Interface Engineering in Organic Field-Effect Transistors: Principles, Applications, and Perspectives.
Nanosecond-scale single-molecule reaction dynamics for scalable synthesis on a chip.
Operation of single-spin qubits: Recent advances and prospects.
The Utilization of Electric Fields to Modulate Molecular Activities on the Nanoscale: From Physical Properties to Chemical Reactions.
Understanding Emergent Complexity from a Single-Molecule Perspective.
Monitoring Molecular Dynamics with Single-Molecule Electronic Devices and Fluorescence Techniques.
Interface Engineering in Organic Field-Effect Transistors.
Single-molecule science in endeavor.
Single-Molecule Electronic Biosensors: Principles and Applications.
A Tunable Single-Molecule Light-Emitting Diode with Single-Photon Precision.
Dipole-modulated charge transport through PNP-type single-molecule junctions.
Quantum Interference-Controlled Conductance Enhancement in Stacked Graphene-like Dimers.
Single-Molecule Optoelectronic Devices: Physical Mechanism and Beyond.
Accurate Single-Molecule Kinetic Isotope Effects.
Complete Mapping of DNA-Protein Interactions at the Single-Molecule Level.
Revealing Conformational Transition Dynamics of Photosynthetic Proteins in Single-Molecule Electrical Circuits.
Molecular-Scale Electronics:Concept, Fabrication and Applications.
Structural Transition Dynamics in Carbon Electrode-Based Single-Molecule Junctions.
An accurate, high-speed, portable bifunctional electrical detector for COVID-19.
Single-Molecule Nanotechnologies: An Evolution in Biological Dynamics Detection.
Single-Molecule Electrical Detection: A Promising Route Toward the Fundamental Limits of Chemistry and Life Science.
Revealing Charge-and Temperature-Dependent Movement Dynamics and Mechanism of Individual Molecular Machines.
Single-Molecule Electrical Detection with Real-Time Label-Free Capability and Ultrasensitivity
Functional Molecular Electronic Devices Through Environmental Control
Special Section: Interface Engineering in Organic Devices
Covanlently bonded single-molecule junctions with stable and reversible photoswitched conductivity
Molecular-Scale Electronics: From Concept to Function
Carbon Electrode−Molecule Junctions: A Reliable Platform for Molecular Electronics
Synergistic Photomodulation of Capacitive Coupling and Charge Separation Toward Functional Organic Field-Effect Transistors with High Responsivity
Revealing the direct effect of individual intercalations on DNA conductance toward single-moleucle electrical biodetection
Solution-Processable, Low-Voltage and High-Performance Monolayer Field-Effect Transistors with Aqueous Stability and High Sensitivity
Point Decoration of Silicon Nanowires: An Approach Toward Single-Molecule Electrical Detection
Single-Molecule Electrical Biosensors Based on Single-Walled Carbon Nanotubes
Unique Role of Self-Assembled Monolayers in Carbon Nanomaterials-Based Field-Effect Transistors
Molecule–electrode interfaces in molecular electronic devices
Solution-Crystallized Organic Semiconductors with High Carrier Mobility and Air Stability
Direct Conductance Measurement of Individual Metallo-DNA Duplexes within Single-Molecule Break Junctions
Single-Molecule Detection of Proteins Using Aptamer-Functionalized Molecular Electronic Devices
Integrating Reaction Chemistry into Molecular Electronic Devices
Single-Molecule Devices as Scaffolding for Multicomponent Nanostructure Assembly