ライフサイエンスコーパス: silanize

1 nimal when 50% of the glass surface area was silanized.

2 cator with acrylamide on the distal end of a silanized 125 micrograms diameter multimode optical fibe

3 were treated first with a heterobifunctional silanizing agent and reacted subsequently with a vinyl m

4 Passivating the PCR chip using a silanizing agent followed by a polymer treatment resulte

5 Then the ZnO-NRs were silanized and covalently modified by Protein-A (Glass/Zn

6 Then, the sensor surface was silanized and directly aminated with (3-aminopropyl) tri

7 The coated whiskers were silanized and manually blended with resins by spatulatio

8 The most successful strategy utilized amino-silanized controlled pore glass beads, which were couple

9 occal protein A (SPA) was used to modify the silanized fiber surface thus forming a SPA layer, which

10 Methacrylate-based composites (70 wt% silanized filler) were formulated, containing thiouretha

11 Nile red and a new silanized form of nile red that can be covalently attach

12 produced diameters of 1274 +/- 94 microm on silanized glass and 839 +/- 28 microm on PMMA.

13 It was determined that both silanized glass and PMMA gave working optodes, but the o

14 eters of 895 +/- 26 and 688 +/- 54 microm on silanized glass and PMMA, respectively, and the 0.50-mm

15 - 80 and 1279 +/- 85 microm were obtained on silanized glass and PMMA, respectively, using the polypr

16 covalently bound to the inside surface of a silanized glass capillary column and the antigen-binding

17 re fabricated with methacrylate monomers and silanized glass fillers (CHX or CHX@MSN + glass filler p

18 d by Langmuir-Schafer deposition onto either silanized glass or existing Langmuir-Blodgett supported

19 are benchmarked against analogous arrays on silanized glass samples.

20 We immobilized magainin I on silanized glass slides using biotin-avidin chemistry, as

21 t DNA arrays compared to those fabricated on silanized glass slides.

22 Two un-silanized glass surfaces, RCA-cleaned and immersed in Tr

23 l substratum surfaces, i.e., clean glass and silanized glass surfaces, were studied.

24 on the biochemical activity of DNA fixed to silanized glass surfaces.

25 mine-terminated polyamidoamine dendrimer and silanized glass through an amide bond.

26 different insulating surfaces such as glass, silanized glass, or PTFE.

27 Silanized glass, poly(methyl methacrylate) (PMMA), polyc

28 sphate was stored in glass (most notably non-silanized glass, where a reduction of 54% of the thiamin

29 e of aqueous solutions on the surface of the silanized glass.

30 igonucleotides in distilled water onto amino-silanized glass.

31 g in solution and deposited onto aminopropyl silanized glass.

32 ups, including plastic microtiter plates and silanized glass.

33 s compared with the traditional methacrylate-silanized groups.

34 ts was performed in situ using self-adhesive silanized humic derivatives.

35 Consequently, silanized humic materialas can be seen as both molecular

36 with tip orifice radii of 0.7-20 microm with silanized inner walls filled with a solution of 10 mM va

37 ng anti-TNT and anti-RDX antibodies onto the silanized inner walls using a hetero-bifunctional crossl

38 wed that composites filled with thiourethane-silanized inorganic fillers showed up to 35% lower stres

39 charged 3-aminopropyl triethoxysilane (APS) silanized mica.

40 ide polymer that is attached covalently to a silanized optical fiber tip surface by photocontrolled p

41 a three-dimensional spheroid on hydrophobic silanized paper substrates which then undergoes paper-sp

42 Half of the silanized particles received an additional heat treatmen

43 on, surface hydration, silanization solvent, silanizing reagent, catalysis, endcapping, and polymeriz

44 simple passivation of the PCR chamber with a silanizing reagent, reproducible DNA extraction and ampl

45 7-octenyltrimethoxysilane were evaluated as silanizing reagents in combination with poly(vinylprroli

46 ological evaluation of a number of different silanizing reagents, polymeric coatings, and polymer net

47 , methyl mercaptan, and ethyl mercaptan with silanized stainless steel surfaces.

48 charge transfer between the sulfides and the silanized stainless steel, suggesting dissociative chemi

49 adsorption in natural gas through the use of silanized stainless steel.

50 volved in (AD) biomarker detection onto this silanized surface by fluorescent microscopy.

51 The results demonstrated that the controlled silanized surface provides a novel and viable way to det

52 y formed a dense monolayer on a hydrophobic (silanized) surface.

53 Variation in the affinity of the silanized surfaces for DNA was compensated by precoating

54 nd modified halloysite (e.g., acid-etched or silanized), the methods of metal clusters formation, and

55 the percentage of the glass surface that was silanized; the rate of charge transfer was minimal when

56 zed on the surface of magnetic nanoparticles silanized with 3-(trimethoxysilyl) propyl methacrylate t

57 glass) and positively charging areas (glass silanized with a cationic siloxane terminated with a qua

58 l ester to interior pore surfaces previously silanized with EtO(Me)(2)Si(CH(2))(3)NH(2).

59 their surfaces, and the nanostructures were silanized with octadecyldimethylmethoxysilane in the gas