ライフサイエンスコーパス: electro-

1 The major factors governing metal, photo-, electro-, and biocatalysts in ILs are discussed in detai

2 The utility of carbazole in photo-, electro-, and medicinal applications has ensured its wid

3 ion, water purification, catalysis (organo-, electro-, and photocatalysis), and electrochemical energ

4 them to their main applications in thermo-, electro-, and photocatalysis, revealing trends in elemen

5 n all branches of catalysis, including bio-, electro-, and photocatalysis.

6 and nano-electromechanical switches or with electro- and all-optical beam steering which have direct

7 We discuss the possibility of combining electro- and biocatalytic processes, using sequential up

8 Nevertheless, the utilization of electro- and diffusiokinetic transport phenomena might b

9 Simultaneously recorded electro- and impedance cardiogram (dZ/dt) along with art

10 od developed and validated in the context of Electro- and Magneto-Encephalography (EEG/MEG): the Maxi

11 ntal 'brain states', measured using combined electro- and magneto-encephalography (EMEG), generated a

12 Electro- and magneto-optical phenomena play key roles in

13 he local electromagnetic environment used by electro- and magneto-sensitive species will be altered.

14 We will then summarize findings from electro- and magnetoencephalographic studies in particip

15 lectrical and magnetic fields measured using electro- and magnetoencephalography.

16 Electro- and magnetophysiological techniques like electr

17 rms of afferentation, the pretectum receives electro- and mechanoreceptive inputs in addition to reti

18 uracy (e.g., fatigue lifetime predictions of electro- and opto-electronic nanodevices).

19 nical systems with potentially game-changing electro- and opto-mechanical properties, however, the en

20 l environments and may inspire plasma-driven electro- and photo-catalytic strategies for terrestrial

21 ay region of perylenediimide (PDI) different electro- and photoactive chromophores to achieve new Aza

22 ents of design concepts for the synthesis of electro- and photoactive COFs as well as our understandi

23 The Pt-acetylide segments are electro- and photoactive, and they serve as conduits for

24 ectron transfer (PCET) reagents in reductive electro- and photocatalysis requires strategies that mit

25 understanding the fundamental principles of electro- and photocatalysis, as well as for developing h

26 Each carbon substrate, tailored for electro- and photocatalysis, is functionalized with posi

27 ow structures find in the emerging fields of electro- and photocatalysis, particularly in the context

28 on covalently bonded materials relevant for electro- and photocatalysis.

29 ly used as efficient catalysts especially in electro- and photocatalysis.

30 materials in various applications, including electro- and photocatalysis.

31 r the larger chemical class and is an active electro- and photocatalyst for proton reduction.

32 A mechanistic understanding of electro- and photocatalytic CO(2) reduction is crucial t

33 ntly improved stability and activity in both electro- and photocatalytic HER in neutral water.

34 In the M-ITS-cg3 system we can tailor the electro- and photocatalytic properties of chalcogels thr

35 s to the development of inorganic catalysts, electro- and photocatalytic systems for fuel generation

36 ent has contributed significantly to improve electro- and photolytic organic transformations in terms

37 rom perovskites promise to perform better in electro- and thermochemical applications than those synt

38 rs (or meta-atoms) carrying short wavelength electro- and/or magneto-inductive waves support current

39 f the metals) are becoming ubiquitous, from (electro-)catalysis to biomedical applications, due to th

40 uently, for the development of the field of (electro-)catalysis.

41 economy, where it is produced from CO(2) by (electro-)chemical means and converted into value-added p

42 However, understanding gas-mediated (electro)-chemical reactions and nanoscale structural tra

43 Both conventional and electro- coagulation appear to be highly effective in co

44 various important nanoceramics (e.g., bio-, electro-, magnetic), are discussed.

45 mporally resolved brain activity recorded by electro-/magnetoencephalography when participants were l

46 oscillatory phenomena, measured in humans by electro- or magnetoencephalography (EEG/MEG).

47 talyst for hydrogen production from water by electro- or photocatalysis is of current scientific and

48 ve, a process traditionally achieved through electro- or photochromism.

49 r roadmap for the task, utilizing sequential electro-, photo-, and organocatalysis to develop a strat

50 on on heterogeneous solid-state supports for electro-, photo-, and photoelectrocatalytic synthesis of

51 range of industrially important reactions in electro-, photo-, and thermal catalysis studies.

52 and MLD's role in fabricating materials for electro-, photo-, photoelectro-, and thermal catalytic C

53 ommercial electromagnetic resistance device (ELECTRO); variable resistance (VR) using a setting on th