ライフサイエンスコーパス: biological sensor

1 spontaneous defects and aids development of biological sensors.

2 hemes are key components of many enzymes and biological sensors.

3 areas as varied as light-emitting diodes and biological sensors.

4 le nanoscale LED arrays, logic circuits, and biological sensors.

5 cient low-cost solar cells, and chemical and biological sensors.

6 undwork for the creation of new chemical and biological sensors.

7 are not widely studied or accepted as proven biological sensors.

8 ion schemes in the heme-based GAF domains of biological sensors.

9 rovements in the sensitivity of chemical and biological sensors.

10 be expected to lead to entirely new types of biological sensors.

11 able building block for microelectronics and biological sensors.

12 noparticles as background free self-standing biological sensors.

13 ich demonstrates their incredible utility as biological sensors.

14 MutS is a biological sensor and a locator of DNA base-pair mismatc

15 ications is subsequently examined, including biological sensors and energy conversion systems.

16 torial review we describe how the regulatory biological sensors and switches can be transferred from

17 in electrical contacts, functional devices, biological sensors, and catalysis.

18 ions, including drug delivery, gene therapy, biological sensors, and controlled catalysis.

19 nitoring, food and agriculture applications, biological sensors, and national security.

20 study for the fabrication of molecular-scale biological sensors are discussed at the end of the paper

21 ementation of integrated nanosystems such as biological sensor arrays and nanocomputers.

22 pment of specific and efficient chemical and biological sensors, as well as the investigation of the

23 proaches to develop arrayable and label-free biological sensors based on fluorescence unquenching of

24 deal for inexpensive, single-use chemical or biological sensors because of their compatibility with f

25 The focus is on biological sensors but also chemical ones are reviewed t

26 This prepared biological sensor delineated a wide linear range of 4.0n

27 An essential biological sensor for acetylcholine (ACh) detection is c

28 Using a GFP-tagged S1P1 receptor as a biological sensor for the generation of physiologically

29 policy makers in selecting the most suitable biological sensor for their intended biomagnetic monitor

30 TRP channels have emerged as key biological sensors in vision, taste, olfaction, hearing,

31 Previously, the only biological sensors known to respond to O(2) by direct an

32 pods that stand out among the most sensitive biological sensors known, even better than photoreceptor

33 ent advances in microscopy, transgenics, and biological sensors may be used to identify and functiona

34 noantennas for high-sensitivity chemical and biological sensors, nanoscale control of active devices,

35 Furthermore, self-standing upconversion biological sensors of such nanoparticles are developed t

36 n of sensitive and selective electrochemical biological sensor platforms are accomplished conceivably

37 owed with K(ATP) channels, which function as biological sensors, regulating membrane potentials and e

38 ic switches for computing and ultrasensitive biological sensors scaled down to a single atomic unit c

39 Here, we developed a synthetic biological sensor system for quantifying metabolites fro

40 ms the basis for one of the most significant biological sensor systems of tissue oxygenation in respo

41 ) technology for high throughput chemical or biological sensor systems.

42 eps used to prepare arrayable and label-free biological sensors that are based on the fluorescence un

43 the blood coagulation system as an exquisite biological sensor, the fibrin clot end-product was repla

44 tical to accessing relevant quantum bits and biological sensors, through a designer macrocyclic ligan

45 inherent and well established limitations of biological sensors to operate efficiently at a given res

46 e developed a micromachined nanocalorimetric biological sensor using a small number of isolated livin

47 o prepare microcantilever-based chemical and biological sensors when molecular recognition agents are

48 The paper describes a new biological sensor which represents a resonator based on

49 al physical and chemical systems and compact biological sensors will rely on densely packed transform