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Several globally significant infectious diseases are not yet treatable with vaccination; nanomaterials are being investigated to provide new strategies for vaccine development.
The operationalization and improvement of environmental exposure assessment models for engineered nanomaterials can build on ten emerging principles relating to their release pathways, waste handling, transformations, influence of the properties on reactions and role that organisms can play in their fate and transport.
This Review provides an overview of SARS-CoV-2 pathogenesis and examines the immune-mediated approaches currently being explored for COVID-19 treatments, with an emphasis on nanotechnological tools.
This Review provides an overview of memory devices and the key computational primitives for in-memory computing, and examines the possibilities of applying this computing approach to a wide range of applications.
This Review summarizes the current nanoscale understanding of the interface chemistries between solid state electrolytes and electrodes for future all solid state batteries.
This review highlights key opportunistic areas for applying nanotechnologies towards the manipulation of the microbiome for the treatment of cancer, gives an overview of seminal work and discusses future challenges and our perspective on this emerging area.
This Review highlights the progress made so far in engineering nanomaterials for neurotechnology applications, from neuron signal sensing and modulation to brain stimulation, with an outlook on what these technologies can enable in the future.
Nanomaterials have the potential to be very effective as fertilizers and pesticides for crops. This article reviews results so far and challenges ahead.
Until recently, the family of 2D materials was missing one crucial member — 2D magnets. This Review presents an overview of the 2D magnets studied so far and of the heterostructures that can be realized by combining them with other 2D materials.
This Review highlights the fundamental advantages of nanolasers and the engineering challenges for their utilization in several practical applications.
Recent progress on generating electricity from the direct interaction of carbon nanostructures with flowing, waving, dropping and evaporating water is summarized.
This Review discusses recent experimental and theoretical efforts in electron dynamics in TMDC heterostructures and the relevance of these effects for potential applications in optoelectronic and valleytronic/spintronic devices.