Water treatment based on atomically engineered materials: Atomic layer deposition and beyond
Global water stress and challenges for producing sufficient supplies of fit-for-purpose water
are amplifying. Atomically engineered interfaces are emerging as a powerful tool in the …
are amplifying. Atomically engineered interfaces are emerging as a powerful tool in the …
Advanced materials for energy-water systems: the central role of water/solid interfaces in adsorption, reactivity, and transport
The structure, chemistry, and charge of interfaces between materials and aqueous fluids
play a central role in determining properties and performance of numerous water systems …
play a central role in determining properties and performance of numerous water systems …
Design of functional composite and all-inorganic nanostructured materials via infiltration of polymer templates with inorganic precursors
Robust and efficient approaches for the synthesis of materials with structure, porosity, and
composition controlled at the nanoscale are highly important for a wide range of …
composition controlled at the nanoscale are highly important for a wide range of …
The chemical physics of sequential infiltration synthesis—A thermodynamic and kinetic perspective
Sequential infiltration synthesis (SIS) is an emerging materials growth method by which
inorganic metal oxides are nucleated and grown within the free volume of polymers in …
inorganic metal oxides are nucleated and grown within the free volume of polymers in …
Preserving nanoscale features in polymers during laser induced graphene formation using sequential infiltration synthesis
Direct lasing of polymeric membranes to form laser induced graphene (LIG) offers a scalable
and potentially cheaper alternative for the fabrication of electrically conductive membranes …
and potentially cheaper alternative for the fabrication of electrically conductive membranes …
The development and atomic structure of zinc oxide crystals grown within polymers from vapor phase precursors
Sequential infiltration synthesis (SIS), also known as vapor phase infiltration (VPI), is a
quickly expanding technique that allows growth of inorganic materials within polymers from …
quickly expanding technique that allows growth of inorganic materials within polymers from …
Introducing a Robust Flexible Conductive Hybrid: Indium Oxide-ParyleneC Obtained by Vapor Phase Infiltration
Hybrid materials are a merger of inorganic and organic materials and, as such, have the
potential to outperform the characteristics and functionalities of conventional, that is …
potential to outperform the characteristics and functionalities of conventional, that is …
Vapor‐Phase Infiltrated Organic–Inorganic Positive‐Tone Hybrid Photoresist for Extreme UV Lithography
Continuing extreme downscaling of semiconductor devices, essential for high performance
and energy efficiency of future microelectronics, hinges on extreme ultraviolet lithography …
and energy efficiency of future microelectronics, hinges on extreme ultraviolet lithography …
Vapor Infiltration Synthesis of Indium Sulfide Magic Size Cluster
The energetically favorable formation of atomically precise clusters, known as magic size
clusters, in the solution phase enables a precision nanoscale synthesis with exquisite …
clusters, in the solution phase enables a precision nanoscale synthesis with exquisite …
Colloidal atomic layer deposition on nanocrystals using ligand-modified precursors
Atomic layer deposition (ALD) is a method to grow thin metal oxide layers on a variety of
materials for applications spanning from electronics to catalysis. Extending ALD to …
materials for applications spanning from electronics to catalysis. Extending ALD to …