Investigating the n- and p-Type Electrolytic Charging of Colloidal Nanoplatelets | Zendy

Emmanuel Lhuillier | Zendy; Sandrine Ithurria | Zendy; Armel DescampsMandine | Zendy; Thierry Douillard | Zendy; Rémi Castaing | Zendy; Xiang Xu | Zendy; PierreLouis Taberna | Zendy; Patrice Simon | Zendy; H. Aubin | Zendy; Benoît Dubertret | Zendy

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Investigating the n- and p-Type Electrolytic Charging of Colloidal Nanoplatelets

Author(s) -

Emmanuel Lhuillier,

Sandrine Ithurria,

Armel DescampsMandine,

Thierry Douillard,

Rémi Castaing,

Xiang Xu,

PierreLouis Taberna,

Patrice Simon,

H. Aubin,

Benoît Dubertret

Publication year - 2015

Publication title -

the journal of physical chemistry c

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.401

H-Index - 289

eISSN - 1932-7455

pISSN - 1932-7447

DOI - 10.1021/acs.jpcc.5b05296

Subject(s) - electrolyte , nanocrystal , gating , colloid , materials science , nanotechnology , transistor , ion , chemical engineering , chemistry , electrode , physics , engineering , voltage , quantum mechanics , physiology , organic chemistry , biology

International audienceWe investigate the ion gel gating of 2D colloidal nanoplatelets. We propose a simple, versatile, and air-operable strategy to build electrolyte-gated transistors. We provide evidence that the charges are injected in the quantum states of the nanocrystals. The gating is made possible by the presence of large voids into the NPL films and is sensitive to the availability of the nanocrystals surface

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