The vision of the Journal of Quantum Nano-Green Environmental Systems is to advance cutting-edge research in quantum and nanotechnology, promoting sustainable solutions for environmental challenges. It focuses on a broad range of applications, including energy, waste management, water purification, climate change mitigation, and green materials, fostering a cleaner, more sustainable future.
The Journal of Quantum Nano-Green Environmental Systems covers cutting-edge research at the intersection of quantum technologies, nanotechnology, and environmental sustainability. Its scope includes, but is not limited to:
Exploring quantum-based technologies for enhancing energy storage, conversion, and distribution, aiming to create more efficient and sustainable energy systems for future needs.
Investigating the use of nanomaterials for removing pollutants from air, water, and soil, offering solutions to critical environmental contamination and sustainability challenges.
Application of quantum computing to simulate complex environmental systems and predict climate change impacts, enabling more accurate environmental forecasting and decision-making.
Development of nano-enabled materials and quantum solutions to improve water filtration, desalination, and purification processes, ensuring access to clean water globally.
Study of quantum and nanocatalysts to enable energy-efficient chemical reactions, reduce waste, and improve sustainability in industrial processes such as manufacturing and pharmaceuticals.
Advancements in nano and quantum-based sensors for real-time environmental monitoring, detecting pollutants and providing early warnings for ecological risks and climate change.
Leveraging quantum and nanotechnology for capturing carbon dioxide, reducing greenhouse gases, and developing novel materials for climate change mitigation and sustainability efforts.
Innovation in nanomaterials designed for eco-friendly products, biodegradable goods, and lightweight structures that minimize environmental impact while improving product efficiency and durability.
Exploring the application of quantum and nanotechnologies to enhance agricultural practices, including pest control, crop yield, and soil health, promoting sustainable farming practices.
Focusing on quantum and nanotechnology applications for waste reduction, recycling, and reusing materials in a circular economy, supporting sustainability and resource efficiency.