SCOPUS 정보 검색 플랫폼

Volumn , Issue , 2004, Pages 47-48

Nanoturf surfaces for reduction of liquid flow drag in microchannels

Author keywords

[No Author keywords available]

Indexed keywords

CATALYSTS; CHEMICAL VAPOR DEPOSITION; DRAG; DROP FORMATION; HYDROPHOBICITY; LASER BEAMS; MONOLAYERS; NANOSTRUCTURED MATERIALS; REDUCTION; SURFACES;

LIQUID FLOW; MICROCHANNELS; NANO-ENGINEERING; NANOSCALE METALS;

CHANNEL FLOW;

EID: 21244454856 PISSN: None EISSN: None Source Type: Conference Proceeding
DOI: 10.1115/nano2004-46078 Document Type: Conference Paper

Times cited : (6)

References (4)

1
- 0036118099
- Nanostructured surfaces for dramatic reduction of flow resistance in droplet-based microfluidics
- Kim, J. and Kim, C.-J., 2002, "Nanostructured surfaces for dramatic reduction of flow resistance in droplet-based microfluidics," Proc. IEEE MEMS 2002, pp. 479-482.
- (2002) Proc. IEEE MEMS 2002 , pp. 479-482
- Kim, J.¹ Kim, C.-J.²

2
- 0032636431
- Drag reduction of Newtonian fluid in a circular pipe with highly water-repellent wall
- Watanabe, K., Udagawa, Y. and Udagawa, H., 1999, "Drag reduction of Newtonian fluid in a circular pipe with highly water-repellent wall," J. Fluid Mech. 381, pp. 225-238.
- (1999) J. Fluid Mech. , vol.381 , pp. 225-238
- Watanabe, K.¹ Udagawa, Y.² Udagawa, H.³

3
- 17144474110
- Drag reduction on microscale concave-convex surface
- Hasegawa, M., Nariai, H., Kaneko, K., Maki, H., Yabe, A. and Matsumoto, S. 1999, "Drag reduction on microscale concave-convex surface," ASME IMECE, pp. 317-322.
- (1999) ASME IMECE , pp. 317-322
- Hasegawa, M.¹ Nariai, H.² Kaneko, K.³ Maki, H.⁴ Yabe, A.⁵ Matsumoto, S.⁶

4
- 21244505807
- Ph.D. Dissertation, UCLA
- U. Ulmanella, 2003, "Molecular Effects on the Boundary Condition in Micro and Nano Fluidic Channels," Ph.D. Dissertation, UCLA.
- (2003) Molecular Effects on the Boundary Condition in Micro and Nano Fluidic Channels
- Ulmanella, U.¹

* 이 정보는 Elsevier사의 SCOPUS DB에서 KISTI가 분석하여 추출한 것입니다.