This is a table of type bigram and their frequencies. Use it to search & browse the list to learn more about your study carrel.
bigram | frequency |
---|---|
surface plasmon | 160 |
plasmon resonance | 151 |
environmental surfaces | 103 |
infection control | 101 |
electron microscopy | 91 |
enteric viruses | 82 |
surface roughness | 78 |
stainless steel | 78 |
staphylococcus aureus | 74 |
health care | 73 |
scanning electron | 72 |
disinfecting chemicals | 70 |
copper surfaces | 67 |
intensive care | 65 |
antimicrobial peptides | 65 |
escherichia coli | 62 |
hand hygiene | 59 |
monte carlo | 59 |
antimicrobial activity | 58 |
hydrogen peroxide | 57 |
human brain | 56 |
nucleic acid | 56 |
molecular dynamics | 55 |
door handles | 54 |
electron beam | 52 |
experimental data | 52 |
inanimate surfaces | 52 |
output layer | 51 |
healthcare facilities | 51 |
contact angle | 51 |
shannon entropy | 50 |
plasma membrane | 50 |
environmental contamination | 48 |
contaminated surfaces | 48 |
quantum dots | 48 |
care unit | 47 |
surface science | 47 |
free energy | 47 |
respiratory syndrome | 45 |
surface topography | 45 |
quaternary ammonium | 45 |
neural networks | 45 |
care facilities | 44 |
doc id | 44 |
acute respiratory | 44 |
electron microscope | 44 |
cord uid | 44 |
clostridium difficile | 44 |
force microscopy | 43 |
carbon nanotubes | 42 |
cell membrane | 41 |
living cells | 41 |
resistant staphylococcus | 40 |
nosocomial pathogens | 40 |
sars cov | 39 |
membrane proteins | 39 |
atomic force | 39 |
important role | 39 |
hard surfaces | 38 |
amino acid | 38 |
environmental surface | 38 |
associated infections | 37 |
cell surface | 36 |
particle diameter | 36 |
room temperature | 36 |
neural network | 36 |
touch surfaces | 36 |
superhydrophobic surfaces | 36 |
information content | 35 |
public health | 35 |
amino acids | 35 |
cell lines | 35 |
wetting properties | 35 |
influenza virus | 35 |
input data | 35 |
severe acute | 34 |
healthcare workers | 34 |
hospital surfaces | 34 |
surface sampling | 34 |
molecular imprinting | 34 |
contact time | 34 |
direct contact | 34 |
antiviral activity | 34 |
filter cake | 34 |
relative humidity | 34 |
copper alloy | 34 |
input layer | 34 |
cross section | 33 |
resonance frequency | 33 |
recent years | 32 |
nucleic acids | 32 |
mechanical properties | 32 |
transmission electron | 32 |
surface area | 32 |
conformational changes | 31 |
copper alloys | 31 |
commonly used | 31 |
colloidal crystals | 31 |
dynamics simulations | 31 |
quartz crystal | 31 |
widely used | 30 |
fine particles | 30 |
resonance imaging | 30 |
results show | 30 |
size distribution | 30 |
klebsiella pneumoniae | 30 |
detection limit | 29 |
different surfaces | 29 |
negatively charged | 29 |
different types | 29 |
respiratory tract | 29 |
surface stress | 29 |
antimicrobial properties | 29 |
granular material | 29 |
surface properties | 29 |
syndrome coronavirus | 29 |
protein interactions | 28 |
supplement iv | 28 |
surface disinfection | 28 |
single molecule | 28 |
uv light | 28 |
particle size | 28 |
recovery efficiencies | 28 |
enveloped viruses | 28 |
scanning vol | 28 |
antimicrobial peptide | 28 |
cfu cm | 28 |
gold nanoparticles | 28 |
surface contamination | 28 |
contact surfaces | 28 |
surface materials | 27 |
assembled monolayers | 27 |
droplet clusters | 27 |
refractive index | 27 |
lipid bilayer | 27 |
respiratory viruses | 26 |
viral rna | 26 |
binding sites | 26 |
lipid membranes | 26 |
host cell | 26 |
viral infections | 26 |
cross sections | 26 |
human serum | 26 |
human exposure | 26 |
permeate flux | 26 |
membrane surface | 26 |
virus particles | 25 |
human norovirus | 25 |
results obtained | 25 |
infectious diseases | 25 |
highly sensitive | 25 |
closely related | 25 |
risk assessment | 25 |
surface modification | 25 |
natural convection | 25 |
mass spectrometry | 25 |
machine learning | 24 |
scaling relationships | 24 |
transfer function | 24 |
membrane filtration | 24 |
two different | 24 |
coronavirus disease | 24 |
united states | 24 |
high sensitivity | 24 |
lp process | 24 |
materials science | 24 |
also used | 23 |
cell line | 23 |
initial surface | 23 |
van der | 23 |
respiratory syncytial | 23 |
term care | 23 |
isoelectric point | 23 |
biomedical applications | 23 |
fluorescence microscopy | 23 |
heat transfer | 23 |
human coronavirus | 23 |
crystal microbalance | 23 |
graphene oxide | 23 |
molecular weight | 23 |
real time | 23 |
biological effects | 23 |
water contact | 22 |
acinetobacter baumannii | 22 |
colloidal systems | 22 |
superhydrophobic materials | 22 |
binding site | 22 |
thin films | 22 |
artificial neural | 22 |
power law | 22 |
wide range | 22 |
titanium dioxide | 22 |
lipid bilayers | 22 |
bacterial burden | 22 |
ionic strength | 22 |
pseudomonas aeruginosa | 22 |
hospital environment | 22 |
nosocomial infections | 22 |
material composition | 22 |
laser beam | 21 |
composite materials | 21 |
ion channels | 21 |
systematic review | 21 |
viral particles | 21 |
energy transfer | 21 |
infected patients | 21 |
cellular processes | 21 |
hbv infection | 21 |
imprinted polymers | 21 |
molecularly imprinted | 21 |
membrane protein | 21 |
also found | 21 |
virucidal activity | 21 |
gold surface | 21 |
cantilever array | 21 |
ocular surface | 21 |
total number | 21 |
care units | 21 |
antimicrobial agent | 20 |
recent studies | 20 |
protein structure | 20 |
novel coronavirus | 20 |
der waals | 20 |
drug delivery | 20 |
world health | 20 |
light microscopy | 20 |
herpes simplex | 20 |
recent study | 20 |
active packaging | 20 |
i will | 20 |
scaling laws | 20 |
may also | 20 |
alloy surfaces | 20 |
water vapor | 20 |
virus infection | 20 |
physical principles | 20 |
cell culture | 19 |
syncytial virus | 19 |
surface application | 19 |
surface wetting | 19 |
results suggest | 19 |
hnov gii | 19 |
infection risk | 19 |
free behavior | 19 |
learning techniques | 19 |
vitro bioactivity | 19 |
protective equipment | 19 |
fluorescence spectroscopy | 19 |
environmental conditions | 19 |
sensor surface | 19 |
cancer cells | 19 |
electrostatic interactions | 19 |
functional groups | 19 |
molecular recognition | 19 |
model membranes | 19 |
microcantilever sensors | 19 |
network model | 19 |
repellent properties | 19 |
bond cluster | 19 |
medical equipment | 19 |
various materials | 19 |
chlorine dioxide | 19 |
high resolution | 19 |
colloidal science | 19 |
nd particles | 19 |
ann models | 19 |
disease control | 19 |
results indicate | 19 |
direct detection | 19 |
frequency shift | 19 |
cell types | 19 |
personal protective | 19 |
first time | 19 |
built environment | 19 |
clinical analysis | 19 |
virus inactivation | 19 |
water separation | 18 |
gene delivery | 18 |
aboav scaling | 18 |
serum albumin | 18 |
chemical reaction | 18 |
steel surfaces | 18 |
log reduction | 18 |
reactive oxygen | 18 |
ammonium salts | 18 |
sensitive devices | 18 |
antibacterial activity | 18 |
intcp cells | 18 |
correlation spectroscopy | 18 |
circular dichroism | 18 |
carcinogenic cells | 18 |
laser scanning | 18 |
diamond films | 18 |
spr biosensor | 18 |
sensitive detection | 18 |
fluorescence correlation | 18 |
diamond surfaces | 18 |
high affinity | 18 |
simplex virus | 18 |
mucus saliva | 18 |
using surface | 18 |
even though | 18 |
viable virus | 18 |
blood cells | 18 |
connections leading | 17 |
first physical | 17 |
low cost | 17 |
complex dependencies | 17 |
electrostatic forces | 17 |
droplets used | 17 |
respiratory pathogens | 17 |
linear transfer | 17 |
called tribology | 17 |
important scaling | 17 |
apply machine | 17 |
multilayer perception | 17 |
highly empirical | 17 |
complex neurons | 17 |
surface imprinting | 17 |
recently suggested | 17 |
training process | 17 |
surface scientists | 17 |
layer compute | 17 |
represent complex | 17 |
saliva mixture | 17 |
computer models | 17 |
models learn | 17 |
molecular level | 17 |
graphite composite | 17 |
day care | 17 |
rigid particles | 17 |
experimental manner | 17 |
model complex | 17 |
examining individual | 17 |
control measures | 17 |
crystals made | 17 |
high concentration | 17 |
frequently touched | 17 |
murine norovirus | 17 |
least one | 17 |
driven inductive | 17 |
knowledge acquired | 17 |
chain reaction | 17 |
heat generation | 17 |
environmental protection | 17 |
connection weights | 17 |
layers connect | 17 |
gene expression | 17 |
units representing | 17 |
models somewhat | 17 |
data suggest | 17 |
positively charged | 17 |
acquired knowledge | 17 |
surface free | 17 |
including complex | 17 |
ann model | 17 |
interconnected nodes | 17 |
network representation | 17 |
inductive science | 17 |
supplementary material | 17 |
composite including | 17 |
interdisciplinary area | 17 |
virus type | 17 |
typical ann | 17 |
correlations allows | 17 |
antimicrobial copper | 17 |
predicting water | 17 |
wear rate | 17 |
wetting experiments | 17 |
area closely | 17 |
indoor air | 17 |
finally delivered | 17 |
another area | 17 |
tribological studies | 17 |
feline calicivirus | 17 |
infected person | 17 |
applied branch | 17 |
several stages | 17 |
anns incorporate | 17 |
individual records | 17 |
virus transmission | 17 |
optimized design | 17 |
recovery efficiency | 17 |
desired output | 17 |
physical properties | 17 |
daycare centres | 17 |
varying connection | 17 |
small rigid | 17 |
metallic composite | 17 |
hidden layers | 17 |
big amount | 17 |
often deal | 17 |
three parts | 17 |
since ann | 17 |
virus adsorption | 17 |
complex input | 17 |
activations based | 17 |
predicting new | 17 |
fi lm | 17 |
predict surface | 17 |
perception neural | 17 |
three different | 17 |
tribology remains | 17 |
engineering components | 17 |
synaptic weights | 17 |
engineers often | 17 |
somewhat resembling | 17 |
levitating droplet | 17 |
electron transfer | 17 |
novel hydrophobic | 17 |
tribology deals | 17 |
making adjustments | 17 |
allows predicting | 17 |
ductile iron | 17 |
hidden layer | 17 |
nodal connections | 17 |
training makes | 17 |
thin film | 17 |
well known | 17 |
resembling neural | 17 |
new outcomes | 17 |
anns learn | 17 |
output relationships | 17 |
retrieving acquired | 17 |
contacting surfaces | 17 |
human health | 17 |
negative bacteria | 17 |
sodium hypochlorite | 16 |
resonance biosensor | 16 |
secondary electron | 16 |
solid surfaces | 16 |
patient care | 16 |
water molecules | 16 |
bacterial contamination | 16 |
surface charge | 16 |
key role | 16 |
antimicrobial surfaces | 16 |
mott cross | 16 |
polymerase chain | 16 |
secondary structure | 16 |
law distribution | 16 |
health effects | 16 |
side effects | 16 |
surface cleaning | 16 |
surface ntcp | 16 |
respiratory swabs | 16 |
infection prevention | 16 |
electrostatic interaction | 16 |
protection agency | 16 |
working environment | 16 |
silica nanoparticles | 16 |
human enteric | 16 |
type i | 16 |
previously described | 16 |
several studies | 16 |
virus survival | 16 |
nanocrystalline diamond | 16 |
hand sanitizers | 16 |
metallic copper | 16 |
diamond surface | 16 |
antimicrobial agents | 16 |
large number | 16 |
chip surface | 15 |
based biosensors | 15 |
immunosensor based | 15 |
live cells | 15 |
rapid detection | 15 |
free detection | 15 |
copper door | 15 |
respiratory illness | 15 |
bile acid | 15 |
cell membranes | 15 |
thin layer | 15 |
operatory surfaces | 15 |
spatial resolution | 15 |
wide variety | 15 |
positive bacteria | 15 |
synthetic peptide | 15 |
oxygen species | 15 |
resonance energy | 15 |
salmonella typhimurium | 15 |
human blood | 15 |
polymer matrix | 15 |
contaminated hands | 15 |
healthcare environment | 15 |
sensitive measurements | 15 |
time scale | 15 |
biofilm formation | 15 |
silver nanoparticles | 15 |
health organization | 15 |
ng ml | 15 |
long time | 15 |
surface quality | 15 |
signal transduction | 15 |
cotton swab | 15 |
immune system | 15 |
sensing surface | 15 |
chemical disinfectants | 15 |
disinfecting surfaces | 15 |
microbial burden | 15 |
hand contact | 15 |
genetic material | 15 |
blood concentrations | 15 |
acquired infections | 15 |
surface emissivity | 14 |
epithelial cells | 14 |
data obtained | 14 |
using single | 14 |
viral load | 14 |
lipid rafts | 14 |
polymer surface | 14 |
peptide bond | 14 |
food contact | 14 |
small round | 14 |
surfaces near | 14 |
optical tweezers | 14 |
particle concentration | 14 |
influenza viruses | 14 |
monoclonal antibody | 14 |
humic substances | 14 |
spike protein | 14 |
oral contamination | 14 |
sars coronavirus | 14 |
sample preparation | 14 |
uptake doses | 14 |
respiratory infections | 14 |
covalent immobilization | 14 |
studied using | 14 |
solid copper | 14 |
three years | 14 |
physical chemistry | 14 |
fatty acid | 14 |
will present | 14 |
hospital wards | 14 |
time monitoring | 14 |
control practices | 14 |
aspect ratio | 14 |
electric field | 14 |
environmental cleaning | 14 |
lipid membrane | 14 |
amperometric immunosensor | 14 |
dengue virus | 14 |
enhanced raman | 14 |
nervous system | 14 |
structural changes | 14 |
clinical environment | 14 |
care hospitals | 14 |
human body | 14 |
resistant bacteria | 14 |
listeria monocytogenes | 14 |
health risks | 14 |
bacterial cells | 14 |
based biosensor | 14 |
confocal microscopy | 14 |
dental practice | 14 |
bovine serum | 14 |
tissue culture | 14 |
crystal structure | 14 |
another study | 14 |
gas phase | 14 |
will show | 14 |
amyloid fibrils | 14 |
mechanical durability | 14 |
power exponent | 14 |
care settings | 14 |
drug discovery | 14 |
environmental services | 14 |
cantilever arrays | 13 |
amperometric immunosensors | 13 |
simultaneous detection | 13 |
molecular mechanisms | 13 |
first step | 13 |
scanning probe | 13 |
oxidative stress | 13 |
ap activity | 13 |
cell wall | 13 |
model system | 13 |
also observed | 13 |
state nmr | 13 |
bsa molecules | 13 |
imaging techniques | 13 |
significant difference | 13 |
cantilever surface | 13 |
surface stability | 13 |
polymer surfaces | 13 |
fl uorescence | 13 |
fi lms | 13 |
assembled monolayer | 13 |
raman spectroscopy | 13 |
dust explosion | 13 |
acute gastroenteritis | 13 |
conformational change | 13 |
infectious dose | 13 |
wild type | 13 |
surfaces may | 13 |
porous surfaces | 13 |
critical point | 13 |
door handle | 13 |
within minutes | 13 |
tertiary care | 13 |
see also | 13 |
small particles | 13 |
high risk | 13 |
cell biology | 13 |
natural antibodies | 13 |
membrane fusion | 13 |
immune cells | 13 |
phase transition | 13 |
superhydrophobic graphene | 13 |
detection using | 13 |
red blood | 13 |
infectious disease | 13 |
structure determination | 13 |
measured using | 13 |
impedance spectroscopy | 13 |
experimental results | 13 |
resistant enterococci | 13 |
peer review | 13 |
bacillus subtilis | 13 |
fomite transmission | 13 |
several advantages | 13 |
present study | 13 |
investigated disinfecting | 13 |
scattering cross | 12 |
optical microscopy | 12 |
distilled water | 12 |
dental operatory | 12 |
resistant acinetobacter | 12 |
acute care | 12 |
low temperature | 12 |
virus recovery | 12 |
better understanding | 12 |
dna hybridization | 12 |
transmission via | 12 |
colloidal clusters | 12 |
glass surfaces | 12 |
extracellular matrix | 12 |
skeletal muscle | 12 |
good agreement | 12 |
pathogenic bacteria | 12 |
detection limits | 12 |
carbon nanotube | 12 |
environmental samples | 12 |
family members | 12 |
carlo simulation | 12 |
noise ratio | 12 |
bioactivity data | 12 |
light scattering | 12 |
organic compounds | 12 |
mother cell | 12 |
cell division | 12 |
healthcare environments | 12 |
different concentrations | 12 |
colloid particles | 12 |
biologically active | 12 |
surface swabs | 12 |
touched surfaces | 12 |
experimental conditions | 12 |
somewhat similar | 12 |
fatty acids | 12 |
image analysis | 12 |
results showed | 12 |
recent developments | 12 |
round structured | 12 |
bulk material | 12 |
membrane interaction | 12 |
cell death | 12 |
nosocomial infection | 12 |
encapsulated clo | 12 |
fitted curve | 12 |
aqueous solution | 12 |
ray diffraction | 12 |
chemical properties | 12 |
membrane structure | 12 |
delivery system | 12 |
electron microscopic | 12 |
immune response | 12 |
cytoplasmic membrane | 12 |
may cause | 12 |
laser polishing | 12 |
organic materials | 12 |
medical applications | 12 |
brownian diffusion | 12 |
ray scattering | 12 |
array biosensor | 12 |
toxicological data | 12 |
mammalian cells | 12 |
reaction center | 12 |
recovery medium | 12 |
packaging materials | 12 |
network science | 12 |
ammonium compounds | 12 |
high levels | 12 |
biological activity | 12 |
periodic heat | 12 |
partition coefficients | 12 |
dental offices | 12 |
polyethylene glycol | 12 |
selective detection | 11 |
mg ml | 11 |
care environment | 11 |
significant reduction | 11 |
confocal laser | 11 |
dry surfaces | 11 |
healthcare settings | 11 |
backscattered electron | 11 |
patient rooms | 11 |
detection systems | 11 |
contact transmission | 11 |
estimated using | 11 |
hydrogen bonds | 11 |
viral entry | 11 |
exhaled air | 11 |
also reported | 11 |
problems associated | 11 |
biological agents | 11 |
concentration range | 11 |
remain viable | 11 |
small amounts | 11 |
binding protein | 11 |
protein binding | 11 |
poorly understood | 11 |
spring constant | 11 |
converting enzyme | 11 |
blood agar | 11 |
without affecting | 11 |
care centers | 11 |
control surfaces | 11 |
bactericidal activity | 11 |
optical beam | 11 |
based sensors | 11 |
transmission routes | 11 |
bond formation | 11 |
public spaces | 11 |
binding proteins | 11 |
modified diamond | 11 |
hydrophobic interactions | 11 |
sample surface | 11 |
biological processes | 11 |
similar results | 11 |
several tens | 11 |
granular materials | 11 |
cell proliferation | 11 |
hyaluronic acid | 11 |
frequency change | 11 |
clinical trials | 11 |
food industry | 11 |
indoor surfaces | 11 |
monoclonal antibodies | 11 |
previous studies | 11 |
fiber optic | 11 |
surface plasmons | 11 |
boiling point | 11 |
serum samples | 11 |
collection efficiency | 11 |
food packaging | 11 |
aerosol transmission | 11 |
large numbers | 11 |
fourier transform | 11 |
protein complexes | 11 |
atomic number | 11 |
snow crystals | 11 |
following values | 11 |
informational content | 11 |
force field | 11 |
endothelial cells | 11 |
difficile infection | 11 |
much higher | 11 |
hydration water | 11 |
take place | 11 |
bond configurations | 11 |
important factor | 11 |
localized surface | 11 |
solid body | 11 |
films incorporated | 11 |
horseradish peroxidase | 11 |
biological systems | 11 |
normal cells | 11 |
fluorescence intensity | 11 |
extremely low | 11 |
east respiratory | 11 |
image processing | 11 |
antimicrobial coatings | 11 |
infectious agents | 11 |
silver ions | 11 |
dermal absorption | 11 |
yeast cells | 11 |
chemical reactions | 11 |
young children | 11 |
indicator organisms | 11 |
membrane lipids | 11 |
transfer efficiency | 11 |
plasmonic tweezers | 11 |
ph values | 11 |
numerous studies | 11 |
middle east | 11 |
chemical synthesis | 11 |
surface imprinted | 11 |
cell cycle | 11 |
cotransporting polypeptide | 10 |
tear film | 10 |
metal oxide | 10 |
surfaces using | 10 |
spr imaging | 10 |
trace amounts | 10 |
particles formed | 10 |
better understand | 10 |
different environmental | 10 |
clinical diagnosis | 10 |
slip transition | 10 |
fly ash | 10 |
single crystal | 10 |
actin cytoskeleton | 10 |
nanosized particles | 10 |
detection method | 10 |
membrane curvature | 10 |
fluorescent probes | 10 |
light harvesting | 10 |
breast cancer | 10 |
particles per | 10 |
chemical disinfection | 10 |
membrane potential | 10 |
parameter characterizing | 10 |
acid extraction | 10 |
drug resistance | 10 |
may result | 10 |
almost one | 10 |
flow cytometry | 10 |
environmental factors | 10 |
antimicrobial efficacy | 10 |
antimicrobial resistance | 10 |
brain size | 10 |
tumor cells | 10 |
among others | 10 |
powerful tool | 10 |
author funder | 10 |
may become | 10 |
risk factor | 10 |
surface structures | 10 |
sampling methods | 10 |
cmp wastewater | 10 |
cvd diamond | 10 |
antitumor activity | 10 |
covalent bonding | 10 |
particulate matters | 10 |
cancer cell | 10 |
good reproducibility | 10 |
commercially available | 10 |
surface given | 10 |
swelling power | 10 |
log tcid | 10 |
drying time | 10 |
takes place | 10 |
energy loss | 10 |
include granular | 10 |
titration calorimetry | 10 |
antimicrobial packaging | 10 |
useful tool | 10 |
blood groups | 10 |
laser power | 10 |
physiological conditions | 10 |
cortical networks | 10 |
scanning force | 10 |
disinfecting products | 10 |
roughness parameter | 10 |
rotavirus infection | 10 |
number concentration | 10 |
infrared spectroscopy | 10 |
sensor response | 10 |
metal surface | 10 |
hydrophobic interaction | 10 |
granted medrxiv | 10 |
one study | 10 |
large amounts | 10 |
analyte molecules | 10 |
acoustic wave | 10 |
care workers | 10 |
determine whether | 10 |
food safety | 10 |
virus detection | 10 |
turbulent natural | 10 |
molten material | 10 |
ntcp expression | 10 |
characterizing informational | 10 |
chemical modification | 10 |
detection system | 10 |
two types | 10 |
environment measurement | 10 |
protex model | 10 |
taurocholate cotransporting | 10 |
informational approach | 10 |
chain length | 10 |
piezoelectric immunosensor | 10 |
wetting transitions | 10 |
infected patient | 10 |
complex i | 10 |
high throughput | 10 |
th state | 10 |
electrochemical impedance | 10 |
pbs buffer | 10 |
diffusion coefficient | 10 |
bed rails | 10 |
cell migration | 10 |
blood vessels | 10 |
bacterial pathogens | 10 |
surface material | 10 |
chemical composition | 10 |
indoor compartments | 10 |
higher sensitivity | 10 |
wafer surface | 10 |
results demonstrate | 10 |
dna damage | 10 |
specific binding | 10 |
fitting equation | 10 |
allometric scaling | 10 |
human igg | 10 |
human noroviruses | 10 |
statistical probability | 10 |
detonation nd | 10 |
curve fitting | 10 |
medical diagnostics | 10 |
fluorescence resonance | 10 |
mass transfer | 10 |
oil water | 10 |
immunodeficiency virus | 10 |
cross linker | 10 |
high temperature | 10 |
amplitude distribution | 10 |
stream function | 10 |
colloidal particles | 10 |
white matter | 10 |
imprinted polymer | 10 |
surfaces within | 10 |
isothermal titration | 10 |
frequently used | 10 |
heparan sulfate | 10 |
virucidal efficiency | 10 |
surface types | 10 |
kj mol | 10 |
internal reflection | 10 |
based informational | 10 |
correlation length | 10 |
human immunodeficiency | 10 |
hospital cleaning | 9 |
effect transistor | 9 |
close proximity | 9 |
elution buffer | 9 |
aluminum crimp | 9 |
distributions typical | 9 |
several hundred | 9 |
based superhydrophobic | 9 |
respiratory viral | 9 |
safety issues | 9 |
binding kinetics | 9 |
viral infection | 9 |
statistical distributions | 9 |
cell adhesion | 9 |
quality factor | 9 |
highly specific | 9 |
neutron scattering | 9 |
structural analysis | 9 |
free end | 9 |
serratia marcescens | 9 |
superhydrophobic surface | 9 |
full length | 9 |
charge density | 9 |
hydrogen bonding | 9 |
small clusters | 9 |
entropy provides | 9 |
time required | 9 |
fluorescent proteins | 9 |
application scenario | 9 |
carbon black | 9 |
routine cleaning | 9 |
total internal | 9 |
sampling method | 9 |
molecular mechanism | 9 |
polymeric matrix | 9 |
spinal cord | 9 |
diamond nanoparticles | 9 |
based nanocomposites | 9 |
crucial role | 9 |
sodium taurocholate | 9 |
contaminated surface | 9 |
forming units | 9 |
piezoelectric immunoassay | 9 |
based sensing | 9 |
rights reserved | 9 |
pathogenic microorganisms | 9 |
posted august | 9 |
clinical diagnostics | 9 |
transmission route | 9 |
resonance sensors | 9 |
systems form | 9 |
version posted | 9 |
form sets | 9 |
interfering substances | 9 |
mean recovery | 9 |
force microscope | 9 |
cleaning protocols | 9 |
age groups | 9 |
amplifi ed | 9 |
increasing number | 9 |
last years | 9 |
reuse allowed | 9 |
different proteins | 9 |
allows us | 9 |
bed sheet | 9 |
silicon nitride | 9 |
per unit | 9 |
physicochemical properties | 9 |
surfaces survival | 9 |
casein micelles | 9 |
high spatial | 9 |
blood group | 9 |
muscle cells | 9 |
artificial mucus | 9 |
five long | 9 |
thermodynamic transformation | 9 |
high concentrations | 9 |
amyloid aggregation | 9 |
covalently immobilized | 9 |
size range | 9 |
molecule level | 9 |
bioactive peptides | 9 |
infectious virus | 9 |
hospital outbreak | 9 |
exhaust gases | 9 |
life cycle | 9 |
specific antibodies | 9 |
hot spots | 9 |
elevated temperatures | 9 |
carlo program | 9 |
plasmofluidic sensors | 9 |
inoculum levels | 9 |
climate change | 9 |
recent advances | 9 |
using sem | 9 |
heat exchange | 9 |
healthcare infection | 9 |
lipid composition | 9 |
polyester swabs | 9 |
positive results | 9 |
financial support | 9 |
significantly reduced | 9 |
relatively low | 9 |
nusselt number | 9 |
cells using | 9 |
transplanted hearts | 9 |
clusters made | 9 |
phase contrast | 9 |
entropy approach | 9 |
law statistical | 9 |
protein interaction | 9 |
family caregivers | 9 |
material type | 9 |
metal ion | 9 |
transform infrared | 9 |
times higher | 9 |
experimental evidence | 9 |
ligand binding | 9 |
bond configuration | 9 |
gene therapy | 9 |
lipid interactions | 9 |
bacterial cell | 9 |
copper surface | 9 |
copyright holder | 9 |
acoustic devices | 9 |
private dental | 9 |
time points | 9 |
host cells | 9 |
virus transfer | 9 |
nonporous surfaces | 9 |
oxide nanoparticles | 9 |
metal surfaces | 9 |
thermal transmission | 9 |
performed using | 9 |
recognition elements | 9 |
numerical simulation | 9 |
since nanoparticles | 9 |
th percentile | 9 |
gastrointestinal tract | 9 |
biological warfare | 9 |
point mutation | 9 |
culture medium | 9 |
peroxide vapor | 9 |
microbial contamination | 9 |
without permission | 9 |
resonant frequency | 9 |
terminal cleaning | 9 |
human coronaviruses | 9 |
household surfaces | 9 |
hospital settings | 9 |
sensor based | 9 |
peptone water | 9 |
may provide | 9 |
various systems | 9 |
configurations somewhat | 9 |
blood plasma | 9 |
taking place | 9 |
systems studied | 9 |
infection transmission | 9 |
previous study | 9 |
cantilever sensors | 9 |
magnetic force | 9 |
environmental monitoring | 9 |
potential role | 9 |
water interface | 9 |
allowed without | 9 |
following chapter | 9 |
optical waveguide | 9 |
fi eld | 9 |
free radicals | 9 |
also characteristic | 9 |
accelerating voltage | 9 |
clinical studies | 8 |
cantilever deflection | 8 |
clo solution | 8 |
recently developed | 8 |
surfaces contaminated | 8 |
cleaning procedures | 8 |
high level | 8 |
fluorescent protein | 8 |
channel activity | 8 |
medrxiv preprint | 8 |
various species | 8 |
diamond thin | 8 |
per year | 8 |
sustained release | 8 |
ph range | 8 |
million people | 8 |
superhydrophobic nanocoatings | 8 |
flat surface | 8 |
maximum acceptable | 8 |
infectious particles | 8 |
scale enclosure | 8 |
mhc i | 8 |
mass loss | 8 |
several days | 8 |
letheen broth | 8 |
solution containing | 8 |
many cases | 8 |
potential use | 8 |
indirect contact | 8 |
organic film | 8 |
via environmental | 8 |
heat treatment | 8 |
hard surface | 8 |
superior surface | 8 |
approach based | 8 |
cm chip | 8 |
ion channel | 8 |
frequently contaminated | 8 |
magnetic particles | 8 |
investigated using | 8 |
post application | 8 |
binding affinity | 8 |
bacterial nucleic | 8 |
superhydrophobic coatings | 8 |
structured viruses | 8 |
molecular interactions | 8 |
th percentiles | 8 |
surface chemistry | 8 |
life sciences | 8 |
last decade | 8 |
various types | 8 |
disinfectant solution | 8 |
flow resistance | 8 |
peroxide vapour | 8 |
surgical procedures | 8 |
metabolic rate | 8 |
covalently bound | 8 |
contamination via | 8 |
plaque assay | 8 |
nosocomial pathogen | 8 |
allow us | 8 |
differential scanning | 8 |
barrier properties | 8 |
enzymatic activity | 8 |
vivo toxicological | 8 |
vascular access | 8 |
fluorescence anisotropy | 8 |
aerosol particles | 8 |
prostate cancer | 8 |
thermal expansion | 8 |
nvr particles | 8 |
gated ion | 8 |
single particle | 8 |
coli cells | 8 |
infective dose | 8 |
cell type | 8 |
singlet oxygen | 8 |
md simulations | 8 |
clo coating | 8 |
different lipid | 8 |
photosystem ii | 8 |
antibacterial properties | 8 |
scanning calorimetry | 8 |
protein solutions | 8 |
rotavirus diarrhoea | 8 |
several hours | 8 |
associated pathogens | 8 |
ntcp protein | 8 |
colloidal gold | 8 |
low concentrations | 8 |
resolution imaging | 8 |
fluorescence quenching | 8 |
biological membranes | 8 |
clinically relevant | 8 |
calculated using | 8 |
practices advisory | 8 |
studies showed | 8 |
per cubic | 8 |
future studies | 8 |
pediatric wards | 8 |
phase transitions | 8 |
flow rate | 8 |
biological function | 8 |
allowed us | 8 |
also developed | 8 |
care centres | 8 |
low temperatures | 8 |
carbohydrate microarrays | 8 |
environmental hygiene | 8 |
tract infections | 8 |
high touch | 8 |
industrial processes | 8 |
screened rutherford | 8 |
hand rub | 8 |
hbv entry | 8 |
high degree | 8 |
two main | 8 |
scalefree networks | 8 |
per hour | 8 |
structural characterization | 8 |
affi nity | 8 |
authors declare | 8 |
general environment | 8 |
structural features | 8 |
corrosion resistance | 8 |
medical devices | 8 |
synthetic peptides | 8 |
osmotic pressure | 8 |
chlorhexidine gluconate | 8 |
various kinds | 8 |
viral gastroenteritis | 8 |
mass change | 8 |
molecular modeling | 8 |
coronavirus infection | 8 |
hygiene scenario | 8 |
different temperatures | 8 |
analytical performance | 8 |
present work | 8 |
colonized patients | 8 |
biological samples | 8 |
significant impact | 8 |
immunosorbent assay | 8 |
peptide synthesis | 8 |
upper surface | 8 |
taken together | 8 |
dna detection | 8 |
biomolecular interactions | 8 |
ethylene glycol | 8 |
zeta potential | 8 |
body mass | 8 |
copper nanoparticles | 8 |
particles less | 8 |
tcid ml | 8 |
particle conversion | 8 |
body fluids | 8 |
organized criticality | 8 |
much larger | 8 |
sensitive transducers | 8 |
healthcare worker | 8 |
transition metals | 8 |
amino coupling | 8 |
force spectroscopy | 8 |
antimicrobial surface | 8 |
chemical stability | 8 |
one surface | 8 |
current study | 8 |
significant role | 8 |
live cell | 8 |
statistical characteristics | 8 |
increasingly important | 8 |
solid material | 8 |
stem cell | 8 |
light microscope | 8 |
touch surface | 8 |
gray matter | 8 |
dna strands | 8 |
virus types | 8 |
well characterized | 8 |
gold surfaces | 8 |
temporal resolution | 8 |
ultrafine particles | 8 |
membrane binding | 8 |
methods used | 8 |
highly efficient | 8 |
viral titer | 8 |
detection methods | 8 |
specific detection | 8 |
typical example | 8 |
blood vessel | 8 |
comparative study | 8 |
often used | 8 |
two orders | 8 |
small angle | 8 |
like carbon | 8 |
human beings | 8 |
reverse transcriptase | 8 |
advisory committee | 8 |
mass changes | 8 |
microbial load | 8 |
within min | 8 |
infected cells | 8 |
filtration resistance | 8 |
lower estimate | 8 |
built clinical | 8 |
quantitative analysis | 8 |
upper respiratory | 8 |
new insights | 8 |
transcription factors | 8 |
food matrix | 8 |
magainin i | 8 |
drug resistant | 8 |
wheat germ | 8 |
focused ion | 8 |
saw devices | 8 |
biological molecules | 8 |
structural studies | 8 |
elastic modulus | 8 |
brain activity | 8 |
longer persistence | 8 |
proton transfer | 8 |
great interest | 8 |
clinical applications | 8 |
unilamellar vesicles | 8 |
ftir spectroscopy | 8 |
liquid droplets | 8 |
indoor environment | 8 |
great importance | 7 |
human cytomegalovirus | 7 |
another important | 7 |
harvesting complex | 7 |
widely accepted | 7 |
impedance measurements | 7 |
charged particles | 7 |
harvesting complexes | 7 |
food preservation | 7 |
energy conversion | 7 |
mycobacterium tuberculosis | 7 |
occupational exposure | 7 |
amino groups | 7 |
extremely high | 7 |
adult medicine | 7 |
also showed | 7 |
template molecules | 7 |
scanning microscope | 7 |
large quantity | 7 |
single cell | 7 |
safety assessment | 7 |
one order | 7 |
porous materials | 7 |
viral envelope | 7 |
surface functionalization | 7 |
samples using | 7 |
lipid vesicles | 7 |
reflected light | 7 |
may play | 7 |
placental villi | 7 |
heavy metals | 7 |
materials used | 7 |
high temperatures | 7 |
human hepatocytes | 7 |
real matrices | 7 |
new york | 7 |
schiff base | 7 |
high pressure | 7 |
probe tip | 7 |
fibrillar aggregates | 7 |
lp surface | 7 |
inversely proportional | 7 |
electron energy | 7 |
convective nusselt | 7 |
viral capsid | 7 |
viral persistence | 7 |
successfully applied | 7 |
human cells | 7 |
critical behavior | 7 |
polymerized fi | 7 |
potentially contaminated | 7 |
chemical vapor | 7 |
surface characteristics | 7 |
time scales | 7 |
gibbs free | 7 |
biological specimens | 7 |
air filter | 7 |
metal ions | 7 |
microprobe analysis | 7 |
bangladeshi hospitals | 7 |
elution buffers | 7 |
crystal structures | 7 |
protein complex | 7 |
cm muscles | 7 |
mucous membranes | 7 |
significantly higher | 7 |
hierarchical structure | 7 |
disinfection strategies | 7 |
hydroxyl groups | 7 |
higher recovery | 7 |
long periods | 7 |
optical trapping | 7 |
immune network | 7 |
glycine buffer | 7 |
medical staff | 7 |
layer thickness | 7 |
vascular network | 7 |
commonly touched | 7 |
potential application | 7 |
eukaryotic cells | 7 |
traditional methods | 7 |
conformational transitions | 7 |
acid residues | 7 |
concentration gradient | 7 |
various surfaces | 7 |
reflection fluorescence | 7 |
daily cleaning | 7 |
receptor binding | 7 |
selective recognition | 7 |
virus viability | 7 |
fluid flow | 7 |
also known | 7 |
surfaces sampled | 7 |
soluble proteins | 7 |
analytical performances | 7 |
disinfection procedures | 7 |
molecule fluorescence | 7 |
saccharomyces cerevisiae | 7 |
measurements performed | 7 |
dead cells | 7 |
process control | 7 |
strongly affected | 7 |
controlled environment | 7 |
protein folding | 7 |
fl ow | 7 |
chemical fixation | 7 |
great potential | 7 |
medicine wards | 7 |
rna viruses | 7 |
intrinsically disordered | 7 |
higher order | 7 |
determined using | 7 |
mechanical response | 7 |
ambient conditions | 7 |
new method | 7 |
based nanocomposite | 7 |
environmental decontamination | 7 |
resonance biosensors | 7 |
virus persistence | 7 |
different fields | 7 |
cantilever sensor | 7 |
hospital setting | 7 |
dry eye | 7 |
control procedures | 7 |
temperature gradient | 7 |
binding capacity | 7 |
various fields | 7 |
polymer layer | 7 |
biological cells | 7 |
surface radiation | 7 |
patients hospitalized | 7 |
protein dynamics | 7 |
organic chemicals | 7 |
experimental study | 7 |
hair cells | 7 |
person transmission | 7 |
clinical samples | 7 |
adsorption onto | 7 |
mdck cells | 7 |
mtt assay | 7 |
different blood | 7 |
solid surface | 7 |
two hours | 7 |
reverse transcription | 7 |
lower surface | 7 |
near patients | 7 |
rat liver | 7 |
nonspecific adsorption | 7 |
water droplets | 7 |
health risk | 7 |
via fomites | 7 |
reaction rate | 7 |
triethylene glycol | 7 |
carlo simulations | 7 |
scanning microscopy | 7 |
inhibit hbv | 7 |
human parainfluenza | 7 |
thermal stability | 7 |
environmental sampling | 7 |
graphene based | 7 |
gold electrodes | 7 |
acceptable doses | 7 |
organic solvent | 7 |
phase diagrams | 7 |
cantilever response | 7 |
vapor deposition | 7 |
biosensor based | 7 |
acyl chain | 7 |
central nervous | 7 |
biological species | 7 |
wound healing | 7 |
sampling results | 7 |
binding events | 7 |
electron probe | 7 |
hydroxyl radicals | 7 |
absorption capacity | 7 |
convective heat | 7 |
nmr microscopy | 7 |
based approach | 7 |
rational design | 7 |
treatment processes | 7 |
carbon dioxide | 7 |
binding domain | 7 |
charged membranes | 7 |
respiratory infection | 7 |
supported lipid | 7 |
hospitalized patients | 7 |
present results | 7 |
will also | 7 |
sem edxa | 7 |
net charge | 7 |
nmr spectroscopy | 7 |
bile acids | 7 |
proton pump | 7 |
study using | 7 |
particular interest | 7 |
surfaces inactivation | 7 |
light source | 7 |
magnetic resonance | 7 |
medical clinic | 7 |
nanomechanical cantilever | 7 |
high surface | 7 |
molecular biology | 7 |
spatial distribution | 7 |
surface structure | 7 |
disinfected surfaces | 7 |
one pathogen | 7 |
significant differences | 7 |
time resolution | 7 |
borosilicate glass | 7 |
experimental studies | 7 |
free protein | 7 |
metastatic potential | 7 |
respiratory secretions | 7 |
orthopedic surgeons | 7 |
dna probes | 7 |
dissociation constant | 7 |
organic matter | 7 |
innate immune | 7 |
glass slides | 7 |
immobilization procedures | 7 |
fap crystal | 7 |
thermo fisher | 7 |
also studied | 7 |
new generation | 7 |
emission current | 7 |
particles may | 7 |
copper oxide | 7 |
dependent manner | 7 |
biomolecular interaction | 7 |
scaling properties | 7 |
phospholipid bilayer | 7 |
cell shape | 7 |
lower concentrations | 7 |
surface treatment | 7 |
membrane systems | 7 |
electron trajectories | 7 |
parainfluenza virus | 7 |
critical role | 7 |
statistically significant | 7 |
test method | 7 |
scanning tunneling | 7 |
sensors based | 7 |
chemical sensors | 7 |
newly developed | 7 |
environmental survival | 7 |
sample pretreatment | 7 |
lipid molecules | 7 |
past years | 7 |
nonspecific binding | 7 |
every year | 7 |
ion conductance | 7 |
reference cantilevers | 7 |
organic solvents | 7 |
important class | 7 |
ccd camera | 7 |
suspension test | 7 |
virus entry | 7 |
sliding angles | 7 |
medical field | 7 |
covalently linked | 7 |
plastic surfaces | 7 |
two major | 7 |
tio particles | 7 |
drug screening | 7 |
layer assembly | 7 |
previous work | 7 |
enteric virus | 7 |
reaction chamber | 7 |
healthcare personnel | 7 |
hygiene procedures | 7 |
low molecular | 7 |
adverse effects | 7 |
naturally occurring | 7 |
individual particles | 7 |
label free | 7 |
hydrogen abstraction | 7 |
free convection | 7 |
cell imaging | 7 |
packaging material | 7 |
primary human | 7 |
copper ions | 7 |
indoor environments | 7 |
using piezoresistive | 7 |
disinfectant solutions | 7 |
unit membrane | 6 |
terminal domain | 6 |
voronoi entropy | 6 |
membrane model | 6 |
human rotavirus | 6 |
double layer | 6 |
carbon particles | 6 |
particulate materials | 6 |
lp experiments | 6 |
conformational space | 6 |
optical sections | 6 |
blood cell | 6 |
viral disease | 6 |
common touch | 6 |
also applied | 6 |
use rates | 6 |
germ cell | 6 |
protein immobilization | 6 |
salmonella enterica | 6 |
time resolved | 6 |
enveloped virus | 6 |
tube containing | 6 |
four different | 6 |
cigarette smoke | 6 |
chemical substances | 6 |
airborne particle | 6 |
model membrane | 6 |
cause pulmonary | 6 |
biosensing applications | 6 |
abrasion tests | 6 |
microfluidic chip | 6 |
insoluble nanoparticles | 6 |
metal oxides | 6 |
direct interaction | 6 |
rare earth | 6 |
antimicrobial materials | 6 |
crac motif | 6 |
relative contribution | 6 |
respiratory pathogen | 6 |
pathogens persist | 6 |
urinary tract | 6 |
feline coronavirus | 6 |
plaque assays | 6 |
contact lenses | 6 |
coating materials | 6 |
ace receptor | 6 |
gold layer | 6 |
bed rail | 6 |
infected people | 6 |
generated particles | 6 |
plasmonic structures | 6 |
immobilization strategy | 6 |
nickel compounds | 6 |
target molecules | 6 |
quartz surface | 6 |
abdominal aorta | 6 |
disinfection efficacy | 6 |
system based | 6 |
electron distribution | 6 |
emission spectra | 6 |
low boiling | 6 |
minimal concentration | 6 |
system using | 6 |
molecular basis | 6 |
centrifugal force | 6 |
wafer surfaces | 6 |
cell differentiation | 6 |
onto surfaces | 6 |
image intensity | 6 |
antimicrobial coating | 6 |
per milliliter | 6 |
domestic homes | 6 |
potential health | 6 |
electron detection | 6 |
respiratory chain | 6 |
evanescent wave | 6 |
mechanical stability | 6 |
reactive protein | 6 |
fisher scientific | 6 |
relatively easy | 6 |
osmium tetroxide | 6 |
lysine residues | 6 |
gold chip | 6 |
ldl particles | 6 |
micromechanical cantilever | 6 |
reduced graphene | 6 |
chemical disinfectant | 6 |
high selectivity | 6 |
body fluid | 6 |
collected samples | 6 |
evanescent field | 6 |
antibiotic resistance | 6 |
cell viability | 6 |
viral pathogens | 6 |
electrostatic force | 6 |
cleanroom environments | 6 |
part i | 6 |
cancer patients | 6 |
disease burden | 6 |
time consuming | 6 |
slit lamp | 6 |
infection spreading | 6 |
highly selective | 6 |
toilet seats | 6 |
study found | 6 |
immobilized onto | 6 |
glass fibers | 6 |
quantitative pcr | 6 |
nanohole arrays | 6 |
strand breaks | 6 |
germicidal cleaner | 6 |
rapid inactivation | 6 |
given surface | 6 |
surface disinfectants | 6 |
enteric adenoviruses | 6 |
liquid phase | 6 |
cancer biomarker | 6 |
metabolism rates | 6 |
bacterial infections | 6 |
elastic scattering | 6 |
gene activation | 6 |
au pd | 6 |
active site | 6 |
hospital infection | 6 |
cleaning contam | 6 |
recent data | 6 |
different materials | 6 |
using fluorescent | 6 |
using different | 6 |
usually present | 6 |
organic molecules | 6 |
ntcp gene | 6 |
polypeptide chain | 6 |
virus contamination | 6 |
rhinovirus colds | 6 |
st century | 6 |
data show | 6 |
physical adsorption | 6 |
polymerization ability | 6 |
jamming transition | 6 |
contaminated fomites | 6 |
modifi ed | 6 |
related diseases | 6 |
streptococcus pneumoniae | 6 |
transducer surface | 6 |
antiviral effects | 6 |
surface morphology | 6 |
quantum dot | 6 |
comet assay | 6 |
become infected | 6 |
microfiber cloths | 6 |
secondary antibodies | 6 |
mass fraction | 6 |
commonly contaminated | 6 |
pulmonary diseases | 6 |
cell level | 6 |
linewidth measurement | 6 |
volume per | 6 |
dna replication | 6 |
avian influenza | 6 |
risk factors | 6 |
cellular components | 6 |
cause severe | 6 |
gold nanoparticle | 6 |
coarse particles | 6 |
charged surfaces | 6 |
action potential | 6 |
prevalence survey | 6 |
dynamic mode | 6 |
one week | 6 |
small molecules | 6 |
general term | 6 |
thylakoid membranes | 6 |
positive samples | 6 |
immunosensor array | 6 |
temperature range | 6 |
detectable viral | 6 |
physical contact | 6 |
infection rate | 6 |
microfiber wipes | 6 |
magnetic field | 6 |
primary particles | 6 |
ahs colonies | 6 |
heavy oil | 6 |
contact times | 6 |
charged residues | 6 |
low numbers | 6 |
targeted drug | 6 |
receptor networks | 6 |
central role | 6 |
immune systems | 6 |
average specific | 6 |
bacteria within | 6 |
norovirus contamination | 6 |
significantly different | 6 |
neural crest | 6 |
nd surface | 6 |
well suited | 6 |
treated cells | 6 |
absorption spectroscopy | 6 |
challenging task | 6 |
ultracentrifugal sedimentation | 6 |
tested using | 6 |
well established | 6 |
rayleigh number | 6 |
model systems | 6 |
emission sources | 6 |
specific filtration | 6 |
may lead | 6 |
aqueous solutions | 6 |
hospital admissions | 6 |
biocidal agents | 6 |
disease diagnostics | 6 |
environmental infection | 6 |
array sensors | 6 |
four hours | 6 |
cfus cm | 6 |
national university | 6 |
dust particles | 6 |
remains infectious | 6 |
driving force | 6 |
antifungal activity | 6 |
holz lines | 6 |
protein molecules | 6 |
increased risk | 6 |
immediate environment | 6 |
epa registered | 6 |
cleaning operations | 6 |
adverse health | 6 |
viral contamination | 6 |
conducted using | 6 |
cold atmospheric | 6 |
secondary antibody | 6 |
large scale | 6 |
scanning confocal | 6 |
covalent bond | 6 |
coiled coil | 6 |
temperature dependence | 6 |
will allow | 6 |
food processing | 6 |
small fraction | 6 |
specific protein | 6 |
excitation light | 6 |
taking advantage | 6 |
physiologically relevant | 6 |
villi trees | 6 |
membrane interactions | 6 |
filtration processes | 6 |
optical read | 6 |
conjugated secondary | 6 |
lipid phase | 6 |
average convective | 6 |
sensor layer | 6 |
may vary | 6 |
significantly lower | 6 |
light switches | 6 |
will focus | 6 |
dna molecules | 6 |
hand skin | 6 |
growth factor | 6 |
contact area | 6 |
vertical axis | 6 |
target protein | 6 |
transcriptase polymerase | 6 |
soft drink | 6 |
particle surface | 6 |
treated hard | 6 |
fluid phase | 6 |
interfering substance | 6 |
photosynthetic bacteria | 6 |
bulk imprinting | 6 |
diagnostic applications | 6 |
structural biology | 6 |
doping analysis | 6 |
decreasing particle | 6 |
membrane area | 6 |
binding process | 6 |
low levels | 6 |
throughput screening | 6 |
made possible | 6 |
essential role | 6 |
high magnification | 6 |
double emulsion | 6 |
nucleotide polymorphisms | 6 |
much less | 6 |
human transmission | 6 |
hungarian academy | 6 |
optical properties | 6 |
study also | 6 |
functional properties | 6 |
crystal surface | 6 |
viridans streptococci | 6 |
electrical double | 6 |
immobilization procedure | 6 |
norovirus outbreaks | 6 |
bleach germicidal | 6 |
binding pocket | 6 |
covalently binding | 6 |
gold electrode | 6 |
analysis time | 6 |
cfu ml | 6 |
water syringe | 6 |
still unclear | 6 |
eye drops | 6 |
findings suggest | 6 |
cleaning methods | 6 |
field optical | 6 |
candida albicans | 6 |
nm diameter | 6 |
many applications | 6 |
multipurpose towel | 6 |
around nm | 6 |
using two | 6 |
many factors | 6 |
years old | 6 |
linked immunosorbent | 6 |
working stroke | 6 |
based immunoassay | 6 |
photosynthetic reaction | 6 |
gastroenteric viruses | 6 |
high velocity | 6 |
electron micrographs | 6 |
flow cell | 6 |
enabled us | 6 |
thermal drift | 6 |
pg ml | 6 |
traditional cleaning | 6 |
resolved fluorescence | 6 |
higher plants | 6 |
process parameters | 6 |
stranded dna | 6 |
oriented immobilization | 6 |
dry copper | 6 |
blood concentration | 6 |
healthcare associated | 6 |
relative importance | 6 |
air cleaning | 6 |
important roles | 6 |
pore size | 6 |
uv absorption | 6 |
exact test | 6 |
absolute humidity | 6 |
human respiratory | 6 |
customs service | 6 |
fully understood | 6 |
protein detection | 6 |
raman scattering | 6 |
gaseous clo | 6 |
will discuss | 6 |
etch pits | 6 |
based detection | 6 |
zipf law | 6 |
obtained using | 6 |
particle growth | 6 |
ca channel | 6 |
blood pressure | 6 |
data showed | 6 |
sized particles | 6 |
hospital hygiene | 6 |
diamond electrodes | 6 |
possible source | 6 |
excitation energy | 6 |
gold particles | 6 |
genomic dna | 6 |
air cleaners | 6 |
specifically designed | 6 |
yolk granules | 6 |
recognition element | 6 |
beam deflection | 6 |
channeling patterns | 6 |
concentration polarization | 6 |
insoluble particles | 6 |
impregnated cloths | 6 |
using microcantilevers | 6 |
magnetic nanoparticles | 6 |
advanced treatment | 6 |
bacterial adhesion | 6 |
bacterial species | 6 |
morphological changes | 6 |
rna polymerase | 6 |
staff members | 6 |
far larger | 6 |
pr virus | 6 |
na ions | 6 |
time constant | 6 |
microtip deflection | 6 |
amyloid formation | 6 |
signal amplification | 6 |
probe molecules | 6 |
delivery systems | 6 |
trace metal | 6 |
good correlation | 6 |
optical microscope | 6 |
broad spectrum | 6 |
cells showed | 6 |
active ingredients | 6 |
electrochemical immunosensors | 6 |
table i | 6 |
superhydrophobic coating | 6 |
face masks | 6 |
dna oligonucleotides | 6 |
chemical structure | 6 |
activity may | 6 |
vascular system | 6 |
warfare agents | 6 |
nanoparticles may | 6 |
free system | 6 |
corona discharge | 6 |
one hand | 6 |
growth conditions | 6 |
small size | 6 |
glass pieces | 6 |
time pcr | 6 |
platform based | 6 |
bk ca | 6 |
times lower | 6 |
serum proteins | 6 |
transcription factor | 6 |
difficile spores | 6 |
low concentration | 6 |
single nucleotide | 6 |
common cold | 6 |
erythrocyte membrane | 6 |
inanimate environment | 6 |
conductance microscopy | 6 |
single use | 6 |
ion generators | 6 |
sem images | 6 |
human chorionic | 6 |
based method | 6 |
imprinted surface | 6 |
cell scraping | 6 |
dynamic light | 6 |
causative agent | 6 |
single point | 6 |
fulvic acids | 6 |
ca content | 6 |
operating rooms | 6 |
atpase activity | 6 |
prior room | 6 |
printing mode | 6 |
molecular docking | 6 |
packing order | 6 |
published data | 6 |
case study | 6 |
natriuretic peptide | 6 |
human genome | 6 |
polymeric materials | 6 |
hong kong | 6 |
dioxide particles | 6 |
carcinoembryonic antigen | 6 |
salmonella typhi | 5 |
virus titer | 5 |
film coated | 5 |
surfaces via | 5 |
long range | 5 |
norwalk virus | 5 |
two approaches | 5 |
macrofoam swabs | 5 |
good sensitivity | 5 |
using microcantilever | 5 |
latex piezoelectric | 5 |
dna sensing | 5 |
imaging surface | 5 |
transition state | 5 |
hbs buffer | 5 |
comparative analysis | 5 |
cell motility | 5 |
cell detection | 5 |
immobilized via | 5 |
built spr | 5 |
carboxylic acid | 5 |
stem cells | 5 |
developed superhydrophobic | 5 |
volume ratio | 5 |
hospital rooms | 5 |
disinfected hard | 5 |
airborne transmission | 5 |
single scattering | 5 |
near nm | 5 |
endogenous flora | 5 |
best practice | 5 |
using fluorescence | 5 |
patient safety | 5 |
dna binding | 5 |
using self | 5 |
using molecular | 5 |
nanoparticles generated | 5 |
broad range | 5 |
side chains | 5 |
benzalkonium chloride | 5 |
percent mass | 5 |
per ml | 5 |
directly related | 5 |
cantilever length | 5 |
network formation | 5 |
human hands | 5 |
environmental bacterial | 5 |
calcium channels | 5 |
general population | 5 |
silicone gel | 5 |
nitric oxide | 5 |
artificial dna | 5 |
heavy metal | 5 |
low magnification | 5 |
extreme conditions | 5 |
different cell | 5 |
immobilized amps | 5 |
protein fibres | 5 |
per cm | 5 |
healthy individuals | 5 |
oxide semiconductor | 5 |
total emission | 5 |
biological activities | 5 |
different bioanalytes | 5 |
experiments using | 5 |
protein microarrays | 5 |
elastic properties | 5 |
waiting rooms | 5 |
biological fluids | 5 |
public places | 5 |
cholesterol content | 5 |
peripheral blood | 5 |
particle analysis | 5 |
surface interactions | 5 |
modeled individual | 5 |
authors also | 5 |
food systems | 5 |
using high | 5 |
analysis showed | 5 |
antigen binding | 5 |
size ranging | 5 |
incident light | 5 |
immunoassay using | 5 |
biophysical parameters | 5 |
bdd electrodes | 5 |
isolation wards | 5 |
flash photolysis | 5 |
van doremalen | 5 |
frequency spectrum | 5 |
cell damage | 5 |
reference elisa | 5 |
will affect | 5 |
well defined | 5 |
diffraction limit | 5 |
site analysis | 5 |
calcium entry | 5 |
probe microanalysis | 5 |
target cells | 5 |
environment surfaces | 5 |
cleaning regimens | 5 |
amino group | 5 |
water repellency | 5 |
also performed | 5 |
infected individuals | 5 |
human influenza | 5 |
foodborne pathogens | 5 |
common hospital | 5 |
may occur | 5 |
public hospitals | 5 |
average size | 5 |
two separate | 5 |
several nanometers | 5 |
low level | 5 |
exposure time | 5 |
national health | 5 |
new light | 5 |
homology model | 5 |
electromagnetic fields | 5 |
nm thick | 5 |
specific contact | 5 |
claudia steinem | 5 |
ionogenic organic | 5 |
photothermal spectroscopy | 5 |
spr angle | 5 |
rub products | 5 |
bactericidal potential | 5 |
photodynamic therapy | 5 |
abrasion cycles | 5 |
among children | 5 |
toxoplasma gondii | 5 |
commonly detected | 5 |
target surface | 5 |
patient environment | 5 |
microcantilever surfaces | 5 |
granular media | 5 |
human diseases | 5 |
polyurethane surface | 5 |
patients infected | 5 |
target cell | 5 |
us patent | 5 |
heart failure | 5 |
myocardial infarction | 5 |
cross infection | 5 |
ion current | 5 |
cantilever bending | 5 |
membrane potentials | 5 |
higher frequency | 5 |
mechanical damage | 5 |
muscle contraction | 5 |
also examined | 5 |
film surface | 5 |
various cell | 5 |
spread plates | 5 |
also impact | 5 |
tensile strength | 5 |
samples taken | 5 |
labeled protein | 5 |
microscopy techniques | 5 |
allow one | 5 |
studies involving | 5 |
glass surface | 5 |
soc system | 5 |
toxicity testing | 5 |
child care | 5 |
au nps | 5 |
hepatocellular carcinoma | 5 |
protein surface | 5 |
microcantilever arrays | 5 |
experimental findings | 5 |
based biosensing | 5 |
glial cell | 5 |
antimicrobial susceptibility | 5 |
genetically engineered | 5 |
touch objects | 5 |
complementary metal | 5 |
liquid ordered | 5 |
dental settings | 5 |
many different | 5 |
analyte molecule | 5 |
western blot | 5 |
enteric viral | 5 |
contamination due | 5 |
terminal helices | 5 |
active assays | 5 |
solid support | 5 |
sectional area | 5 |
phosphate buffer | 5 |
human biotransformation | 5 |
years later | 5 |
healthy donors | 5 |
cell growth | 5 |
drosophila melanogaster | 5 |
per gram | 5 |
thin sections | 5 |
microrna expression | 5 |
beam reconstruction | 5 |
particle deposition | 5 |
energy transport | 5 |
objects within | 5 |
reference method | 5 |
solid phase | 5 |
silicon substrate | 5 |
different species | 5 |
electrochemical immunosensor | 5 |
mitochondrial membrane | 5 |
potential impact | 5 |
bacterial membrane | 5 |
lipid compositions | 5 |
cantilever surfaces | 5 |
synthetic receptors | 5 |
cellular membranes | 5 |
nmda receptor | 5 |
level disinfection | 5 |
specific antigen | 5 |
force networks | 5 |
conformational flexibility | 5 |
initial stage | 5 |
iron core | 5 |
manual wiping | 5 |
two compounds | 5 |
biophysical methods | 5 |
mouse liver | 5 |
antiviral properties | 5 |
drying times | 5 |
large areas | 5 |
probe microscope | 5 |
microtip material | 5 |
ray masks | 5 |
agar plates | 5 |
five days | 5 |
energy dispersive | 5 |
every day | 5 |
tumor markers | 5 |
using either | 5 |
achieved using | 5 |
personal hygiene | 5 |
workpiece material | 5 |
representative surfaces | 5 |
quail embryo | 5 |
low detection | 5 |
nine hours | 5 |
resonance sensing | 5 |
atomic resolution | 5 |
laser pulses | 5 |
solid walls | 5 |
peptide conjugates | 5 |
plasma membranes | 5 |
pegylated polyplexes | 5 |
capsid integrity | 5 |
alexa fluor | 5 |
beam energy | 5 |
binding affinities | 5 |
microfabricated cantilever | 5 |
special attention | 5 |
ventilation rate | 5 |
collective motion | 5 |
burden associated | 5 |
eb poly | 5 |
services professionals | 5 |
antibodies immobilized | 5 |
coated glass | 5 |
two important | 5 |
chronic hepatitis | 5 |
different experimental | 5 |
complex matrices | 5 |
resonance immunosensor | 5 |
respiratory system | 5 |
sandwich immunoassays | 5 |
culture system | 5 |
particularly interesting | 5 |
predicted blood | 5 |
amide i | 5 |
global health | 5 |
amine groups | 5 |
polyvinyl chloride | 5 |
hela cells | 5 |
nanocomposite coating | 5 |
human activities | 5 |
bulk materials | 5 |
cell cultures | 5 |
flat surfaces | 5 |
hydrogenated diamond | 5 |
caenorhabditis elegans | 5 |
macromolecular assemblies | 5 |
outdoor air | 5 |
drinking water | 5 |
polymer brushes | 5 |
high rate | 5 |
major role | 5 |
ion beam | 5 |
incident electron | 5 |
bsa molecule | 5 |
electron detector | 5 |
ca release | 5 |
buffered saline | 5 |
air quality | 5 |
vitro studies | 5 |
based assay | 5 |
complex network | 5 |
viral gene | 5 |
times per | 5 |
water treatment | 5 |
oral bacteria | 5 |
microfluidic system | 5 |
higher risk | 5 |
directed mutagenesis | 5 |
important factors | 5 |
showed high | 5 |
protein films | 5 |
binding event | 5 |
titin isoform | 5 |
healthcareassociated infections | 5 |
foodborne illness | 5 |
worn samples | 5 |
electron trajectory | 5 |
cubic meter | 5 |
air temperature | 5 |
faucet handles | 5 |
whole cell | 5 |
results may | 5 |
electrical properties | 5 |
primary care | 5 |
particle density | 5 |
using electron | 5 |
atmospheric pressure | 5 |
proteins involved | 5 |
base pairs | 5 |
limiting step | 5 |
nutrient broth | 5 |
temperature sem | 5 |
exhibits high | 5 |
different areas | 5 |
actin network | 5 |
lacrimal drainage | 5 |
acid composition | 5 |
droplet size | 5 |
bacterial growth | 5 |
groups present | 5 |
biological objects | 5 |
coated gold | 5 |
rotavirus infections | 5 |
membrane permeabilization | 5 |
signaling pathways | 5 |
ray crystallography | 5 |
antibody immobilization | 5 |
showed good | 5 |
carrier tests | 5 |
bacterial strains | 5 |
deionized water | 5 |
burkholderia cepacia | 5 |
ten times | 5 |
novel approach | 5 |
tap water | 5 |
covalent attachment | 5 |
nanoparticles will | 5 |
plasmofluidic systems | 5 |
resistant klebsiella | 5 |
medical intensive | 5 |
factors including | 5 |
polarized light | 5 |
proteins may | 5 |
copper handles | 5 |
biological research | 5 |
production processes | 5 |
leading cause | 5 |
teaching hospital | 5 |
dose received | 5 |
mm glycine | 5 |
nasal cavity | 5 |
poc devices | 5 |
norovirus surrogate | 5 |
intermolecular interactions | 5 |
inelastic scattering | 5 |
currently available | 5 |
health problem | 5 |
highly variable | 5 |
rate constants | 5 |
bacterial colonization | 5 |
several factors | 5 |
also show | 5 |
actin networks | 5 |
significant decrease | 5 |
model virus | 5 |
vivo experiments | 5 |
animal models | 5 |
bacteria found | 5 |
two studies | 5 |
cellular level | 5 |
toxicity data | 5 |
ophthalmology clinic | 5 |
prepared using | 5 |
cholera toxin | 5 |
surface type | 5 |
fractal model | 5 |
patient contact | 5 |
rinse method | 5 |
cell walls | 5 |
protein stability | 5 |
sheep blood | 5 |
red channel | 5 |
many others | 5 |
containing particles | 5 |
another example | 5 |
room occupants | 5 |
action potentials | 5 |
common household | 5 |
binding constant | 5 |
glass phase | 5 |
tumor cell | 5 |
drainage system | 5 |
elemental composition | 5 |
nmr data | 5 |
ground surface | 5 |
immunofluorescence microscopy | 5 |
surface concentration | 5 |
modified surfaces | 5 |
early stages | 5 |
seven days | 5 |
volatile organic | 5 |
transition temperature | 5 |
provide new | 5 |
digital image | 5 |
giant unilamellar | 5 |