ライフサイエンスコーパス: electropolymerize

1 Thermodynamic data on interaction of the electropolymerized 3-aminophenylboronic acid with saccha

2 An electropolymerized 60 nm thick film of POT coated with a

3 immobilization of NGAL capture antibodies to electropolymerized aniline deposited on top of an electr

4 rface of graphene electrodes was modified by electropolymerizing aqueous solution of dopamine (DA) an

5 bazole functional and cross-linking monomers electropolymerizing at potentials sufficiently low for m

6 rther covered by a second ultra-thin film of electropolymerized benzoic acid (BA), to avoid non-speci

7 using 1- and 3-methylhistamine, which do not electropolymerize, compared to N(alpha)-methylhistamine,

8 ) in situ (photo)activity measurements of an electropolymerized conjugated polymer on a transparent A

9 The MTAPc products were separately electropolymerized either onto a glassy carbon (GC) elec

10 Using the electropolymerized-enzymatic cathode resulted in 65% imp

11 pedimetric aptasensor was developed based on electropolymerized film for the determination of thrombi

12 Using electrodes modified with an electropolymerized film of DPPB we have carried out prel

13 (MBP-NR) onto an electrode modified with an electropolymerized film of N-(3-pyrrol-1-ylpropyl)-4,4'-

14 By using a thin electropolymerized film of poly(1,3-diaminobenzene), the

15 lectrotransducer surface is modified with an electropolymerized film of PTH followed by the assembly

16 ytically reduced at electrodes modified with electropolymerized films of [Cr(v-tpy)2]3+.

17 ytically reduced at electrodes modified with electropolymerized films of DPPB at approximately -0.4 V

18 Electropolymerized films of DPPB on GC electrodes exhibi

19 ular sieving of redox active probes by thin, electropolymerized films of Fe(5-amino-1,10-phenanthroli

20 exhibits a high and specific affinity toward electropolymerized films of PPB with the immobilized enz

21 glassy carbon (GC) electrodes modified with electropolymerized films of the cation N,N'-di(3-pyrrol-

22 Electropolymerized films of the functionalized pyrrole,

23 ed here forms a cassette system for creating electropolymerized films tailored to specific attachment

24 operation of specific cell attachment to the electropolymerized films via the RGD binding site for ce

25 table redox film of Meldola blue (MB) in its electropolymerized form (epMB), which provides amino sit

26 m presented is based on an electroactive and electropolymerized hapten (mimetic molecule of the pollu

27 e and carboxylated pyrrole that was one-step electropolymerized jointly with cTnT by cyclic voltammet

28 trode, which was then functionalized with an electropolymerized layer of PPy, a conducting polymer, t

29 ard various analytes to the formation of the electropolymerized layer.

30 tronic and redox properties of the resulting electropolymerized materials.

31 This article describes the fabrication of electropolymerized Metallo 4', 4'', 4''', 4'''' tetra-am

32 ose dehydrogenase (PQQ-GDH) immobilized over electropolymerized methylene green (MG) is increased onl

33 Electropolymerized molecularly imprinted polymers (eMIPs

34 The microneedle aperture was modified by electropolymerizing o-phenylene diamine onto the Pt wire

35 Poly(m-(1,3)-phenylenediamine) (pmPD) electropolymerized on a platinum iridium wire (Pt) serve

36 PEDOT) containing composite polymer has been electropolymerized on carbon-fiber microelectrodes with

37 nd L-DOPA at different molar rations were co-electropolymerized on CNO-modified glassy carbon electro

38 This complex was electropolymerized on glassy carbon (GC) and multiwalled

39 Imprinted nanoparticles were electropolymerized on gold coated quartz electrode.

40 been shown to exhibit low cytotoxicity, was electropolymerized on microband gold electrodes (25 mm l

41 -2,2':6',2''-terpyridine) can be reductively electropolymerized on nanocrystalline TiO2 functionalize

42 In the following, l-Cystein electropolymerized on the electrode in presence of curcu

43 ate this biosensor, L-methionine (L-MET) was electropolymerized on the PGE surface followed by simult

44 e blue which is an electroactive polymer was electropolymerized on the surface of a graphite bar to p

45 Further, crystal violet was electropolymerized on the surface of the carbon paste el

46 mer, poly-o-phenylenediamine (PPD) layer was electropolymerized onto a 50 um Pt wire to act as a perm

47 The MIP was electropolymerized onto a glassy carbon electrode coated

48 functionalities is covalently attached to an electropolymerized PEDOT substrate containing alkyne gro

49 olymer film (MIP), viz., myoglobin-imprinted electropolymerized poly(o-phenylenediamine).

50 sensitive aptasensor was developed based on electropolymerized poly(pyrrole-nitrilotriacetic) acid f

51 lipophilic cation-exchanger, overlaid on an electropolymerized poly-3-octylthiophene (POT) film as t

52 lvent clusters formed from laser ablation of electropolymerized polyaniline and silver thin films, re

53 Electropolymerizing polyaniline (PANI) on an indium tin

54 ensors have been fabricated using Nafion and electropolymerized polyeugenol or o-phenylenediamine on

55 lanization and further modification with the electropolymerized polymeric film [poly(5-amino-1-naphth

56 H2O) were simultaneously doped into electropolymerized polypyrrole (PPy) film using the cycl

57 uced and simultaneously immobilized into the electropolymerized polypyrrole (PPy) film with the reduc

58 er microRNA (miRNA), mir-21 was achieved via electropolymerized polypyrrole (PPy) modified pencil gra

59 The electropolymerized PoPD was used to reduce the interferi

60 In particular, the results suggest that the electropolymerized POT conducting polymer may spontaneou

61 the SC material, even after oxidation of the electropolymerized POT SC for an hour at high anodic pot

62 dence of ion-to-electron transduction in the electropolymerized POT SC ISE by proving TFPB(-) transpo

63 tanding of ion-to-electron transduction with electropolymerized POT SC ISEs will enable the developme

64 Py-NO(3)/BSA-GLA-PNP-XOD is made of an inner electropolymerized PPy-NO(3) layer and an outer layer of

65 esults are strikingly different to those for electropolymerized regiorandom poly(3-hexylthiophene) fi

66 upon contacting the gold surface is in-situ electropolymerized resulting in surface confined polymer

67 The proposed device is based on an electropolymerized self-assembled layer on gold nanopart

68 n 3-hexylthiophene; however, all attempts to electropolymerize this new thiophenic monomer have remai

69 xane cage molecules, which were subsequently electropolymerized to furnish air-stable thin films.

70 ished a series of cage molecules, which were electropolymerized to prepare metal-containing conductin

71 de on which poly(pyrrole propionic acid) was electropolymerized was prepared.

72 Polyaniline was electropolymerized within these pores to form a microarr

73 hment of different cell types by varying the electropolymerized Y(tyrosine)-containing recognition pe