Du Zuliang, male, born in July 1966, Doctor, professor, doctoral supervisor, Central Plains scholar. Deputy Executive Director of the Key Laboratory of Special Functional Materials, Ministry of Education. He is the leader of innovation team of "Changjiang Scholar and Innovation Team Development Plan" of Ministry of Education, Deputy Director of China Ordered Molecular Membrane Professional Committee, New Century Outstanding Talent of Ministry of Education, expert enjoying government special allowance, Excellent Expert of Henan Province, Special Professor of Henan Province, and cross-century academic and technological leader of Henan Province.

He has presided over the completion of more than 10 national scientific research projects, such as the national Key Basic Research 973 Project, the National Natural Science Foundation of China's Major Nano Research Program, the National Natural Science Foundation of China's general Project, and the Ministry of Education's University Science and Technology Innovation Project. It also includes more than 10 provincial-level and ministerial-level projects such as Henan Provincial Innovative Talent Project and Henan Provincial Outstanding Youth Fund Project. He has won 2 second prize of Science and Technology Progress of Henan Province (natural science) and has published more than 200 SCI academic papers and 2 books (chapters). In addition, he has 7 appraisal results and 24 invention patents (14 have been authorized).

Professor Du is mainly engaged in the research of high-efficiency photoelectric nanostructured materials and devices. He has worked systematically on the preparation, assembly, device construction and photoelectric properties of nanostructured materials. By using a combination of molecular assembly (chemical method) and nano-imprint (physical method), he established a unique nanostructure material construction technology, enabling large-scale and low-cost preparation of nanostructures. At the same time, he built three types of characteristic research platform to realize the photoelectric measurement of micro-nano area. He is the first in the world to establish a new method for bionic mineralization of dual-template materials. The physical model of the surface barrier for the controlled surface states of the low dimensional semiconductor nanostructure is established and the photoelectric nanodevice based on the surface Schottky barrier is developed. The photoelectric enhancement of the micron/nano ordered structure was found and clarified, which opened a new way for the development of high-efficiency thin-film solar cells and quantum dot light-emitting diode (QLED).