Multifunctional Carbon Nanocomposites as Nanoneurons from Multimode and Multianalyte Sensing to Molecular Logic Computing, Steganography, and Cryptography

Yao, Qing; Quan, Min Xia; Yang, Jin; Liu, Qing Yu; Bu, Zhen Qi; Huang, Weida

doi:10.1002/smll.202103983

Cited by 12 publications

(6 citation statements)

References 59 publications

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“…At present, MIT (especially DNA IT [22][23][24] ) has stimulated the strong interest of scholars and has become an emerging hot field. [25][26][27] Specifically, some functional molecules and nanosystems (like fluorescent carbon dots, luminescent metal-organic framework, and graphene-based) have been used to construct molecular logic gates [28,29] (including combinational logic and sequential logic gates [30] ) for implementing simple/complex logic computations, [31,32] and to build molecular keypad locks [33] and/or crypto-steganographic systems [27] for information protection at the molecular level. [32,34,35] In addition, several pioneering works based on BNMs have enabled the operation of simple molecular logic gates by virtue of their optical properties and characteristic signal responses to targets.…”

Section: Introductionmentioning

confidence: 99%

Sequential‐Dependent Synthesis of Bimetallic Silver‐Chromium Nanoparticles for Multichannel Sensing, Logic Computing, and 3 in 1 Information Protection

Liu

et al. 2023

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Bimetallic nanomaterials (BNMs) have been used in sensing, biomedicine, and environmental remediation, but their multipurpose and comprehensive applications in molecular logic computing and information security protection have received little attention. Herein, This synthesis method is achieved by sequentially adding reactants under ice bath conditions. Interestingly, Ag‐Cr NPs can dynamically selectively sense anions and reductants in multiple channels. Especially, ClO− can be quantitatively detected by oxidizing Ag‐Cr NPs with detection limits of 98.37 nM (at 270 nm) and 31.83 nM (at 394 nm). Based on sequential‐dependent synthesis process of Ag‐Cr NPs, Boolean logic gates and customizable molecular keypad locks are constructed by setting the reactants as the inputs, the states of the resulting solutions as the outputs. Furthermore, dynamically selective response patterns of the Ag‐Cr NPs can be converted into binary strings to exploit molecular crypto‐steganography to encode, store, and hide information. By integrating the three dimensions of authorization, encryption, and steganography, 3 in 1 advanced information protection based on Ag‐Cr nanosensing system can be achieved, which can enhance the anti‐cracking ability of information. This research will promote the development and application of nanocomposites in the field of information security and deepen the connection between molecular sensing and the information world.

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Section: Introductionmentioning

confidence: 99%

Sequential‐Dependent Synthesis of Bimetallic Silver‐Chromium Nanoparticles for Multichannel Sensing, Logic Computing, and 3 in 1 Information Protection

Liu

et al. 2023

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“…MIT is an emerging frontier hotspot, including molecular information processing (logic computing), information storage (like DNA data storage), and security protection . With the help of extensible design and stimulus-responsiveness of molecular or nanosystems, some limited examples have been successfully demonstrated for multipurpose applications of sensing, logic computing, or information protection. − How to use simple molecular or nanosystems to build large-scale parallel logic circuits and realize complex logic operations is a direction to pursue . For example, by mining the ability of multichannel and multimatter sensing of molecular or nanosystems, the number of logical inputs and outputs can be effectively increased, to expand the scale of logic operations. ,,, Meanwhile, another emerging direction is how to develop or use molecular or nanosystems to explore the characteristics of the molecular information contained in them, to protect information (such as information encryption and hiding). − Although some molecular or nanosystems have created vitality in molecular computing and information safety, − it still has great challenges, including manufacturing defects, poor functionality, and limited paradigms.…”

Section: Introductionmentioning

confidence: 99%

Multimorphological Remoldable Silver Nanomaterials from Multimode and Multianalyte Colorimetric Sensing to Molecular Information Technology

Quan

Liu

et al. 2023

ACS Appl. Mater. Interfaces

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Inspired by life's interaction networks, ongoing efforts are to increase complexity and responsiveness of multicomponent interactions in the system for sensing, programmable control, or information processing. Although exquisite preparation of single uniform-morphology nanomaterials has been extremely explored, the potential value of facile and one-pot preparation of multimorphology nanomaterials has been seriously ignored. Here, multimorphological silver nanomaterials (M-AgN) prepared by one pot can form interaction networks with various analytes, which can be successfully realized from multimode and multianalyte colorimetric sensing to molecular information technology (logic computing and security). The interaction of M-AgN with multianalytes not only induces multisignal responses (including color, absorbance, and wavelength shift) for sensing metal ions (Cr 3+ , Hg 2+ , and Ni 2+ ) but also can controllably reshape its four morphologies (nanodots, nanoparticles, nanorods, and nanotriangles). By abstracting binary relationships between analytes and response signals, multicoding parallel logic operations (including simple logic gates and cascaded circuits) can be performed. In addition, taking advantage of natural concealment and molecular response characteristics of M-AgN nanosystems can also realize molecular information encoding, encryption, and hiding. This research not only promotes the construction and application of multinano interaction systems based on multimorphology and multicomponent nanoset but also provides a new imagination for the integration of sensing, logic, and informatization.

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“…The construction of molecular logic gates, which perform Boolean logic operations at the molecular level by simulating silicon-based computing with a chemical/biochemical method, has shown considerable development prospects in medical intelligent diagnosis, information encryption, biological detection, and other aspects. Complex combinatorial molecular gates, which are integrated by simple molecular Boolean logic gates, can respond to multiple environmental factors, including but not limited to temperature, pH, small molecules, ions, and other substances in solution to produce various signals, such as optical, electrical, and other types of signal .…”

Section: Introductionmentioning

confidence: 99%

Dual-Optical Signal Molecular Logic System Based on CsPbBr₃@SiO₂ Film Electrodes with Modulated Photoluminescence and Electrochemiluminescence Behaviors

Wang,

Shi,

Xiao

et al. 2023

J. Phys. Chem. C

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In this study, metal halide perovskites, which are excellent materials for optoelectronic devices, were examined to construct molecular logic gates. The photoluminescence (PL) and electrochemiluminescence (ECL) properties of the CsPbBr3 nanocrystals (NCs) were effectively maintained in the CsPbBr3@SiO2 NC films; these films were simply prepared by depositing nanocrystals on the electrode surface through the viscosity of SiO2 in the coating. The dual-optical signals of the films were found to have different responses to the external stimuli of Fe(III) and dopamine (DA). The PL signal of the films was quenched by Fe(III), and this effect was exacerbated at a high concentration of DA due to the formation of oxidation products. However, the addition of ascorbic acid (AA) could restore the PL signal. While the ECL signal of the films did not show evident changes with the concentration of Fe(III), the ECL signals quenched by a low concentration of DA could be reverted by Fe(III). Thus, a multiple input–output molecular logic circuit based on the CsPbBr3@SiO2 film electrode system was constructed by using Fe(III), DA, and AA as 3 inputs and the PL and ECL at different states as 6 outputs. A series of logic circuits, including an encoder/decoder, a dual transfer gate, a parity checker, a demultiplexer, and a resettable keypad lock, were successfully simulated. Specifically, a ternary CONSENSUS logic gate with a dual-optical signal output was initially mimicked based on this film electrode. This work could provide a simple approach to design a molecular information system based on the modulated multioptical signals of perovskites and could further expand the potential applications of perovskites in multiple-molecule recognition, chemical information storage, and optoelectronic devices.

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Multifunctional Carbon Nanocomposites as Nanoneurons from Multimode and Multianalyte Sensing to Molecular Logic Computing, Steganography, and Cryptography

Cited by 12 publications

References 59 publications

Sequential‐Dependent Synthesis of Bimetallic Silver‐Chromium Nanoparticles for Multichannel Sensing, Logic Computing, and 3 in 1 Information Protection

Sequential‐Dependent Synthesis of Bimetallic Silver‐Chromium Nanoparticles for Multichannel Sensing, Logic Computing, and 3 in 1 Information Protection

Multimorphological Remoldable Silver Nanomaterials from Multimode and Multianalyte Colorimetric Sensing to Molecular Information Technology

Dual-Optical Signal Molecular Logic System Based on CsPbBr₃@SiO₂ Film Electrodes with Modulated Photoluminescence and Electrochemiluminescence Behaviors

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Multifunctional Carbon Nanocomposites as Nanoneurons from Multimode and Multianalyte Sensing to Molecular Logic Computing, Steganography, and Cryptography

Cited by 12 publications

References 59 publications

Sequential‐Dependent Synthesis of Bimetallic Silver‐Chromium Nanoparticles for Multichannel Sensing, Logic Computing, and 3 in 1 Information Protection

Sequential‐Dependent Synthesis of Bimetallic Silver‐Chromium Nanoparticles for Multichannel Sensing, Logic Computing, and 3 in 1 Information Protection

Multimorphological Remoldable Silver Nanomaterials from Multimode and Multianalyte Colorimetric Sensing to Molecular Information Technology

Dual-Optical Signal Molecular Logic System Based on CsPbBr3@SiO2 Film Electrodes with Modulated Photoluminescence and Electrochemiluminescence Behaviors

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Product

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Dual-Optical Signal Molecular Logic System Based on CsPbBr₃@SiO₂ Film Electrodes with Modulated Photoluminescence and Electrochemiluminescence Behaviors