1 ibutable to slower microbial processes (t1/2,
bio =
74 and 120 h, respectively).
2 The combination of
bio- and "photociphers" along with controlled timed-rele
3 may allow for highly sensitive detection of
bio- and chemical molecules with weak chirality.
4 tical development of plasmonic circuitry for
bio- and chemical sensing, nanoscale optical information
5 Other
bio- and chemical surfactants tested had similar effects
6 For example,
bio- and chemo-catalysts can be combined in 'one pot' to
7 To implement new one-pot
bio- and chemo-catalytic processes, issues of incompatib
8 It depicts for researchers in
bio- and chemocatalysis a road map of challenges and opp
9 ocyte (HaCaT) cell line was employed for the
bio- and cyto-compatibility testing prior to the hemolys
10 In this work, a route that combines
bio- and electrocatalysis to convert glucose into bio-ba
11 k is a step forward in this direction, where
bio- and electronic materials co-exist on one platform w
12 ofoundly affected today's composition of our
bio- and geosphere.
13 amental problem of cell-membrane-penetrating
bio- and macro-molecules.
14 ipated that bPoNAs will have utility in both
bio- and nanotechnology.
15 interference, fundamental biochemistry, and
bio- and nanotechnology.
16 The production and turnover of EMM
bio- and necromass and total C were estimated by modelli
17 lysis of ergosterol (biomass), chitin (total
bio- and necromass) and total organic C (TOC) of sand-fi
18 lease, production of pharmaceutics and food,
bio- and photocatalysis, thin-film solar cells and antib
19 ased relative to the parent HFO, likely from
bio- and photodegradation.
20 itabine, lamivudine and zidovudine) via both
bio- and phototransformation processes, was investigated
21 ion of transformation products revealed that
bio- and phototransformation reactions took place at dif
22 Bio- and physicochemical analysis of the bks testa deter
23 A wide range of
bio- and physicochemical techniques, such as a new capil
24 cannot be achieved using other commonly used
bio- and synthetic polymers.
25 In conjunction with
bio- chemical and physical parameters, such as gene expr
26 ures in all branches of catalysis, including
bio-,
electro-, and photocatalysis.
27 s, and various important nanoceramics (e.g.,
bio-,
electro-, magnetic), are discussed.
28 or bearing thiol groups for the subsequent (
bio-)
functionalization via maleimide-thiol chemistry.
29 ll lung cancer were used as part of the LACE-
Bio (
Lung Adjuvant Cisplatin Evaluation Biomarker) study
30 e assessment of muscle or polymer materials (
bio-)
mechanics.
31 In dynamic force spectroscopy, a (
bio-)
molecular complex is subjected to a steadily increa
32 t for the control of geometric parameters in
bio- nanotechnology.
33 miconducting/metallic core encapsulated in a
bio- or bio-derived materials are promising for applicat
34 ract rare gases as well as (129)Xe NMR-based
bio-,
pH, and temperature sensors.
35 s-1 and is dimeric (hence two-headed); K365-
BIO (
vmax = 200 nm s-1) and K340-BIO (vmax = 90 nm s-1)
36 aded); K365-BIO (vmax = 200 nm s-1) and K340-
BIO (
vmax = 90 nm s-1) are monomeric.