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Author(s) -
María Dolores Lozano,
Mireille Claudia Bokam Abeng,
; Garc Ia-Tobar,
N Omez;,
José Carlos Súbtil,
Julio Enríquez Merino,
M. Maset,
P Panadero,
Íñigo Espinosa,
Carlos de Andrea,
José Joaquín Paricio,
N G Omez;,
M.E. Erro Aguirre,
María J. Echarri,
Miguel A. Idoate,
Umut Aykutlu,
Alı Veral,
Denız Nart,
H Torres Rivas,
; Zarra,
L Fern Andez Fern Andez,
; Llanos,
; Astudillo Gonz Alez,
P Muñoz-Hern Andez,
; Fraih,
C Baeza Velasco,
José A. Cuesta,
; Gonz Alez-Peramato,
; Vicandi,
J Jim Enez-Heffernan,
Míriam Cuatrecasas,
; Archilla,
; Gorostiaga,
; Tarragona,
; Bombi,
Marcos González,
Castillo Castillo,
; Carrascosa,
; Aldecoa,
Díaz Díaz,
Chiara Casadio,
C Ditonno,
Valeria Midolo,
Juliana Guarize,
; Vokrri,
G Scrimieri,
Alessandra Rappa,
Massimo Barberis,
Caterina Fumagalli
Publication year - 2018
Publication title -
cytopathology
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.512
H-Index - 48
eISSN - 1365-2303
pISSN - 0956-5507
DOI - 10.1111/cyt.12567
Subject(s) - medicine , traditional medicine , dermatology
We have designed, fabricated, and characterized microfabricated grippers with electrostatic actuation, which were then successfully used for in-situ SEM pick-and-place manipulation of silicon nanowires (Fig. 1) [1]. For increased gripping force and control over the manipulation process, microfabricated grippers based on electro-thermal actuation with integrated forcefeedback were also demonstrated [2].

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