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Introduction to Light Sources and Lighting Program

Laser Diodes (LD), Light Emitting Diodes (LED), and Organic Light Emitting Diodes (OLED) represent the latest generation of solid-state light sources. Semiconductor lighting devices centered around these technologies exhibit immense developmental potential in fields such as communications, lighting, display, health, environmental protection, intelligent manufacturing, and modern agriculture. The educational objective of this program is to cultivate students with sound social and professional ethics, as well as comprehensive qualities that meet the development needs of society. Students will master the fundamental theories and basic knowledge of solid-state light sources, skillfully operate key equipment and analytical instruments in this field, possess high capabilities for engineering practice and innovation, and acquire fundamental technical management knowledge in this specialty. They are trained to apply their knowledge to solve engineering problems in the field and to engage in the design, research and development, production, and management of semiconductor photoelectric chips, packaging, lighting and intelligent control, display devices and systems, optical communication modules and systems, and other related areas, with the goal of becoming qualified engineers.

Based on new semiconductor light sources and smart lighting systems, this program conducts teaching and research at both the device and system application levels, actively expanding into distinctive research areas. Currently, there are three characteristic directions: Semiconductor Light Sources and Photonic Integration, Wireless Optical Communications and High-Speed Optical Components, Smart Lighting, and Display. The specialty directions cover: 1) Semiconductor light source devices, involving the entire process of materials, chips, and packaging, undertaking characteristic research such as optical communication devices and modules, display devices, thermal treatment of devices, photonic integration, Mini/MicroLED, etc.; 2) Optical design and photoelectric display, including optical design for light sources and lighting design, conducting characteristic research in visible light communication optics, backlight sources, and novel photoelectric displays; 3) Combining optical communication and artificial intelligence technologies to carry out research in smart lighting, health lighting, photoelectric information, and chip-driven ICs. Positioned in the Pearl River Delta region and leveraging Shenzhen’s advantages as a manufacturing hub and design capital for semiconductor light sources, the program aims to develop students' abilities to apply comprehensive professional knowledge in fields such as optoelectronic devices, optical design, circuits and software, and intelligent information technology.

Introduction to New Energy Science and Engineering

Source: School of New Materials and New Energy Author: Unknown views: 6019 Date: December 28, 2021

With the continuous depletion of traditional fossil fuels and the increasingly prominent environmental and health issues caused by carbon emissions, the development and utilization of new energy have become the key to ensuring global sustainable development in the future, and also the focus of a new round of power transformation and upgrading. Under the goal of "peaking carbon emissions and achieving carbon neutrality" in China by 2030 and 2060, the proportion of electricity to terminal energy will exceed 50% by 2060. Therefore, vigorously promoting technological innovation in new energy generation, energy storage, smart energy networks, and achieving safe and stable operation after a high proportion of new energy generation is crucial for the establishment of future new energy generation systems.

The New Energy Science and Engineering major is one of the seven strategic new industries that China focuses on developing. It focuses on new energy generation technologies such as solar energy, wind energy, and hydrogen energy, as well as new energy utilization technologies such as power batteries and energy storage systems, distributed power generation, and intelligent microgrids. It cultivates composite talents with professional knowledge in the field of new energy, mastery of professional skills in the operation and management of new energy devices and power generation systems, and the ability to engage in technical research and development, engineering application, operation and maintenance management in related fields. It has a strong sense of social responsibility and an international first-class perspective, innovative spirit, and practical ability. The professional coverage covers a wide range of knowledge points, covering interdisciplinary fields such as materials science, energy dynamics, physics, chemistry, electronic technology, mechanical engineering, etc., with a focus on energy conversion and storage materials and their device design and preparation engineering technology as the professional characteristics.

Guangdong Province and Shenzhen City have formed a complete industrial chain from the development of new energy materials, manufacturing of equipment, to the utilization of new energy terminals. It has developed rapidly in key areas such as solar photovoltaic power generation, wind energy, and new energy vehicles, providing a stage for ambitious young people to build their dreams. We look forward to your joining.

Introduction to the Major of Materials Science and Engineering

New materials are the foundation for national economic construction, social progress, and national security. They play a crucial role in optimizing and upgrading industrial structure and enhancing the manufacturing of equipment. New materials serve as the basis and forerunner for high-tech industries and advanced manufacturing, representing one of the most active areas of technological innovation today. The level of research and development of new materials, along with the scale of their industry, are important indicators of a country or region's economic and technological strength.

Driven by national policy and downstream market demand, the new materials industry in Shenzhen has been thriving, with a continuous expansion of industrial scale and a significant enhancement of innovation capabilities and application levels. The sector focuses on the clustered development in fields such as electronic information materials, new energy materials, and cutting-edge new materials, taking the lead in some sub-sectors nationwide. By 2025, the plan is to achieve an industrial added value of 58 billion yuan and to foster more than 120 companies with annual revenues exceeding 100 million yuan. To meet the innovative and sustainable development needs of the new materials industry, there is an urgent demand for the cultivation of a large number of high-end application-oriented composite talents with a background in materials science and engineering.

This major closely aligns with the development needs of the new materials industry in Shenzhen and the Pearl River Delta region. It aims to foster well-grounded, broad-spectrum, high-quality composite scientific and technological talents with strong practical skills in areas such as material preparation and application, instrument analysis, and quality management, focusing on directions like optoelectronic materials, new energy materials, film materials, jewelry processing, and testing.

Introduction to Light Sources and Lighting Program

Laser Diodes (LD), Light Emitting Diodes (LED), and Organic Light Emitting Diodes (OLED) represent the latest generation of solid-state light sources. Semiconductor lighting devices centered around these technologies exhibit immense developmental potential in fields such as communications, lighting, display, health, environmental protection, intelligent manufacturing, and modern agriculture. The educational objective of this program is to cultivate students with sound social and professional ethics, as well as comprehensive qualities that meet the development needs of society. Students will master the fundamental theories and basic knowledge of solid-state light sources, skillfully operate key equipment and analytical instruments in this field, possess high capabilities for engineering practice and innovation, and acquire fundamental technical management knowledge in this specialty. They are trained to apply their knowledge to solve engineering problems in the field and to engage in the design, research and development, production, and management of semiconductor photoelectric chips, packaging, lighting and intelligent control, display devices and systems, optical communication modules and systems, and other related areas, with the goal of becoming qualified engineers.

Based on new semiconductor light sources and smart lighting systems, this program conducts teaching and research at both the device and system application levels, actively expanding into distinctive research areas. Currently, there are three characteristic directions: Semiconductor Light Sources and Photonic Integration, Wireless Optical Communications and High-Speed Optical Components, Smart Lighting, and Display. The specialty directions cover: 1) Semiconductor light source devices, involving the entire process of materials, chips, and packaging, undertaking characteristic research such as optical communication devices and modules, display devices, thermal treatment of devices, photonic integration, Mini/MicroLED, etc.; 2) Optical design and photoelectric display, including optical design for light sources and lighting design, conducting characteristic research in visible light communication optics, backlight sources, and novel photoelectric displays; 3) Combining optical communication and artificial intelligence technologies to carry out research in smart lighting, health lighting, photoelectric information, and chip-driven ICs. Positioned in the Pearl River Delta region and leveraging Shenzhen’s advantages as a manufacturing hub and design capital for semiconductor light sources, the program aims to develop students' abilities to apply comprehensive professional knowledge in fields such as optoelectronic devices, optical design, circuits and software, and intelligent information technology.窗体底端

Introduction to New Energy Science and Engineering

Source: School of New Materials and New Energy Author: Unknown views: 6019 Date: December 28, 2021

With the continuous depletion of traditional fossil fuels and the increasingly prominent environmental and health issues caused by carbon emissions, the development and utilization of new energy have become the key to ensuring global sustainable development in the future, and also the focus of a new round of power transformation and upgrading. Under the goal of "peaking carbon emissions and achieving carbon neutrality" in China by 2030 and 2060, the proportion of electricity to terminal energy will exceed 50% by 2060. Therefore, vigorously promoting technological innovation in new energy generation, energy storage, smart energy networks, and achieving safe and stable operation after a high proportion of new energy generation is crucial for the establishment of future new energy generation systems.

The New Energy Science and Engineering major is one of the seven strategic new industries that China focuses on developing. It focuses on new energy generation technologies such as solar energy, wind energy, and hydrogen energy, as well as new energy utilization technologies such as power batteries and energy storage systems, distributed power generation, and intelligent microgrids. It cultivates composite talents with professional knowledge in the field of new energy, mastery of professional skills in the operation and management of new energy devices and power generation systems, and the ability to engage in technical research and development, engineering application, operation and maintenance management in related fields. It has a strong sense of social responsibility and an international first-class perspective, innovative spirit, and practical ability. The professional coverage covers a wide range of knowledge points, covering interdisciplinary fields such as materials science, energy dynamics, physics, chemistry, electronic technology, mechanical engineering, etc., with a focus on energy conversion and storage materials and their device design and preparation engineering technology as the professional characteristics.

Guangdong Province and Shenzhen City have formed a complete industrial chain from the development of new energy materials, manufacturing of equipment, to the utilization of new energy terminals. It has developed rapidly in key areas such as solar photovoltaic power generation, wind energy, and new energy vehicles, providing a stage for ambitious young people to build their dreams. We look forward to your joining.

Introduction to the Major of Materials Science and Engineering

New materials are the foundation for national economic construction, social progress, and national security. They play a crucial role in optimizing and upgrading industrial structure and enhancing the manufacturing of equipment. New materials serve as the basis and forerunner for high-tech industries and advanced manufacturing, representing one of the most active areas of technological innovation today. The level of research and development of new materials, along with the scale of their industry, are important indicators of a country or region's economic and technological strength.

Driven by national policy and downstream market demand, the new materials industry in Shenzhen has been thriving, with a continuous expansion of industrial scale and a significant enhancement of innovation capabilities and application levels. The sector focuses on the clustered development in fields such as electronic information materials, new energy materials, and cutting-edge new materials, taking the lead in some sub-sectors nationwide. By 2025, the plan is to achieve an industrial added value of 58 billion yuan and to foster more than 120 companies with annual revenues exceeding 100 million yuan. To meet the innovative and sustainable development needs of the new materials industry, there is an urgent demand for the cultivation of a large number of high-end application-oriented composite talents with a background in materials science and engineering.

This major closely aligns with the development needs of the new materials industry in Shenzhen and the Pearl River Delta region. It aims to foster well-grounded, broad-spectrum, high-quality composite scientific and technological talents with strong practical skills in areas such as material preparation and application, instrument analysis, and quality management, focusing on directions like optoelectronic materials, new energy materials, film materials, jewelry processing, and testing.