Film
Introduction

Basic information of our research group:

Our research group is divided into three research groups: the development and application of cluster beam deposition technology, the development and application of high-performance thermoelectric materials, and the development and application of new photocatalytic materials. Now we have a wealth of research experience and first-class equipment conditions.We strive to make a unique contribution to the research of new functional nanomaterials.The group now has 1 professor, 3 associate professors, 6 lecturers, 5 doctoral students, 2 master's students, 5 exchange and visiting scholars and 18 undergraduate interns.The research group has established close academic and student exchange relations with related research groups such as nanjing university, Vienna polytechnic university, Japan institute of physics and chemistry.

 
Research field and enrollment direction:
 
(1) Development and application of cluster beam deposition technology: the singularity effect and its application mechanism in the preparation of materials and devices during the collision between various energy bearing clusters and solids are emphasized. (There is a device process lab;admit the physics, the material, the chemistry direction examinee);
 
(2) Development and application of high performance thermoelectric materials: preparation and performance optimization of thermoelectric materialsPhysical and chemical mechanisms of high performance thermoelectric materialsDesign and development of new thermoelectric materials under the guidance of theory. (There is a device process lab;admit the physics, the material, the chemistry direction examinee);
 
(3) Development and application of new photocatalytic materials:Controllable preparation and characterization of novel photocatalytic materials; Study on transport characteristics of photogenic carriers; Electronic structure control of novel photocatalytic materialsStudy on the mechanism of photocatalytic materialsDesign and development of new photocatalytic materials under the guidance of theory. (There is aChemical synthesis laboratory; admit the physics, the material, the chemistry direction examinee)

Our research group recruits graduate students and doctoral students, We also welcome undergraduates to participate in our research activities. The recruitment of students professionalIncludes "physics," "chemistry," and "materials science and engineering". Our group also enrolls postdoctoral researchers in the above directions, And offer competitive remuneration. We welcome young people with physics, chemistry, materials or electronics background to join our team.