KomanVB, LiuP, KozawaD, et al.Colloidal nanoelectronic state machines based on 2D materials for aerosolizable electronics. Nat Nanotechnol, 2018; 13(9):819-827.
2.
AhmadJ, AkhterS, RizwanullahM, et al.Nanotechnology-based inhalation treatments for lung cancer: state of the art. Nanotechnol Sci Appl, 2015; 8:55-66.
3.
GiordanoJ, AkhouriR, McBrideD. Implantable nano-neurotechnological devices: consideration of ethical, legal, and social issues and implications. J Long Term Eff Med Implants, 2009; 19(1):83-93.
4.
WallachE. A tiny problem with huge implications—nanotech agents as enablers or substitutes for banned chemical weapons: is a new treaty needed?. Fordham Int Law J, 2009; 33(3):858-956.
5.
GersteinD, GiordanoJ. Re-thinking the Biological and Toxin Weapons Convention?. Health Secur, 2017; 15(6):638-641.
6.
DiEuliisD, GiordanoJ. Why gene editors like CRISPR/Cas may be a game-changer for neuroweapons. Health Secur, 2017; 15(3):296-302.
7.
DiEuliisD, GiordanoJ. Gene editing using CRISPR/Cas9: implications for dual-use and biosecurity. Protein Cell, 2018; 9(3):239-240.
SnowJJ, GiordanoJ. Public safety and national security implications of the horsepox study. Health Secur, 2018; 16(2):140-142.
10.
RamsdenJ. Nanotechnology for military applications. Nanotechnol Percept, 2012; 8(2):99-131.
11.
NicholsG. Nanotechnology and the new arms race. HDIAC J, 2017; 4(2):1-6.
12.
CrichtonM. Prey. New York: Harper-Collins; 2002.
13.
WurzmanR, YadenD, GiordanoJ. Neuroscience fiction as eidolá: social reflection and neuroethical obligations in depictions of neuroscience in film. Camb Q Health Care Ethics, 2017; 26(2):292-312.
