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Autore: | Ju Yiwen |
Titolo: | Nanomineralogy |
Pubblicazione: | Basel, Switzerland, : MDPI - Multidisciplinary Digital Publishing Institute, 2020 |
Descrizione fisica: | 1 electronic resource (350 p.) |
Soggetto topico: | Research & information: general |
Earth sciences, geography, environment, planning | |
Soggetto non controllato: | preparation |
hydroxysodalite | |
bentonite | |
alkali-activation | |
water-bath | |
total porosity | |
shale gas reservoir | |
Longmaxi Formation | |
Southeast Chongqing | |
pyrite | |
thermal treatment | |
pyrrhotite | |
Hg(II) removal | |
mechanism | |
Changling Fault Depression | |
Shahezi Formation | |
fractal dimensions | |
pore structure | |
shale lithofacies | |
lacustrine shales | |
pore networks | |
pore connectivity | |
spontaneous fluid imbibition | |
Shahezi shales | |
Sm-Nd dating | |
Shuiyindong | |
Carlin-type gold deposit | |
Southwestern China | |
southern North China | |
marine shale | |
nanopore structure | |
heterogeneity | |
fractal dimension | |
calcium carbonate | |
mesopore | |
amoxicillin | |
adsorption | |
kinetics | |
thermodynamics | |
nanocubic pyrite | |
hydrothermal synthesis | |
greigite | |
thiourea | |
iron | |
nanoparticle | |
Fe | |
nanomaterial | |
colloid | |
L-edge XANES | |
speciation | |
hierarchical nanocomposite | |
sepiolite | |
clay mineral | |
heavy metals | |
water treatment | |
nanograins | |
principal slip zone | |
crystallographic preferred orientation | |
amorphization | |
mirror-slip surface | |
faults | |
earthquakes | |
localization | |
Nantuo Formation | |
syn-glacial dolostone | |
rare earth elements | |
ferruginous conditions | |
South China | |
nanostructure | |
OM-clay aggregate | |
silica nanograin | |
tectonic and thermal evolution | |
Longmaxi Formation shale | |
N2 adsorption | |
helium ion microscope | |
minerals | |
trace elements | |
major elements | |
fault zone | |
tectonically deformed coal | |
differentiation mechanism | |
metallic nanoparticles | |
migration mechanism | |
prospecting | |
Shenjiayao gold deposit | |
syngenetic framboids | |
diagenetic framboids | |
paleoredox conditions | |
shale gas content | |
middle Yangtze area | |
nanocrystalline rutile | |
phase transition | |
metallization | |
high pressure | |
diamond anvil cell | |
Persona (resp. second.): | WanQuan |
HochellaJr | |
JuYiwen | |
Sommario/riassunto: | In 2018, the International Symposium on Nanogeoscience was held in Guiyang, China. Scholars from around the globe gathered to discuss recent progress and development trends in various aspects of nanogeoscience, including nanomineralogy. Nanomineralogy, an important aspect of nanogeoscience, focuses on the composition, structure, and physical and chemical properties of nanoscale minerals and their interrelations with other Earth critical components. To give a sampling of the latest progress in nanomineralogy and related fields, we offer this Special Issue, which describes a full range of recent nanomineralogic achievements relating to everything from nanominerals and geochemistry, mineral nanostructures, and nanomineral deformation, to nanopores in oil and gas reservoirs, nanomineral deposits, and nanomineral material. Today, nanomineralogy faces a new strategic opportunity as well as a revolutionary challenge. We thus present this special nanomineralogy-focused issue of Minerals with the aim of encouraging our colleagues to familiarize themselves with current developments, trends, and directions in nanomineralogy, enabling an understanding of the potential of the field as a whole. We look forward to developing further scientific research and cooperation in nanomineralogy, hoping thereby to attract and guide young scholars to participate in this field. |
Titolo autorizzato: | Nanomineralogy |
Formato: | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione: | Inglese |
Record Nr.: | 9910557701403321 |
Lo trovi qui: | Univ. Federico II |
Opac: | Controlla la disponibilità qui |