D
Dale K. Hensley
Researcher at Oak Ridge National Laboratory
Publications - 162
Citations - 4399
Dale K. Hensley is an academic researcher from Oak Ridge National Laboratory. The author has contributed to research in topics: Ion implantation & Nanoclusters. The author has an hindex of 32, co-authored 157 publications receiving 3719 citations. Previous affiliations of Dale K. Hensley include North Carolina State University & University of Tennessee.
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Journal ArticleDOI
Studies on Supercapacitor Electrode Material from Activated Lignin-Derived Mesoporous Carbon
Dipendu Saha,Yunchao Li,Zhonghe Bi,Jihua Chen,Jong K. Keum,Dale K. Hensley,Hippolyte A. Grappe,Harry M. Meyer,Sheng Dai,M. Parans Paranthaman,Amit K. Naskar +10 more
TL;DR: This work synthesized mesoporous carbon from pre-cross-linked lignin gel impregnated with a surfactant as the pore-forming agent and activated the carbon through physical and chemical methods to obtain activated mesoporus carbon.
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High-Selectivity Electrochemical Conversion of CO2 to Ethanol using a Copper Nanoparticle/N-Doped Graphene Electrode
Yang Song,Rui Peng,Dale K. Hensley,Peter V. Bonnesen,Liangbo Liang,Zili Wu,Harry M. Meyer,Miaofang Chi,Cheng Ma,Bobby G. Sumpter,Adam J. Rondinone +10 more
TL;DR: In this article, the authors report a common element, nanostructured catalyst for the direct electrochemical conversion of CO2 to ethanol with high Faradaic efficiency (63% at −1.2 V vs RHE) and high selectivity (84% at ambient temperature and pressure).
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A physical catalyst for the electrolysis of nitrogen to ammonia.
Yang Song,Daniel Johnson,Rui Peng,Dale K. Hensley,Peter V. Bonnesen,Liangbo Liang,Jingsong Huang,Fengchang Yang,Fei Zhang,Rui Qiao,Arthur P. Baddorf,Timothy J. Tschaplinski,Nancy L. Engle,Marta C. Hatzell,Zili Wu,David A. Cullen,Harry M. Meyer,Bobby G. Sumpter,Adam J. Rondinone +18 more
TL;DR: A nanostructured, carbon-based physical catalyst electrochemically reduces N2 to ammonia under ambient conditions that has a surface composed of sharp spikes, which concentrates the electric field at the tips, thereby promoting the electroreduction of dissolved N2 molecules near the electrode.
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Intracellular integration of synthetic nanostructures with viable cells for controlled biochemical manipulation
Timothy E. McKnight,Anatoli V. Melechko,Guy D. Griffin,Michael A. Guillorn,Vladimir I. Merkulov,Francisco Serna,Dale K. Hensley,Mitchel J. Doktycz,Douglas H. Lowndes,Michael L. Simpson,Michael L. Simpson +10 more
TL;DR: The integration of vertically aligned carbon nanofibre elements with the intracellular domains of viable cells for controlled biochemical manipulation and provides a method for achieving a genetic modification that is non-inheritable and whose extent in time can be directly and precisely controlled.
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Tracking Gene Expression after DNA Delivery Using Spatially Indexed Nanofiber Arrays
Timothy E. McKnight,Anatoli V. Melechko,Dale K. Hensley,David G. J. Mann,Guy D. Griffin,Michael L. Simpson +5 more
TL;DR: In this article, the authors describe fabrication and use of a gene delivery platform which consists of arrays of individual carbon nanofibers at 5μm pitch within numerically indexed, 100-μm square grid patterns.