2019
DOI: 10.1016/j.trac.2019.06.021
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Electrochemical sensing based on DNA nanotechnology

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Cited by 41 publications
(22 citation statements)
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“…Proof: For any initial value (A(0), E (0), F (0)) ∈ R 3 + , there is a unique global positive solution for system (5), so R 3 + is regarded as the whole space. It is easy to verify that the coefficient of the system (5) satisfies the condition (9). According to Lemma 1, in order to prove Theorem 1, it successfully found a C 2 function V (t, A, F, E ) and a closed set U ∈ R 3 + which makes condition (12) hold.…”
Section: The Existence Of Nontrivial Positive Periodic Solutionsmentioning
confidence: 95%
“…Proof: For any initial value (A(0), E (0), F (0)) ∈ R 3 + , there is a unique global positive solution for system (5), so R 3 + is regarded as the whole space. It is easy to verify that the coefficient of the system (5) satisfies the condition (9). According to Lemma 1, in order to prove Theorem 1, it successfully found a C 2 function V (t, A, F, E ) and a closed set U ∈ R 3 + which makes condition (12) hold.…”
Section: The Existence Of Nontrivial Positive Periodic Solutionsmentioning
confidence: 95%
“…Using DNA as a platform for NP assembly is a powerful strategy to create an organized structure that is able to perform different functions, such as enhancing sensing signals [114,115] or creating plasmonic effects [116,117] . DNA architecture provides the desired controllability and programmability as a building block [118] . Its surface is fully addressable and can be easily modified to incorporate different chemical species/structures such as nanoparticles, with high positional precision [119] …”
Section: Bio‐templates For the Synthesis Of Mnmsmentioning
confidence: 99%
“…For DLG biosensors, logic calculations are generally obtained by a three‐step procedure (Scheme 1), as follows: (a) targets are recognized as inputs by the biosensor, 19 (b) strand displacement reactions or conformational change occur, 20 and (c) outputs are generated with a recognizable readout 21 . To recognize output signals, multi‐step procedures such as fluorescent labeling, amplification, sequencing, or imaging are commonly required.…”
Section: Introductionmentioning
confidence: 99%
“…To recognize output signals, multi‐step procedures such as fluorescent labeling, amplification, sequencing, or imaging are commonly required. Up to date, various basic logic gates have been realized with output signals detected by different instrumentation techniques, including fluorescence, 22 luminescence, 23 electrochemistry, 19 and colorimetry 24 . Here, we sort these highly diverse DLG biosensors into three groups briefly according to their operational environment, e.g., solution, interfaces, and cellular environment.…”
Section: Introductionmentioning
confidence: 99%