About this Research Topic
Quantum computing and the decentralized web represent two of the most transformative technological advancements of our time. Quantum computing leverages the principles of quantum mechanics to perform complex calculations exponentially faster than classical computers, offering unprecedented potential in fields such as optimization, cryptography, and material science. Concurrently, the decentralized web, utilizing technologies like blockchain and distributed ledger systems, promises enhanced security, privacy, and data ownership, challenging the traditional centralized internet model. Despite significant progress, there remain critical gaps in understanding how these technologies can be effectively integrated and applied across various industries. Current studies have demonstrated the potential of quantum computing in solving computationally intractable problems and the decentralized web in providing robust digital infrastructure. However, comprehensive research is needed to explore the intersection of these technologies and their cross-industry applications.
This Research Topic aims to investigate the intersection of quantum computing, the decentralized web, and innovative engineering solutions to unlock cross-industry business applications. The primary objectives include understanding how these technologies can be harmonized to address current challenges, exploring their potential applications in various sectors, and identifying the engineering solutions necessary for their successful implementation. Specific questions to be answered include: How can quantum computing enhance the security and efficiency of the decentralized web? What are the potential business applications of these converging technologies? What engineering innovations are required to realize these applications?
To gather further insights into the intersection of quantum computing and the decentralized web, we welcome articles addressing, but not limited to, the following themes:
o Quantum Computing Applications: Exploring uses in finance, healthcare, logistics, energy, and other industries.
o Engineering Solutions: Integrating quantum computing with decentralized web technologies.
o Quantum Cryptography: Implications for data security in decentralized systems.
o Blockchain and Distributed Ledger Technologies: Their role in quantum computing.
o Case Studies: Cross-industry applications leveraging quantum and decentralized technologies.
o Challenges and Opportunities: Developing quantum hardware and software for decentralized applications.
o Impact on Emerging Technologies: Quantum technologies' effect on the nascent metaverse and industrial omniverse.
o Convergence with Other Frontier Technologies: Integrating quantum computing with AI, digital twins, and edge computing.
Additionally, we welcome submissions on the following topics:
o Quantum Computing for Climate Modeling and Carbon Reduction: Investigating how quantum algorithms can enhance climate models' accuracy, optimize carbon capture technologies, and develop more efficient materials for renewable energy, contributing to the UN's climate action goals.
o Quantum Technologies for Sustainable Agriculture and Food Security: Exploring the potential of quantum sensing and optimization in improving agricultural practices, resource management, and food supply chains to achieve Zero Hunger (UN SDG 2) and sustainable food systems.
o Quantum Cryptography for Secure and Sustainable Smart Cities: Examining how quantum-safe encryption and communication protocols can secure smart city infrastructures, enabling efficient energy use, waste management, and transportation systems aligned with the UN's Sustainable Cities and Communities goal (SDG 11).Quantum Materials for Renewable Energy and Energy Storage: Researching new materials designed using quantum mechanics to improve solar cells, batteries, and supercapacitors, supporting affordable and clean energy (UN SDG 7) and reducing reliance on fossil fuels
o Quantum-Enabled Optimization for Circular Economy Models: Analyzing the role of quantum computing in optimizing resource allocation, recycling processes, and supply chains to reduce waste, promote sustainable consumption and production (UN SDG 12), and transition to a circular economy by 2050.
This Research Topic aims to investigate the intersection of quantum computing, the decentralized web, and innovative engineering solutions to unlock cross-industry business applications. The primary objectives include understanding how these technologies can be harmonized to address current challenges, exploring their potential applications in various sectors, and identifying the engineering solutions necessary for their successful implementation. Specific questions to be answered include: How can quantum computing enhance the security and efficiency of the decentralized web? What are the potential business applications of these converging technologies? What engineering innovations are required to realize these applications?
To gather further insights into the intersection of quantum computing and the decentralized web, we welcome articles addressing, but not limited to, the following themes:
o Quantum Computing Applications: Exploring uses in finance, healthcare, logistics, energy, and other industries.
o Engineering Solutions: Integrating quantum computing with decentralized web technologies.
o Quantum Cryptography: Implications for data security in decentralized systems.
o Blockchain and Distributed Ledger Technologies: Their role in quantum computing.
o Case Studies: Cross-industry applications leveraging quantum and decentralized technologies.
o Challenges and Opportunities: Developing quantum hardware and software for decentralized applications.
o Impact on Emerging Technologies: Quantum technologies' effect on the nascent metaverse and industrial omniverse.
o Convergence with Other Frontier Technologies: Integrating quantum computing with AI, digital twins, and edge computing.
Additionally, we welcome submissions on the following topics:
o Quantum Computing for Climate Modeling and Carbon Reduction: Investigating how quantum algorithms can enhance climate models' accuracy, optimize carbon capture technologies, and develop more efficient materials for renewable energy, contributing to the UN's climate action goals.
o Quantum Technologies for Sustainable Agriculture and Food Security: Exploring the potential of quantum sensing and optimization in improving agricultural practices, resource management, and food supply chains to achieve Zero Hunger (UN SDG 2) and sustainable food systems.
o Quantum Cryptography for Secure and Sustainable Smart Cities: Examining how quantum-safe encryption and communication protocols can secure smart city infrastructures, enabling efficient energy use, waste management, and transportation systems aligned with the UN's Sustainable Cities and Communities goal (SDG 11).Quantum Materials for Renewable Energy and Energy Storage: Researching new materials designed using quantum mechanics to improve solar cells, batteries, and supercapacitors, supporting affordable and clean energy (UN SDG 7) and reducing reliance on fossil fuels
o Quantum-Enabled Optimization for Circular Economy Models: Analyzing the role of quantum computing in optimizing resource allocation, recycling processes, and supply chains to reduce waste, promote sustainable consumption and production (UN SDG 12), and transition to a circular economy by 2050.
Keywords: quantum, DLT, innovation, technology, business
Important Note: All contributions to this Research Topic must be within the scope of the section and journal to which they are submitted, as defined in their mission statements. Frontiers reserves the right to guide an out-of-scope manuscript to a more suitable section or journal at any stage of peer review.
