D
Daniel L. Sanchez
Researcher at University of California, Berkeley
Publications - 65
Citations - 3814
Daniel L. Sanchez is an academic researcher from University of California, Berkeley. The author has contributed to research in topics: Bio-energy with carbon capture and storage & Climate change mitigation. The author has an hindex of 20, co-authored 59 publications receiving 2302 citations. Previous affiliations of Daniel L. Sanchez include Carnegie Institution for Science & Autonomous University of Madrid.
Papers
More filters
Journal ArticleDOI
Net-zero emissions energy systems
Steven J. Davis,Nathan S. Lewis,Matthew R. Shaner,Sonia Aggarwal,Douglas J. Arent,Douglas J. Arent,Inês Azevedo,Sally M. Benson,Thomas H. Bradley,Jack Brouwer,Yet-Ming Chiang,Christopher T. M. Clack,Armond Cohen,Stephen J. Doig,Jae Edmonds,Paul S. Fennell,Paul S. Fennell,Christopher B. Field,Bryan Hannegan,Bri-Mathias Hodge,Bri-Mathias Hodge,Bri-Mathias Hodge,Martin I. Hoffert,Eric Ingersoll,Paulina Jaramillo,Klaus S. Lackner,Katharine J. Mach,Michael D. Mastrandrea,Joan M. Ogden,Per F. Peterson,Daniel L. Sanchez,Daniel Sperling,Joseph Stagner,Jessika E. Trancik,Jessika E. Trancik,Chi Jen Yang,Ken Caldeira +36 more
TL;DR: In this paper, the authors examine barriers and opportunities associated with these difficult-to-decarbonize services and processes, including possible technological solutions and research and development priorities, and examine the use of existing technologies to meet future demands for these services without net addition of CO2 to the atmosphere.
Net-zero Emissions Energy Systems
Steven J. Davis,Nathan S. Lewis,Matthew R. Shaner,Sonia Aggarwal,Douglas J. Arent,Inês Azevedo,Sally M. Benson,Thomas H. Bradley,Jack Brouwer,Yet-Ming Chiang,Christopher T. M. Clack,Armond Cohen,Stephen J. Doig,Jae Edmonds,Paul S. Fennell,Christopher B. Field,Bryan Hannegan,Bri-Mathias Hodge,Martin I. Hoffert,Eric Ingersoll,Paulina Jaramillo,Klaus S. Lackner,Katharine J. Mach,Michael D. Mastrandrea,Joan M. Ogden,Per F. Peterson,Daniel L. Sanchez,Daniel Sperling,Joseph Stagner,Jessika E. Trancik,Chi Jen Yang,Ken Caldeira +31 more
TL;DR: The special challenges associated with an energy system that does not add any CO2 to the atmosphere (a net-zero emissions energy system) are reviewed and prominent technological opportunities and barriers for eliminating and/or managing emissions related to the difficult-to-decarbonize services are discussed.
Journal ArticleDOI
New type of Weyl semimetal with quadratic double Weyl fermions
Shin-Ming Huang,Su-Yang Xu,Ilya Belopolski,Chi-Cheng Lee,Guoqing Chang,Tay-Rong Chang,Tay-Rong Chang,Baokai Wang,Baokai Wang,Nasser Alidoust,Guang Bian,Madhab Neupane,Daniel L. Sanchez,Hao Zheng,Horng-Tay Jeng,Horng-Tay Jeng,Arun Bansil,Titus Neupert,Hsin Lin,M. Zahid Hasan +19 more
TL;DR: It is shown that SrSi2 is a Weyl semimetal even without spin– orbit coupling and that, after the inclusion of spin–orbit coupling, two Weyl fermions stick together forming an exotic double Weylfermion with quadratic dispersions and a higher chiral charge of ±2.
Journal Article
Experimental discovery of a topological Weyl semimetal state in TaP
Su-Yang Xu,Ilya Belopolski,Daniel L. Sanchez,Cheng Guo,Guoqing Chang,Chenglong Zhang,Guang Bian,Zhujun Yuan,Hong Lu,Yiyang Feng,Tay-Rong Chang,Pavel Shibayev,Mykhailo L. Prokopovych,Nasser Alidoust,Hao Zheng,Chi-Cheng Lee,Shin-Ming Huang,Raman Sankar,Horn-Tay Jenny,Arun Bansil,Titus Neupert,Vladimir N. Strocov,Hsin Lin,Shuang Jia,M. Zahid Hasan +24 more
TL;DR: The bulk-boundary correspondence is directly demonstrated and the topologically nontrivial nature of the Weyl semimetal state in TaP is established, by resolving the net number of chiral edge modes on a closed path that encloses the Wey node.
Journal ArticleDOI
Biomass enables the transition to a carbon-negative power system across western North America
TL;DR: In this article, the economic and deployment implications for BECCS in the electricity system of western North America under aggressive (pre-2050) time frames and carbon emissions limitations, with rich technology representation and physical constraints.