Overall SDG Alignment Evaluation:
The Bachelor of Science Program in Battery Science and New Energy is holistically and explicitly designed to produce a new generation of scientists and technologists at the forefront of the global transition to sustainable energy. The curriculum's philosophy, emphasizing deep scientific understanding, technological innovation, and a commitment to sustainability, creates a powerful and direct alignment with the Sustainable Development Goals. The program is a cornerstone of SDG 7 (Affordable and Clean Energy), with its entire focus dedicated to the science and technology of energy storage and renewable energy systems. This focus makes it a critical driver for SDG 9 (Industry, Innovation, and Infrastructure) and SDG 13 (Climate Action) by providing the human capital needed to develop and deploy clean energy technologies. Furthermore, the curriculum's strong emphasis on the lifecycle of batteries and responsible waste management directly champions SDG 12 (Responsible Consumption and Production). As a cutting-edge science and technology program, it is a flagship of SDG 4 (Quality Education) and supports the creation of high-value jobs in the green economy (SDG 8).
SDG 3: Good Health and Well-beingAlignment Summary: The program contributes to good health and well-being by emphasizing the safe handling of chemicals and materials used in battery and energy technologies. A strong foundation in laboratory safety helps prevent occupational illnesses and injuries from hazardous substances.
| Course Code | Course Title | Alignment Rationale |
|---|---|---|
| SC000103 | Safety in Chemical Laboratory | Directly supports good health by focusing on the safe handling of chemicals, which reduces the risk of deaths and illnesses from hazardous materials in the workplace (Target 3.9). |
SDG 4: Quality EducationAlignment Summary: This program provides high-quality, specialized education in a critical, high-growth field. It is designed to equip students with the advanced scientific knowledge and technical skills necessary for careers in the sustainable energy sector, fostering lifelong learning and contributing to a highly skilled workforce.
| Course Code | Course Title | Alignment Rationale |
|---|---|---|
| SC534891 | Seminar | Enhances education for sustainable development by requiring students to research and present on advanced topics in energy science, fostering the critical thinking skills needed for innovation (Target 4.7). |
| SC534892 | Special Project | Provides quality education by enabling students to conduct independent research, applying the scientific method to solve real-world problems in energy technology (Target 4.7). |
| SC000213 | Co-operative Education in Science | Increases the number of youths and adults who have relevant skills for employment by providing extensive, hands-on work experience in the energy industry (Target 4.4). |
SDG 6: Clean Water and SanitationAlignment Summary: The program indirectly supports clean water by focusing on responsible waste management from the battery industry. Proper handling and recycling of battery materials are crucial to prevent heavy metal contamination of soil and water resources.
| Course Code | Course Title | Alignment Rationale |
|---|---|---|
| SC534612 | Waste Management from Battery Industry | Contributes to improving water quality by teaching methods to manage and treat industrial waste, thereby reducing the pollution of water bodies from hazardous materials (Target 6.3). |
SDG 7: Affordable and Clean EnergyAlignment Summary: This program is the embodiment of SDG 7. Its entire curriculum is dedicated to advancing the science and technology of batteries and new energy systems. It provides the core knowledge needed to increase the share of renewable energy, improve energy efficiency, and build the technological foundation for a global clean energy infrastructure.
| Course Code | Course Title | Alignment Rationale |
|---|---|---|
| SC531101 | Battery Science and Technology | Is fundamental to increasing the share of renewable energy by providing the core technology for storing energy from intermittent sources like solar and wind (Target 7.2). |
| SC533301 | Materials for Energy Storage | Directly supports research and access to clean energy technology by focusing on the development of advanced materials for next-generation batteries and other storage devices (Target 7.A). |
| SC533302 | Solar Energy Technology | Contributes to ensuring access to affordable and clean energy by teaching the principles of photovoltaic technology, a key renewable energy source (Target 7.2). |
| SC534611 | Fuel Cells | Enhances international cooperation to facilitate access to clean energy research and technology by exploring an advanced, high-efficiency energy conversion technology (Target 7.A). |
SDG 8: Decent Work and Economic GrowthAlignment Summary: The program is a direct driver of economic growth by training a specialized workforce for the rapidly expanding green energy and electric vehicle industries. It prepares graduates for high-value, decent work in a key sector for the future economy.
| Course Code | Course Title | Alignment Rationale |
|---|---|---|
| SC531101 | Battery Science and Technology | Contributes to higher levels of economic productivity through technological upgrading and innovation in the energy storage and electric vehicle sectors (Target 8.2). |
SDG 9: Industry, Innovation and InfrastructureAlignment Summary: The program is fundamentally about fostering innovation for a new era of industrial infrastructure. The entire curriculum is focused on the science, technology, and manufacturing of batteries and new energy systems, which are the essential building blocks for clean energy infrastructure, electric mobility, and a more sustainable industrial base.
| Course Code | Course Title | Alignment Rationale |
|---|---|---|
| SC533303 | Battery Manufacturing Process | Directly supports sustainable and resilient infrastructure development by teaching the industrial processes for manufacturing energy storage systems (Target 9.1 & 9.4). |
| SC534892 | Special Project | Enhances scientific research and upgrades technological capabilities by training students to conduct cutting-edge research to develop new energy technologies (Target 9.5). |
| SC532201 | Electrochemistry for Energy Storage | Supports scientific research by providing the deep theoretical knowledge needed to innovate and create next-generation battery technologies (Target 9.5). |
SDG 11: Sustainable Cities and CommunitiesAlignment Summary: The program contributes to sustainable cities by providing the core technologies for electric vehicles and grid-scale energy storage. These technologies are crucial for reducing urban air pollution from transport and for creating more resilient and sustainable energy systems for communities.
| Course Code | Course Title | Alignment Rationale |
|---|---|---|
| SC531101 | Battery Science and Technology | Contributes to making cities more sustainable by enabling the transition to electric vehicles, which reduces air pollution and the adverse environmental impact of cities (Target 11.6). |
SDG 12: Responsible Consumption and ProductionAlignment Summary: The curriculum strongly promotes responsible production patterns by addressing the entire lifecycle of batteries. It provides the knowledge for the environmentally sound management of battery materials and waste, which is critical for creating a circular economy for energy storage technologies.
| Course Code | Course Title | Alignment Rationale |
|---|---|---|
| SC534612 | Waste Management from Battery Industry | Directly focuses on achieving the environmentally sound management of chemicals and all wastes throughout their life cycle to minimize their adverse impacts (Target 12.4), and substantially reducing waste generation through recycling and reuse (Target 12.5). |
| SC533303 | Battery Manufacturing Process | Encourages companies to adopt sustainable practices by teaching efficient manufacturing techniques that minimize resource consumption and waste (Target 12.6). |
SDG 13: Climate ActionAlignment Summary: The program is a direct and powerful response to the need for climate action. By training experts in battery and new energy technologies, it provides the human capital essential for the global transition away from fossil fuels, which is the single most important strategy for mitigating climate change.
| Course Code | Course Title | Alignment Rationale |
|---|---|---|
| SC533302 | Solar Energy Technology | Directly contributes to climate change mitigation by promoting a key renewable energy technology (Target 13.2). |
| SC531101 | Battery Science and Technology | Is critical for strengthening resilience and adaptive capacity to climate-related hazards by enabling stable power grids that can integrate high levels of renewable energy (Target 13.1). |
SDG 17: Partnerships for the GoalsAlignment Summary: The program fosters partnerships through its cooperative education and research projects, which create a vital bridge between the university, the burgeoning clean energy industry, and national research centers. This collaboration is essential for sharing knowledge and accelerating the deployment of technologies needed to achieve the SDGs.
| Course Code | Course Title | Alignment Rationale |
|---|---|---|
| SC000213 | Co-operative Education in Science | Directly encourages and promotes effective public-private partnerships by immersing students in the clean energy industry, building collaborative experience (Target 17.17). |
| SC534892 | Special Project | Enhances the global partnership for sustainable development by contributing new, publicly accessible scientific knowledge in the critical area of energy technology (Target 17.6). |