Overall SDG Alignment Evaluation:
The Doctor of Philosophy Program in Chemistry is fundamentally designed to produce researchers and innovators with deep expertise to create new, internationally recognized knowledge. The program's core philosophy of advancing chemical sciences for the benefit of society aligns powerfully with SDG 9 (Industry, Innovation, and Infrastructure) by driving research in materials science, catalysis, and polymer technology. It is a cornerstone for achieving SDG 7 (Affordable and Clean Energy) through its focus on electrochemistry and materials for energy applications. By training experts in analytical chemistry for environmental monitoring and organic chemistry for drug discovery, the curriculum directly supports SDG 3 (Good Health and Well-being) and SDG 6 (Clean Water and Sanitation). The program's emphasis on green chemistry principles is a direct contribution to SDG 12 (Responsible Consumption and Production). As a doctoral program, it is a flagship for SDG 4 (Quality Education) and inherently promotes the global partnerships essential for SDG 17 (Partnerships for the Goals).
SDG 3: Good Health and Well-beingAlignment Summary: The program contributes to good health and well-being by advancing the chemical sciences that underpin modern medicine. Through advanced courses in organic synthesis and analytical chemistry, graduates are equipped to conduct research that is vital for drug discovery, development of diagnostic tools, and ensuring the safety of food and consumer products.
| Course Code | Course Title | Alignment Rationale |
|---|---|---|
| SC 258 101 | Advanced Organic Synthesis | Supports research and development of new medicines (Target 3.B) by providing the core skills needed for the synthesis of new pharmaceutical compounds. |
| SC 258 303 | Advanced Analytical Chemistry | Contributes to health and well-being by developing experts in the advanced analytical techniques used for disease diagnostics, food safety analysis, and environmental monitoring (Target 3.9). |
SDG 4: Quality EducationAlignment Summary: As a doctoral program, this curriculum is the epitome of quality education. It is designed to cultivate expert researchers and academics by providing advanced training in research methodologies and fostering a culture of lifelong learning, thereby contributing to the creation of new knowledge for sustainable development.
| Course Code | Course Title | Alignment Rationale |
|---|---|---|
| SC 259 901 | Research Methodology in Chemistry | Provides the core research skills that define high-quality doctoral education, equipping students for high-level employment and lifelong learning in scientific research (Target 4.3 and 4.4). |
| SC 259 99X | Seminar / Dissertation | These courses are capstone lifelong learning opportunities (Target 4.3) where students engage with the scientific community and conduct original research, acquiring superior technical and professional skills (Target 4.4). |
SDG 6: Clean Water and SanitationAlignment Summary: The program is central to ensuring the availability and sustainable management of water by training experts in analytical techniques for environmental monitoring. The curriculum equips graduates to develop and apply advanced methods for detecting pollutants in water, which is crucial for improving water quality and protecting water-related ecosystems.
| Course Code | Course Title | Alignment Rationale |
|---|---|---|
| SC 258 303 | Advanced Analytical Chemistry | Directly supports Target 6.3 by providing the advanced analytical skills needed to monitor water quality and identify pollutants, which is essential for effective water management. |
| SC 258 305 | Environmental Chemical Analysis | Aligns with protecting and restoring water-related ecosystems (Target 6.6) by focusing specifically on the chemical analysis of environmental samples, including water bodies. |
SDG 7: Affordable and Clean EnergyAlignment Summary: The program is a major driver for the transition to affordable and clean energy. It offers deep expertise in electrochemistry and materials science, which are fundamental to the development of batteries, fuel cells, and other advanced materials for energy storage and conversion, directly contributing to clean energy research and technology.
| Course Code | Course Title | Alignment Rationale |
|---|---|---|
| SC 258 402 | Advanced Electrochemistry | Directly supports clean energy research and technology (Target 7.A) by providing a deep understanding of the electrochemical principles that underpin batteries, fuel cells, and solar cells. |
| SC 258 501 | Advanced Materials Chemistry | Contributes to ensuring access to affordable and reliable energy (Target 7.1) by focusing on the development of new materials for energy generation, storage, and efficiency. |
SDG 9: Industry, Innovation and InfrastructureAlignment Summary: This program is a catalyst for innovation across a wide range of chemical-related industries. By providing advanced training in materials chemistry, catalysis, and polymer science, it enhances scientific research and upgrades the technological capabilities of sectors focused on advanced materials, manufacturing, and sustainable technologies.
| Course Code | Course Title | Alignment Rationale |
|---|---|---|
| SC 258 202 | Advanced Catalysis | Supports upgrading the technological capabilities of industrial sectors (Target 9.4) by focusing on the design and application of catalysts for more efficient and sustainable chemical processes. |
| SC 258 501 | Advanced Materials Chemistry | Drives innovation by providing a deep understanding of the chemistry of advanced materials, which is fundamental to developing new industrial technologies (Target 9.5). |
| SC 258 503 | Advanced Polymer Chemistry | Fosters innovation in the plastics and advanced materials industries by providing expertise in the synthesis and characterization of polymers (Target 9.5). |
| Dissertation (All Codes) | Dissertation | Represents a significant contribution to enhancing scientific research and fostering innovation across all areas of chemistry (Target 9.5). |
SDG 12: Responsible Consumption and ProductionAlignment Summary: The program promotes responsible production patterns by embedding the principles of sustainability and green chemistry into its curriculum. Graduates are trained to design chemical processes and products that are more efficient, less hazardous, and have a reduced environmental footprint, contributing to the environmentally sound management of chemicals and waste.
| Course Code | Course Title | Alignment Rationale |
|---|---|---|
| SC 258 202 | Advanced Catalysis | Contributes to responsible production (Target 12.4) by developing more efficient catalysts that reduce energy consumption and waste in chemical manufacturing. |
| SC 258 506 | Green Chemistry | Directly aligns with achieving the environmentally sound management of chemicals and wastes (Target 12.4) by teaching the core principles of designing sustainable chemical products and processes. |
SDG 17: Partnerships for the GoalsAlignment Summary: As an international program, this curriculum inherently builds partnerships for sustainable development. Its focus on globally relevant scientific challenges and the requirement for research dissemination in international forums promote the knowledge-sharing and multi-stakeholder collaborations necessary to achieve global goals.
| Course Code | Course Title | Alignment Rationale |
|---|---|---|
| SC 259 902 | Seminar in Chemistry 1 | Promotes the global partnership for sustainable development (Target 17.6) by requiring students to engage with and present on international research, fostering a culture of global knowledge-sharing. |
| SC 259 99X | Dissertation | Represents a significant contribution to global partnerships (Target 17.16) by creating new, publishable knowledge that is shared internationally to help solve critical sustainability challenges. |