Erik F. Wang scite author profile

Erik F. Wang

3Publications

52Citation Statements Received

84Citation Statements Given

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105

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Presbyterian Hospital, Cornell University, University of Chicago

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Nanoarchitectured materials composed of fullerene-like spheroids and disordered graphene layers with tunable mechanical properties

et al. 2015

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Type-II glass-like carbon is a widely used material with a unique combination of properties including low density, high strength, extreme impermeability to gas and liquid and resistance to chemical corrosion. It can be considered as a carbon-based nanoarchitectured material, consisting of a disordered multilayer graphene matrix encasing numerous randomly distributed nanosized fullerene-like spheroids. Here we show that under both hydrostatic compression and triaxial deformation, this high-strength material is highly compressible and exhibits a superelastic ability to recover from large strains. Under hydrostatic compression, bulk, shear and Young's moduli decrease anomalously with pressure, reaching minima around 1-2 GPa, where Poisson's ratio approaches zero, and then revert to normal behaviour with positive pressure dependences. Controlling the concentration, size and shape of fullerene-like spheroids with tailored topological connectivity to graphene layers is expected to yield exceptional and tunable mechanical properties, similar to mechanical metamaterials, with potentially wide applications.

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Virtual reality therapy for myofascial pain: Evolving towards an evidence-based non-pharmacologic adjuvant intervention

Wang

Jotwani

2023

Interventional Pain Medicine

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Virtual reality training and modeling to aid in pre-procedural practice for thoracic nerve root block in the setting of a schwannoma

Wang

Rubin

et al. 2023

Interventional Pain Medicine

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Erik F. Wang

Nanoarchitectured materials composed of fullerene-like spheroids and disordered graphene layers with tunable mechanical properties

Virtual reality therapy for myofascial pain: Evolving towards an evidence-based non-pharmacologic adjuvant intervention

Virtual reality training and modeling to aid in pre-procedural practice for thoracic nerve root block in the setting of a schwannoma

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