机读格式显示(MARC)
- 000 02070nam a2200337 i 4500
- 008 210328t20202020gw a b 001 0 eng d
- 020 __ |a 9783110596489 |q paperback
- 040 __ |a ZSU |b eng |e rda |c ZSU
- 099 __ |a CAL 022021030253
- 245 00 |a Thermoelectric materials : |b principles and concepts for enhanced properties / |c edited by Ken Kurosaki, Yoshiki Takagiwa and Xun Shi.
- 264 _1 |a Berlin ; |a Boston : |b De Gruyter, |c [2020]
- 300 __ |a ix, 213 pages : |b illustrations (some color) ; |c 24 cm.
- 336 __ |a text |b txt |2 rdacontent
- 337 __ |a unmediated |b n |2 rdamedia
- 338 __ |a volume |b nc |2 rdacarrier
- 490 0_ |a De Gruyter Textbook
- 504 __ |a Includes bibliographical references and index.
- 505 00 |t Frontmatter -- |t Contents -- |t List of contributors -- |t 1. Thermoelectric materials and applications: a brief review -- |t 2. Power factor optimization and lattice thermal conductivity reduction: a case study on Si -- |t 3. Microstructure control of thermoelectric materials -- |t 4. Half-Heusler thermoelectric materials for waste heat recovery -- |t 5. Thermoelectric properties of Mg2Si and its derivatives: effects of lattice defects and secondary phases -- |t 6. Thermoelectric oxides -- |t 7. Carrier energy filtering effect in thermoelectric materials -- |t 8. Charge transfer and interface design in thermoelectric materials -- |t 9. All-scale phonon scattering -- |t Index
- 520 __ |a How can you design good thermoelectric materials? This book covers thermoelectric material concepts and synthesis techniques in particular focusing methods for enhancing current materials designs to achieve the greatest thermoelectric efficiencies. This book is ideal for researchers and advanced students of materials science, physics, and energy.
- 650 _0 |a Thermoelectric materials.
- 700 1_ |a Kurosaki, Ken, |e editor.
- 700 1_ |a Shi, Xun, |e editor.
- 700 1_ |a Takagiwa, Yoshiki, |e editor.