قراءات إضافية | تكنولوجيا النانو: مقدمة قصيرة جدًّا

الفصل الأول: مرحبًا بك في عالم الأقزام النانوية

Synthesis of anthropomorphic molecules: the NanoPutians, Stephanie H. Chanteau and James M. Tour, Journal of Organic Chemistry 68, 23, 8750–66 (2003).
Nanoscience and Nanotechnologies: Opportunities and Uncertainties, The Royal Society and the Royal Academy of Engineering; (https://royalsociety.org/-/media/Royal_Society_Content/policy/publications/2004/9693.pdf).
Scanning Probe Microscopy: From Sublime to Ubiquitous, American Physical Society collection of influential SPM papers. (https://journals.aps.org/prl/scanning-probe-microscopy).
Positioning single atoms with a scanning tunnelling microscope, D. M. Eigler and E. K Schweizer, Nature 344, 524–6 (1990).
Feynman’s fancy, Philip Ball, Chemistry World 8 Jan. 2009.
There’s plenty of room at the bottom, R. P. Feynman, Engineering and Science 23, 22–36 (1960). (https://calteches.library.caltech.edu/1976/1/1960Bottom.pdf).
Van der Waals interactions and the limits of isolated atom models at interfaces, S. Kawai et al., Nature Communications 7, 11559 (2016).
Perplexed by Pauli, P. Moriarty, (https://muircheartblog.wpcomstaging.com/2014/08/15/perplexed-pauli/).

الفصل الثاني: عالم الكم محاصرًا

A Boy and His Atom, (https://www.youtube.com/watch?v=oSCX78-8-q0)
Confinement of electrons to quantum corrals on a metal surface, M. F. Crommie, C. P. Lutz, and D. M. Eigler, Science 262, 218 (1993).
For much more on the deep links between the physics of music—in particular, heavy metal—and quantum mechanics, see When the Uncertainty Principle Goes to 11, P. Moriarty (Ben Bella Books, 2018).
Quantum rings engineered by atom manipulation, Van Dong Pham, Kiyoshi Kanisawa, and Stefan Fölsch, Physical Review Letters 123, 066801 (2019).
Realization of a particle-in-a-box: electron in an atomic Pd chain,N. M. Nilius, T. M. Wallis, and W. Ho, J. Phys. Chem. B 109, 20657 (2005).
Michael Faraday’s gold colloids, (https://www.rigb.org/our-history/iconic-objects/iconic-objects-list/faraday-gold-colloids).
(https://www.lancaster.ac.uk/news/the-nano-guitar-string-that-plays-itself)
Welcome to Clusterworld, Richard Palmer, New Scientist 22 Feb. 1997.

الفصل الثالث: التفكيك التنازلي، والبناء التصاعدي

ENIAC in Action: Making and Remaking the Modern Computer, Thomas Haigh, Mark Priestley, Crispin Rope, William Aspray, Thomas J. Misa (MIT Press, 2016).
Crystal Fire: The Birth of the Information Age, Michael Riordan and Lillian Hoddeson (W. W. Norton & Company, 1997).
Atomic-scale desorption through electronic and vibrational excitation mechanisms, T.-C. Shen et al., Science 268, 1590 (1995)
An Atomic Christmas Tree, Sixty Symbols—(https://www.youtube.com/watch?v=gRF9hM_eFPU)
Drying mediated self-assembly of nanoparticles, Eran Rabani et al., Nature 426, 271 (2003).
Disorder—a cracked crutch for supporting entropy discussions, Frank Lambert, Journal of Chemical Education 79, 187 (2002) Lambert’s other engaging and influential papers on the subject of entropy are thoroughly recommended and can be sourced via his Wikipedia page.
Random tiling and topological defects in a two-dimensional molecular network, M. O. Blunt et al., Science 322 1077 (2008)
Digital alchemist seeks rules of emergence, interview with Sharon Glotzer, Quanta 2017.
(https://www.quantamagazine.org/digital-alchemist-sharon-glotzer-seeks-rules-of-emergence-20170308/)
Self-organization: the fundament of cell biology, Roland Wedlich-Söldner and Timo Betz, Philosophical Transactions of the Royal Society B 373, 20170103 (2018)
The beauty and utility of DNA origami, P Wang et al., Chem 2, 359 (2017).
Transcript of Konstantin Novoselov’s Nobel Prize speech (https://www.nobelprize.org/prizes/physics/2010/novoselov/lecture/)

الفصل الرابع: المعلومات أصل الموجودات

Quotation from Ada Lovelace, Scientific Memoirs Selected from the Transactions of Foreign Academies of Science and Learned Societies (1843), Article XXIX
Information, physics, quantum: the search for links, John A. Wheeler, Proceedings of the Third International Symposium on the Foundations of Quantum Mechanics, Tokyo, pp. 354–68 (1989), available at (https://philpapers.org/archive/WHEIPQ.pdf)
Molecular computation of solutions to combinatorial problems, L. M. Adleman, Science 266, 1021 (1994).
Feynman Lectures in Computation, published in paperback by Westview Press (2000).
Negative differential resistance on the atomic scale: implications for atomic scale devices, In-Whan Lyo and Phaedon Avouris, Science 245, 1369 (1989).
Molecule cascades, A. J. Heinrich, Science 298, 1381 (2002)
A kilobyte rewritable atomic memory, F. E. Kalff et al., Nature Nanotechnology 11 926 (2016).
Quantum holographic encoding in a two-dimensional electron gas, C. R. Moon et al., Nature Nanotechnology 4, 167 (2009).
Binary atomic silicon logic, T. Huff et al., Nature Electronics 1, 636 (2018).
Spin mapping at the nanoscale and atomic scale, Roland Wiesendanger, Rev. Mod. Phys. 81, 1495 (2009).
Coherent spin manipulation of individual atoms on a surface, Kai Yang et al., Science 366, 509 (2019).
Silicon quantum computing: (https://sqc.com.au)

الفصل الخامس: الآلات النانوية

How to build and race a fast nanocar, G. J. Simpson, Nature Nanotechnology 12, 604 (2017)
Kinesin motor transports vesicle along microtubule, (https://www.youtube.com/watch?v=plvQCOE9s_k)
Supraheroes, Emma Stoye, Chemistry World 14 Oct. 2016, (https://www.chemistryworld.com/features/supraheroes/1017562.article)
Brownian ratchets: Darwin’s motors, George Oster, Nature 417, 25 (2002)
Construction of artificial cilia from microtubules and kinesins through a well-designed bottom-up approach, R. Sasaki et al., Nanoscale 10, 6323 (2018)
Powering an Inorganic Nanodevice with a Biomolecular Motor, Ricky K. Soong et al., Science 290, 1555 (2000)
Scientific Background on the Nobel Prize in Chemistry 2016, Royal Swedish Academy of Sciences, (https://www.nobelprize.org/uploads/2018/06/advanced-chemistryprize2016-1.pdf).
Chemical topology: complex molecular knots, links, and entanglements, Ross S. Forgan, Jean-Pierre Sauvage, and J. Fraser Stoddart, Chem. Reviews 111, 5434 (2011)
Light-driven monodirectional molecular rotor, N. Koumura, Nature 401, 152 (1999)

الفصل السادس: هل باتت الروبوتات النانوية على مقربة؟

The debate between Smalley and Drexler was published in Chemical & Engineering News in Dec. 2003: (http://pubsapp.acs.org.ezproxy.nottingham.ac.uk/cen/coverstory/8148/8148counterpoint.html)
Nanosystems: Molecular Machinery, Manufacturing, and Computation, K. Eric Drexler (John Wiley & Sons, Inc., 1992)
Small problems, Philip Ball, Nature 362, 123 (1993). A review of Drexler’s Nanosystems.
Stereodivergent synthesis with a programmable molecular machine, S. Kassem et al., Nature 549, 374 (2017)
Pick-up, transport and release of a molecular cargo using a small-molecule robotic arm, S. Kassem et al., Nature Chemistry 8, 138 (2016)
Autonomous robotic nanofabrication with reinforcement learning, P. Leinen et al., Science Advances 6, eabb6987 (2020)