Park, H.-J. & Friston, K. Structural and Functional Brain Networks: Connections to Cognition. Science 342, 1238411 (2013).

Google Scholar article

Eliasmith, C. et al. A large-scale model of how the brain works. Science 338, 1202-1205 (2012).

ADS CAS Google Scholar Article

Bassett, DS & Sporns, O. Network Neuroscience. Nat. Neurosks. 20, 353-364 (2017).

Google Scholar CAS Article

Watts, DJ & Strogatz, SH Collective dynamics of “small world” networks. Nature 393, 440-442 (1998).

ADS CAS Google Scholar Article

Braun, U. et al. Dynamic reconfiguration of frontal brain networks during executive cognition in humans. Proc. Natl Acad. Sci. United States 112, 11678-11683 (2015).

ADS CAS Google Scholar Article

Huang, Z., Zhang, J., Wu, J., Mashour, GA & Hudetz, AG The temporal circuit of large-scale dynamic brain activity supports human consciousness. Sci. Av. 6, eaaz0087 (2020).

Google Scholar ADS Article

Take it to the edge. Nat. Electron. 2, 1 (2019).

Vaughan, O. Working on the edge. Nat. Electron. 2, 2-3 (2019).

Google Scholar article

Topol, EJ High performance medicine: the convergence of human and artificial intelligence. Nat. Med. 25, 44-56 (2019).

Google Scholar CAS Article

Shannon, C. A symbolic analysis of relay and switching circuits. Master’s thesis, MIT (1940).

Goswami, S. et al. Robust resistive memory devices using metal-coordinated azo aromatics that can be processed in solution. Nat. Mater. 16, 1216-1224 (2017); erratum 17, 103 (2018) 0.

ADS CAS Google Scholar Article

Goswami, S., Thompson, D., Williams, RS, Goswami, S. & Venkatesan, T. Colossal tuning of current and voltage in an organic memristor via electrode engineering. Appl. Mater. Today 19, 100626 (2020).

Google Scholar article

Goswami, S. et al. Disproportionate molecular redox charge for discrete memristive and memcapacitive switching. Nat. Nanotechnology. 15, 380-389 (2020).

ADS CAS Google Scholar Article

Goswami, S., Goswami, S. & Venkatesan, T. An organic approach to low-energy memory and brain-inspired electronics. Appl. Phys. Tower. 7, 021303 (2020).

ADS CAS Google Scholar Article

Goswami, S. et al. Nanoscale uniform conductance switching in molecular memristors. Av. Mater. 32, 2004370 (2020).

Google Scholar CAS Article

Goswami, S. Resistive memories using metal-azo aromatics. doctorate thesis, Univ. Singapore (2018).

Baldwin, DA, Lever, AB & Parish, RV 2,2′-Azopyridine complexes with iron (II), cobalt (II), nickel (II), copper (I) and copper (II). Infrared study. Inorg. Chem. 8, 107–115 (1969).

Google Scholar CAS Article

Nagai, K. & Kitagawa, T. Differences in Fe (II) -N epsilon (His-F8) stretch frequencies between deoxyhemoglobins in the two alternate quaternary structures. Proc. Natl Acad. Sci. United States 77, 2033-2037 (1980).

ADS CAS Google Scholar Article

Benko, B. & Yu, N.-T. Raman resonance studies of the binding of nitric oxide to ferric and ferrous hemoproteins: detection of Fe (III) –NO stretch, Fe (III) –N – O bending and Fe (II) bending vibrations –N – W. Proc. Natl Acad. Sci. United States 80, 7042-7046 (1983).

ADS CAS Google Scholar Article

Miller, JS & Min, KS Oxidation leading to reduction: redox induced electron transfer (RIET). Angew. Chem. Int. Edn 48, 262-272 (2009).

Google Scholar CAS Article

Sengupta, D. et al. Size selective Pt siderophores based on redox active azoaromatic ligands. Chem. Sci. 11, 9226-9236 (2020).

Google Scholar CAS Article

Gass, IA et al. Anion dependent redox changes in bis-terdentate iron nitroxide {NNO} chelates. Inorg. Chem. 50, 3052-3064 (2011).

Google Scholar CAS Article

Winkler, C. et al. Understanding the correlation between electronic coupling and energy stability of molecular crystalline polymorphs: the instructive case of quinacridone. Chem. Mater. 31, 7054-7069 (2019).

Google Scholar CAS Article

Baldoni, M., Lorenzoni, A., Pecchia, A. & Mercuri, F. Spatial and orientational dependence of electron transfer parameters in aggregates of iridium-containing host materials for OLEDs: functional theory coupling of constrained density with molecular dynamics. Phys. Chem. Chem. Phys. 20, 28393-28399 (2018).

Google Scholar CAS Article

Knuth, FROM The art of computer programming Flight. 3 (Pearson Education, 1997).

Loh, WY Classification and Regression Trees. Wiley Interdiscip. Rev. Data Min. Know. Discover 1, 14-23 (2011).

Google Scholar article

Altman, N. & Krzywinski, M. Ensemble methods: bagging and random forests. Nat. Methods 14, 933-934 (2017).

Google Scholar CAS Article

Libbrecht, MW & Noble, WS Machine learning applications in genetics and genomics. Nat. the Reverend Genet. 16, 321-332 (2015).

Google Scholar CAS Article

Choi, MY & Ma, C. Make a big impact with small datasets using machine learning approaches. Lancet Rheumatol. 2, e451 – e452 (2020).

Google Scholar article

Rani, P., Sarkar, N. & Liu, C. Maintaining Optimal Challenge in Computer Games Through Real-Time Physiological Feedback. In Foundations of augmented cognition (ed. Schmorrow, DD) 184 (Taylor & Francis, 2005).

Borghetti, J. et al. “Memristive” switches allow “stateful” logic operations via hardware implication. Nature 464, 873-876 (2010).

ADS CAS Google Scholar Article

Wang, Z. et al. Resistive switching materials for information processing. Nat. Reverend Mater. 5, 173-195 (2020).

ADS CAS Google Scholar Article

Sebastian, A., Le Gallo, M., Khaddam-Aljameh, R. & Eleftheriou, E. Memory devices and applications for in-memory computing. Nat. Nanotechnology. 15, 529-544 (2020); correction 15, 812 (2020).

ADS CAS Google Scholar Article

Gidon, A. et al. Dendritic action potentials and calculus in cortical neurons of human 2/3 layers. Science 367, 83-87 (2020).

ADS CAS Google Scholar Article

Kim, KM & Williams, RS A family of stateful memristor gates for full cascade logic. IEEE Trans. Circuit system i 66, 4348-4355 (2019).

MathSciNet Google Scholar article

Kim, YS et al. Logic system in stateful memory and its practical implementation in a TaO_X-Bipolar type memristive crossbar network. Av. Inform. Syst. 2, 1900156 (2020).

Google Scholar article

Shen, W. et al. Stateful logic operations in a resistive one transistor and one resistor random access memory array. IEEE Electron Device Lett. 40, 1538-1541 (2019).

ADS CAS Google Scholar Article

Xu, N. et al. A family of stateful logic based on a new logic primitive circuit composed of two bipolar antiparallel memristors. Av. Inform. Syst. 2, 190082 (2020).

Google Scholar article

Li, C. et al. Analogue memories with addressable content with memristors. Nat. Common. 11, 1–8 (2020).

Google Scholar ADS

Kim, YS, Son, MW & Kim, KM Logic with memristive state for Boolean edge computers. Av. Inform. Syst. 3, 2000278 (2021).

Google Scholar article

Du Nguyen, HA et al. in Proc. 2015 IEEE / ACM Int. Nice. on nanoscale architectures (NANOARCH´ 15) 57–62 (IEEE).

Du Nguyen, HA et al. On the implementation of the in-memory calculation parallel adder. IEEE Trans. Integr. on a very large scale. (VLSI) Syst. 25, 2206–2219 (2017).

Google Scholar article

Yu, J., Lebdeh, MA, Du Nguyen, HA, Taouil, M. & Hamdioui, S. in Proc. 2020 25th Asia and South Pacific Design Automation Conference. (ASP-DAC) 385-392 (IEEE) (2020).

Du Nguyen, HA et al. in Proc. 2017 IFIP / IEEE Int. Conf. on very large scale integration (VLSI-SoC) 1-10 (IEEE) (2017).