Surface chemical reactions on self-assembled silane based monolayers
L Wang, US Schubert, S Hoeppener - Chemical Society Reviews, 2021 - pubs.rsc.org
In this review, we aim to update our review “Chemical modification of self-assembled silane-
based monolayers by surface reactions” which was published in 2010 and has developed …
based monolayers by surface reactions” which was published in 2010 and has developed …
Bioactive coatings on titanium: a review on hydroxylation, self-assembled monolayers (sams) and surface modification strategies
Titanium (Ti) and its alloys have been demonstrated over the last decades to play an
important role as inert materials in the field of orthopedic and dental implants. Nevertheless …
important role as inert materials in the field of orthopedic and dental implants. Nevertheless …
Thickness-Dependent Charge Transport in Three Dimensional Ru (II)–Tris (phenanthroline)-Based Molecular Assemblies
We describe here the fabrication of large-area molecular junctions with a configuration of
ITO/[Ru (Phen) 3]/Al to understand temperature-and thickness-dependent charge transport …
ITO/[Ru (Phen) 3]/Al to understand temperature-and thickness-dependent charge transport …
[HTML][HTML] Non-contact identification and differentiation of illicit drugs using fluorescent films
K Liu, C Shang, Z Wang, Y Qi, R Miao, K Liu… - Nature …, 2018 - nature.com
Sensitive and rapid identification of illicit drugs in a non-contact mode remains a challenge
for years. Here we report three film-based fluorescent sensors showing unprecedented …
for years. Here we report three film-based fluorescent sensors showing unprecedented …
Strategies, challenges and opportunities of enzyme immobilization on porous silicon for biosensing applications
The use of porous silicon (PS) for biosensing applications is now emerging as it offers
desired properties such as better surface-volume ratio, tunable pore size, ease of …
desired properties such as better surface-volume ratio, tunable pore size, ease of …
Coordination-driven opto-electroactive molecular thin films in electronic circuits
Surface engineering using controlled molecular structures, compositions, thicknesses,
packing, and orientations is highly desirable for understanding nanoscale interfacial …
packing, and orientations is highly desirable for understanding nanoscale interfacial …
Electrochemical potential‐driven high‐throughput molecular electronic and spintronic devices: from molecules to applications
Molecules are fascinating candidates for constructing tunable and electrically conducting
devices by the assembly of either a single molecule or an ensemble of molecules between …
devices by the assembly of either a single molecule or an ensemble of molecules between …
Nanoscale molecular layers for memory devices: challenges and opportunities for commercialization
The modern era of digital computing systems is deeply embedded around memory devices,
which store an ocean of information accessible by an electronic gadget. Such electronic …
which store an ocean of information accessible by an electronic gadget. Such electronic …
Metal-free platforms for molecular thin films as high-performance supercapacitors
Controlling chemical functionalization and achieving stable electrode–molecule interfaces
for high-performance electrochemical energy storage applications remain challenging tasks …
for high-performance electrochemical energy storage applications remain challenging tasks …
pH-Responsive luminescence sensing, photoredox catalysis and photodynamic applications of ruthenium (II) photosensitizers bearing imidazo [4, 5-f][1, 10] …
Ru (II)-polypyridyl complexes supported with imidazo [4, 5-f][1, 10] phenanthroline ligand are
of increasing interest as photosensitizers in different research areas. A combination of rich …
of increasing interest as photosensitizers in different research areas. A combination of rich …