Introduction: A Nuclear Vision for Viksit Bharat@2047 As India marches toward its ambitious goal of becoming a developed nation by 2047, energy security stands as a pivotal pillar in the vision of Viksit Bharat . Amid the global climate crisis and rising energy demands, nuclear power has re-emerged as a compelling solution. India’s commitment to achieving 100 GW of nuclear power capacity by 2047 is both visionary and necessary—but achieving this requires a strategic shift in policy, participation, and international cooperation. While India’s nuclear energy sector has traditionally been a tightly controlled domain under government monopoly—primarily led by the Department of Atomic Energy (DAE) and Nuclear Power Corporation of India Limited (NPCIL) —it is now imperative to welcome private sector investments and foreign partnerships. A reformed nuclear ecosystem can unlock the full potential of atomic energy as a clean, reliable, and scalable contributor to India’s net-zero aspiration...
Malaria, a life-threatening disease predominantly affecting tropical regions, continues to claim hundreds of thousands of lives annually. As traditional methods of mosquito control and drug treatments face rising resistance, scientists are pioneering a groundbreaking approach: genetically modifying malaria-causing parasites themselves. Unlike previous strategies that targeted mosquito vectors, this innovative method focuses directly on Plasmodium parasites, fundamentally altering their life cycle to enhance immune response and reduce transmission. In this article, we will delve into how genetically modified malaria parasites work, their advantages over traditional methods, the challenges they pose, and the potential implications for global health. The Shift from Mosquitoes to Parasites Traditionally, malaria control strategies have primarily targeted the mosquito vectors responsible for transmitting the disease. Some of the most prominent methods have included: 1. Radiation-Sterilized ...