List of works - Dechang Li

A supertough electro-tendon based on spider silk composites

scientific article published on 12 March 2020

Bidirectional regulation of configuration of the carbon nanotube containing a water droplet

scientific article published on 01 April 2020

Biochemical studies of membrane fusion at the single-particle level

scientific article published on 03 January 2019

Carbon nanoscroll-silk crystallite hybrid structures with controllable hydration and mechanical properties.

scientific article published on 26 June 2017

Cholesterol suppresses membrane leakage by decreasing water penetrability

scientific article published on 01 June 2018

Coarse-grained molecular dynamics of ligands binding into protein: The case of HIV-1 protease inhibitors

scientific article published on 01 June 2009

Crucial roles of the subnanosecond local dynamics of the flap tips in the global conformational changes of HIV-1 protease

scientific article published on 01 March 2010

High Transmembrane Voltage Raised by Close Contact Initiates Fusion Pore.

scientific article

How Does Nature Evade the "Larger is Weaker" Fate of Ultralong Silk β-Sheet Nanocrystallites

scientific article published on 15 October 2020

Identifying the molecular mechanics and binding dynamics characteristics of potent inhibitors to HIV-1 protease

scientific article published on 27 June 2012

Lipid molecules influence early stages of yeast SNARE-mediated membrane fusion.

scientific article published on 21 April 2015

Mapping the Dynamics Landscape of Conformational Transitions in Enzyme: The Adenylate Kinase Case

scientific article

O-GlcNAcylation inhibits the oligomerization of alpha-synuclein by declining intermolecular hydrogen bonds through a steric effect

scientific article published on 09 September 2020

On the strength of β-sheet crystallites of Bombyx mori silk fibroin.

scientific article

Peptide-Graphene Interactions Enhance the Mechanical Properties of Silk Fibroin.

scientific article published on 14 September 2015

Predicted rupture force of a single molecular bond becomes rate independent at ultralow loading rates

scientific article published on 19 February 2014

Strength of hydrogen bond network takes crucial roles in the dissociation process of inhibitors from the HIV-1 protease binding pocket.

scientific article

Structure-based design of carbon nanotubes as HIV-1 protease inhibitors: Atomistic and coarse-grained simulations

article

List of works by Dechang Li

A supertough electro-tendon based on spider silk composites

Bidirectional regulation of configuration of the carbon nanotube containing a water droplet

Biochemical studies of membrane fusion at the single-particle level

Carbon nanoscroll-silk crystallite hybrid structures with controllable hydration and mechanical properties.

Cholesterol suppresses membrane leakage by decreasing water penetrability

Coarse-grained molecular dynamics of ligands binding into protein: The case of HIV-1 protease inhibitors

Crucial roles of the subnanosecond local dynamics of the flap tips in the global conformational changes of HIV-1 protease

High Transmembrane Voltage Raised by Close Contact Initiates Fusion Pore.

How Does Nature Evade the "Larger is Weaker" Fate of Ultralong Silk β-Sheet Nanocrystallites

Identifying the molecular mechanics and binding dynamics characteristics of potent inhibitors to HIV-1 protease

Lipid molecules influence early stages of yeast SNARE-mediated membrane fusion.

Mapping the Dynamics Landscape of Conformational Transitions in Enzyme: The Adenylate Kinase Case

O-GlcNAcylation inhibits the oligomerization of alpha-synuclein by declining intermolecular hydrogen bonds through a steric effect

On the strength of β-sheet crystallites of Bombyx mori silk fibroin.

Peptide-Graphene Interactions Enhance the Mechanical Properties of Silk Fibroin.

Predicted rupture force of a single molecular bond becomes rate independent at ultralow loading rates

Strength of hydrogen bond network takes crucial roles in the dissociation process of inhibitors from the HIV-1 protease binding pocket.

Structure-based design of carbon nanotubes as HIV-1 protease inhibitors: Atomistic and coarse-grained simulations