MS (Microbiology And Immunology)
Korea University Of Transportation (KNUT)
I’m Saleha Waqar, a doctoral researcher in Polymer Science and Engineering with a deep-rooted passion for biomedical innovation. My academic journey began in Biological Sciences and evolved through hands-on experience in nanotechnology and environmental microbiology. Over the years, I’ve cultivated a strong interdisciplinary perspective—one that bridges materials science, biomedical engineering, and environmental sustainability.My early research focused on leveraging microbial potential for environmental remediation, which I integrated with cutting-edge nanotechnological approaches. This experience not only sharpened my scientific skills but also solidified my commitment to translational research that addresses global health and ecological challenges. Currently, my work revolves around developing advanced polymer-based biomaterials for regenerative medicine, with an emphasis on creating functional, biocompatible systems for tissue engineering and repair.Beyond the lab, I actively seek collaborations that drive innovation at the intersection of biology, materials, and technology. I believe that meaningful scientific progress stems from interdisciplinary communities and open dialogue. By joining this society, I aim to contribute to forward-thinking initiatives, engage with leading experts, and grow alongside a network that shares a vision of scientific impact and societal betterment. My mission is to help shape a future where biomedical solutions are sustainable, accessible, and transformative.
Sustainability, to me, is not just an environmental goal—it’s a scientific and social responsibility. As someone working at the intersection of polymer science, biomedical engineering, and nanotechnology, I see immense potential in integrating sustainable practices into the design and application of advanced materials. I believe that the next wave of global innovation must be rooted in both human-centered impact and ecological responsibility, and I am eager to be part of a community that shares this vision. My current research focuses on developing biomaterials that are not only functional and regenerative but also eco-conscious in their lifecycle. Having previously worked on combining microbial potential with nanotechnology for environmental remediation, I’ve come to value interdisciplinary collaboration as a key driver of meaningful change. It is this spirit of innovation and collective action that draws me to Sustainability Global. Sustainability Global's mission is to unite forward-thinking individuals from diverse fields resonates deeply with my professional and personal goals. I am especially inspired by the organization’s emphasis on scalable, tech-driven sustainability and collaborative project development. By joining this society, I aim to contribute my expertise, engage in dynamic discussions, and co-create solutions that align with both global health and environmental resilience.
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I’m Saleha Waqar, a doctoral researcher in Polymer Science and Engineering with a deep-rooted passion for biomedical innovation. My academic journey began in Biological Sciences and evolved through hands-on experience in nanotechnology and environmental microbiology. Over the years, I’ve cultivated a strong interdisciplinary perspective—one that bridges materials science, biomedical engineering, and environmental sustainability.
My early research focused on leveraging microbial potential for environmental remediation, which I integrated with cutting-edge nanotechnological approaches. This experience not only sharpened my scientific skills but also solidified my commitment to translational research that addresses global health and ecological challenges. Currently, my work revolves around developing advanced polymer-based biomaterials for regenerative medicine, with an emphasis on creating functional, biocompatible systems for tissue engineering and repair.
Beyond the lab, I actively seek collaborations that drive innovation at the intersection of biology, materials, and technology. I believe that meaningful scientific progress stems from interdisciplinary communities and open dialogue. By joining this society, I aim to contribute to forward-thinking initiatives, engage with leading experts, and grow alongside a network that shares a vision of scientific impact and societal betterment. My mission is to help shape a future where biomedical solutions are sustainable, accessible, and transformative.
Sustainability, to me, is not just an environmental goal—it’s a scientific and social responsibility. As someone working at the intersection of polymer science, biomedical engineering, and nanotechnology, I see immense potential in integrating sustainable practices into the design and application of advanced materials. I believe that the next wave of global innovation must be rooted in both human-centered impact and ecological responsibility, and I am eager to be part of a community that shares this vision.
My current research focuses on developing biomaterials that are not only functional and regenerative but also eco-conscious in their lifecycle. Having previously worked on combining microbial potential with nanotechnology for environmental remediation, I’ve come to value interdisciplinary collaboration as a key driver of meaningful change. It is this spirit of innovation and collective action that draws me to Sustainability Global.
Sustainability Global's mission is to unite forward-thinking individuals from diverse fields resonates deeply with my professional and personal goals. I am especially inspired by the organization’s emphasis on scalable, tech-driven sustainability and collaborative project development. By joining this society, I aim to contribute my expertise, engage in dynamic discussions, and co-create solutions that align with both global health and environmental resilience.