ライフサイエンスコーパス: silanization

1 nding on the conditions used in liquid-phase silanization, (1.3-9.0) x 10(12) thiol groups/cm2 on the

2 ix selection, filler composition, and filler silanization affect filler leachability of composites af

3 y to improve the sensor sensitivity, and (4) silanization and further modification with the electropo

4 s were fused onto the whiskers to facilitate silanization and to roughen the whiskers for improved re

5 s were fused onto the whiskers to facilitate silanization and to roughen the whiskers, thereby improv

6 nofiller volume fraction, particle size, and silanization; and (3) mechanical properties of nanocompo

7 Following the sensor surface silanization, antibodies were immobilized by cross-linki

8 e modifications, such as plasma oxidation or silanization, can influence the electroosmotic flow rate

9 branes to thin-polyacrylamide-gel layers via silanization, characterize the electrical conductivity o

10 surface can be reversibly derivatized using silanization chemistry, allowing one to reliably print a

11 heoretical predictions, demonstrate that the silanization coating serves as an inert shield for stain

12 films, but negligible impact on TiOx surface silanization effectiveness.

13 dified strategically via delignification and silanization for fabricating drinking straws.

14 A range of factors influencing the silanization method, and hence the number of surface-bou

15 e slides prepared using a well-characterized silanization method.

16 These results demonstrate that silanization of glass surfaces under specific conditions

17 d entirely in hydrophobic paper, produced by silanization of paper with decyl trichlorosilane, and co

18 This modification strategy is based on silanization of semiconductive materials.

19 Silanization of the exterior glass surface with Cl(Me)(2

20 liquid phases, and improved methodology for silanization of the outer pipet wall to investigate the

21 Silanization of the SiO(2) layer produced a hydrophobic

22 Surface passivations by a silanization procedure followed by a coating of a select

23 were coimmobilized onto filter paper using a silanization procedure.

24 all-tip resonators, functionalized through a silanization process to immobilize two bioreceptors: the

25 The proposed method precedes the silanization reaction in a manner that the only SiNW and

26 ion in acidic H2O2 solution and a sequential silanization reaction using neat silane reagents for sur

27 rather than to graphene electrodes, using a silanization reaction.

28 rs for a two-fold benefit: (1) to facilitate silanization regardless of whisker composition; and (2)

29 of surface hydroxylation, surface hydration, silanization solvent, silanizing reagent, catalysis, end

30 elf-assembled monolayer (SAM) using an amino-silanization technique for the early detection of a pros

31 For liquid-phase silanization, the number of surface-bound thiol groups w

32 on both postsilanization thermal curing and silanization time and relatively independent of silane c

33 ) nanoparticles (NPs) were functionalized by silanization to produce a surface covered with organosil

34 nor fluctuations, validating the efficacy of silanization treatment in hindering sulfide adsorption.

35 where microcontact printing is employed for silanization using (3-Aminopropyl) triethoxysilane (APTE

36 arted on slender organic crystals by partial silanization via layer-by-layer hybridization.

37 Filler silanization was followed by a filler drying at 60 degre

38 nd repeatability of liquid- and vacuum-phase silanization were also investigated.

39 onditions, a coating (coating E) prepared by silanization with chlorodimethyloctylsilane in toluene w

40 ercaptoundecanoic acid on gold surfaces, and silanization with N-(trimethoxysilylpropyl)ethylenediami