Yue Lin
University of Cambridge
85 Papers
212 Citations
Yue Lin is an academic researcher from University of Cambridge. The author has contributed to research in topics: Medicine & Computer science. The author has an hindex of 14, co-authored 29 publications. Previous affiliations of Yue Lin include Northwestern University & University of Manchester.
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Papers
Thermoelectric power generation from lanthanum strontium titanium oxide at room temperature through the addition of graphene
Yue Lin,Colin Norman,Deepanshu Srivastava,Feridoon Azough,Li Wang,Mark Robbins,Kevin Simpson,Robert Freer,Ian A. Kinloch +8 more
TL;DR: It is shown that the thermal operating window of lanthanum strontium titanium oxide (LSTO) can be reduced to room temperature by the addition of a small amount of graphene, which will enable future applications such as generators in vehicles and other sectors.
177
Investigation of the Catalytic Pyrolysis of High-Density Polyethylene over a HZSM-5 Catalyst in a Laboratory Fluidized-Bed Reactor
TL;DR: In this paper, high-density polyethylene (HDPE) was pyrolyzed over HZSM-5 catalyst using a specially developed laboratory fluidized-bed reactor operating isothermally at ambient pressure.
156
Pristine Graphene Aerogels by Room-Temperature Freeze Gelation
TL;DR: Aerogels can be fabricated from pristine graphene exfoliated nanosheets using freeze gelation with nonaqueous solvents and no heat treatment or reduction stage, enabling sublimation (freeze drying) under ambient conditions.
136
High-Efficiency Ion-Exchange Doping of Conducting Polymers
Ian E. Jacobs,Yue Lin,Yuxuan Huang,Xinglong Ren,Dimitrios Simatos,Chen Chen,Dion Tjhe,Martin Statz,Lianglun Lai,Peter A. Finn,William G. Neal,Gabriele D'Avino,Vincent Lemaur,Simone Fratini,David Beljonne,Joseph Strzalka,Christian B. Nielsen,Stephen Barlow,Seth R. Marder,Iain McCulloch,Iain McCulloch,Henning Sirringhaus +21 more
TL;DR: In this article, the equilibrium and kinetics of ion exchange doping in a model system, PBTTT doped with FeCl 3 and BMP TFSI, were studied. And it was shown that the performance and stability of highly doped PBTTTs is ultimately limited by intrinsically poor stability at high redox potential.
Expression of interfacial Seebeck coefficient through grain boundary engineering with multi-layer graphene nanoplatelets
Yue Lin,Yue Lin,Maxwell Wood,Kazuki Imasato,Jimmy Jiahong Kuo,David Lam,Anna Nooshin Mortazavi,Anna Nooshin Mortazavi,Tyler J. Slade,Stephen A. Hodge,Kai Xi,Mercouri G. Kanatzidis,David R. Clarke,Mark C. Hersam,G. Jeffrey Snyder +14 more
TL;DR: In this paper, a composite of multi-layer graphene nanoplatelets (GNP) and n-type Mg3Sb2 leads to the expression of an energy filtering like effect demonstrated by an increase in the material's Seebeck coefficient and maximum power factor.