![]() Iqbal A, Ping J, Ali S, Zhen G, Kang JZ, Yi PZ et al (2021) Conservation of endangered species through somatic cell nuclear transfer (SCNT). Zander-Fox D, Lam K, Pacella-Ince L, Tully C, Hamilton H, Hiraoka K et al (2021) PIEZO-ICSI increases fertilization rates compared with standard ICSI-A prospective cohort study, Reproductive BioMedicine Online Salamone DF, Canel NG, Rodríguez MB (2017) Intracytoplasmic sperm injection in domestic and wild mammals. Yoshida N, Perry AC (2007) Piezo-actuated mouse intracytoplasmic sperm injection (ICSI). Sansinena M (ed) (2020) Assisted reproductive biotechnologies in the horse in reproductive technologies in animals. Presicce G (2020) Reproductive technologies in animals. Supple MA, Shapiro B (2018) Conservation of biodiversity in the genomics era. Lovejoy TE, Hannah L, Wilson EO (2019) Biodiversity and climate change: transforming the biosphere. Roshandel N, Soleymanzadeh D, Ghafarirad H, Koupaei AS (2021) A modified sensorless position estimation approach for piezoelectric bending actuators, Mech Syst Sig Process 149107231 Sci Adv Mater 9(7):1071–1080īazghaleh M, Grainger S, Mohammadzaheri M, Cazzolato B, Lu T-F (2013) A novel digital charge-based displacement estimator for sensorless control of a grounded-load piezoelectric tube actuator. Mohammadzaheri M, AlQallaf A (2017) Nanopositioning systems with piezoelectric actuators, current state and future perspective. Protopopov V (ed) (2014) Beam alignment and positioning techniques in practical opto-electronics. Behav Mech Multifunct Mater Compos 9800980008 Ghodsi M, Saleem A, Özer A, Bahadur I, Alam K, Al-Yahmadi A et al (2016) Elimination of thermal instability in precise positioning of Galfenol actuators. ![]() Saedi S, Mirbagheri A, Jafari A, Farahmand F (2014) A local hybrid actuator for robotic surgery instruments. IEEE/ASME Trans Mechatron 20(4):1624–1632Ĭlayton GM, Tien S, Leang KK, Zou Q, Devasia S (2009) A review of feedforward control approaches in nanopositioning for high-speed SPM. Li X, Cheah C (2015) Robotic cell manipulation using optical tweezers with unknown trapping stiffness and limited FOV. In: International conference on manipulation, manufacturing and measurement on the nanoscale (3M-NANO), pp 107–110 Tang H, Zeng Z, Gao J, Zhang X (2015) A flexible parallel nanopositioner for large-stroke micro/nano machining. In addition, piezo-actuated micropositioners play an essential role in vibration-assisted machining, which reduces energy consumption, increases product quality and extends machine lifetimes. This avoids waste of energy and materials, as the outdated machines or their major parts would otherwise be deposed of. Further, piezo-actuated micro/nanopositioners are the foundation of add-on accuracy increasing systems, which can return outdated machine tools to service, with minor changes and at a performance level higher than new machines. Studies suggest these technologies are potentially key factors in our ability to decelerate the degradation of our nature. These positioners are precise at micro/nanometre resolution and have improved and assisted reproduction and somatic cell nuclear transfer, playing an increasingly important role in preserving endangered species from extinction. Micro/nanopositioners based on piezoelectric actuators and their role to preserve the biodiversity of the ecosystem and achieve a sustainable manufacturing sector are presented in this chapter.
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