ライフサイエンスコーパス: chemical engineering

1 phthalocyanines (PC) that was cationized by chemical engineering.

2 ctive properties that can be tuned by proper chemical engineering.

3 -MBA)(44) as a powerful platform for surface chemical engineering.

4 iences, physics, geology, and mechanical and chemical engineering.

5 ucture and are tunable over a wide range via chemical engineering.

6 eriments in biology, physics, chemistry, and chemical engineering.

7 oss diverse domains in materials science and chemical engineering.

8 e in several fields of foods, medicines, and chemical engineering.

9 studied in material science, geophysics and chemical engineering.

10 esigned by incorporating nanotechnology with chemical engineering.

11 erials science, condensed matter physics and chemical engineering.

12 iscovery platform that makes techniques from chemical engineering accessible to typical synthetic lab

13 y to many fields of biotechnology, including chemical engineering, agriculture and human therapeutics

14 of the current review papers have discussed chemical engineering and biological principles of design

15 both authors with 'Mork Family Department of Chemical Engineering and Materials Science, University o

16 graduated from the University of Dayton (BS, chemical engineering) and Massachusetts Institute of Tec

17 ics, photochemistry, biomedical engineering, chemical engineering, and beyond.

18 ields such as systems biology, biochemistry, chemical engineering, and epidemiology.

19 ves materials chemistry, physical chemistry, chemical engineering, and materials and polymer science

20 nd diffusion is ubiquitous in natural flows, chemical engineering, and microfluidic drug delivery.

21 echanical, civil, materials, electronics and chemical engineering applications.

22 he importance of acoustic investigations for chemical engineering design and possible industrial appl

23 cell behavior is of high interest across the chemical engineering, drug delivery and biomaterial comm

24 ows and strategies from protein engineering, chemical engineering, electrical engineering, and comput

25 of these fluids in the fields of chemistry, chemical engineering, energy, gas storage and separation

26 chemistry, pharmaceuticals, food chemistry, chemical engineering, etc.

27 veral fields of study (physical, biological, chemical, engineering, etc) to develop a more kinetic an

28 nd examine their diverse applications across chemical engineering, including phase transfer, and mole

29 ed heating approach that is able to innovate chemical engineering involving endothermic reactions.

30 in the fields of food, cosmetics, pharmacy, chemical engineering, materials science, and synthetic b

31 cles closer to application in fields such as chemical engineering, materials science, or pharmaceutic

32 Smart chemical engineering methods are enabling the fabricatio

33 A broad range of genetic and chemical engineering methods have been established that

34 we introduce the concept of nature-inspired chemical engineering (NICE), contrasting it to the narro

35 Here, we describe the chemical engineering of 48 insulin analogues that were d

36 Targeted chemical engineering of a carbohydrate to create a molec

37 dmap for programming cellular trafficking by chemical engineering of glycans on a distinct membrane g

38 a comparative overview and framework for the chemical engineering of gut-stable peptides, which shoul

39 previously been investigated and shows that chemical engineering of lipid siRNAs is essential to adv

40 The synergistic chemical engineering of materials and interfaces is thus

41 rovements are expected to arise from precise chemical engineering of nanoscale building blocks and in

42 ress this, we developed an approach for opto-chemical engineering of native GPCRs.

43 se materials can be further improved through chemical engineering of the precursors without altering

44 ite efforts to achieve blinking reduction by chemical engineering of the QD architecture and its envi

45 We report an approach to the chemical engineering of the single-walled carbon nanotub

46 Chemical engineering offers a cost-effective, easy-to-im

47 The implications for chemical engineering or biomedical applications of using

48 ene production process is categorized from a chemical engineering point of view with three key steps:

49 t commonly used and developed devices from a chemical engineering point of view.

50 e in-depth tools to decipher their extensive chemical engineering possibilities which surpass the one

51 ributed to the innovation and advancement of chemical engineering process technology.

52 neous imbibition happens in many natural and chemical engineering processes in which the mean advanci

53 de rich areas for environmentally responsive chemical engineering processing research and development

54 vance towards more sustainable and efficient chemical engineering society.

55 Chemical engineering strategies centered on preserving a

56 Our findings will inform chemical engineering strategies for enhancing the extrah

57 f these materials can be further improved by chemical engineering such as cation exchange.

58 in maquettes is used to clarify the physical/chemical engineering supporting the mechanisms of natura

59 the impact of Janus superiority in advancing chemical engineering technologies.

60 conceptual tools from nonlinear dynamics and chemical engineering that make testable predictions and

61 n of modern knowledge of optical physics and chemical engineering to the development of robust and re

62 The use of advanced and intelligent chemical engineering, together with the incorporation of

63 the trend of precision medicine, leveraging chemical engineering tools to tailor cells to accommodat

64 s. Affiliation 1 incorrectly read 'School of Chemical Engineering, University of New South Wales (UNS

65 Finally, through systematic chemical engineering, we identify heavily modified fully

66 ance of understanding both the chemistry and chemical engineering when endeavoring to make improvemen

67 logy, systems biology, organic chemistry and chemical engineering will establish a whole new toolbox

68 Innovations in chemistry and chemical engineering will play critical roles in valoriz

69 ue engineering of endothelial cells (EC) and chemical engineering with anticoagulant moieties has bee