Journal of Vacuum Science & Technology. B, Microelectronics and Nanometer Structures : Processing, Measurement, and Phenomena : an Official Journal of the American Vacuum Society
Overview
The Journal of Vacuum Science & Technology B is an official publication of the American Vacuum Society. It focuses on microelectronics and nanometer structures, covering topics such as processing techniques, measurement methods, and phenomena in these fields. The journal provides a platform for researchers and scientists to share their latest advancements and discoveries in the realm of vacuum science and technology.
Details
Details
Abbr.
J Vac Sci Technol B Microelectron Nanometer Struct Process Meas Phenom
Start
1991
End
2009
Frequency
Bimonthly
p-ISSN
1071-1023
e-ISSN
0734-211X
Country
United States
Language
English
Recent Articles
1.
Dhawan A, Muth J, Leonard D, Gerhold M, Gleeson J, Vo-Dinh T, et al.
J Vac Sci Technol B Microelectron Nanometer Struct Process Meas Phenom
. 2013 Aug;
26(6):2168-2173.
PMID: 23976838
No abstract available.
2.
Huang C, Wang W
J Vac Sci Technol B Microelectron Nanometer Struct Process Meas Phenom
. 2011 Dec;
26(1):L13-L18.
PMID: 22171151
The authors report a polymeric based rib waveguide with U shape self-align fiber couplers system using a simple micromolding process with SU8 as a molding material and polydimethysiloxane as a...
3.
Ghassemi S, Biais N, Maniura K, Wind S, Sheetz M, Hone J
J Vac Sci Technol B Microelectron Nanometer Struct Process Meas Phenom
. 2011 Sep;
26(6):2549-2553.
PMID: 20526426
The mechanical properties of a cell's environment can alter behavior such as migration and spreading, and control the differentiation path of stem cells. Here we describe a technique for fabricating...
4.
Ghassemi S, Rossier O, Sheetz M, Wind S, Hone J
J Vac Sci Technol B Microelectron Nanometer Struct Process Meas Phenom
. 2010 Jun;
27(6):3088-3091.
PMID: 20526428
We describe a technique for the fabrication of arrays of elastomeric pillars whose top surfaces are treated with selective chemical functionalization to promote cellular adhesion in cellular force transduction experiments....
5.
Javanmard M, Esfandyarpour H, Pease F, Davis R
J Vac Sci Technol B Microelectron Nanometer Struct Process Meas Phenom
. 2010 May;
27(6):3099-3103.
PMID: 20467573
In order to detect diseases like cancer at an early stage while it still may be curable, it's necessary to develop a diagnostic technique which can rapidly and inexpensively detect...
6.
Kwon J, Trivedi K, KrishnaMurthy N, Hu W, Lee J, Gimi B
J Vac Sci Technol B Microelectron Nanometer Struct Process Meas Phenom
. 2010 Mar;
27(6):2795-2800.
PMID: 20300441
Cells can secrete biotherapeutic molecules that can replace or restore host function. The transplantation of such cells is a promising therapeutic modality for the treatment of several diseases including type...
7.
Schvartzman M, Nguyen K, Palma M, Abramson J, Sable J, Hone J, et al.
J Vac Sci Technol B Microelectron Nanometer Struct Process Meas Phenom
. 2009 Sep;
27(1):61-65.
PMID: 19777075
We describe a high throughput patterning process used to create arrays of molecular-scale features for the study of cytoskeletal protein binding interactions. The process uses a shadow-evaporated metal mask to...
8.
Gu J, Xiao X, Takulapalli B, Morrison M, Zhang P, Zenhausern F
J Vac Sci Technol B Microelectron Nanometer Struct Process Meas Phenom
. 2009 Jan;
26(6):1860-1865.
PMID: 19169421
We introduce a new scheme of nanocontact printing that fabricates nanoarrays using stamps generated by ultraviolet nanoimprint lithography. Array patterns can be generated by this printing technique in a high-density...