000 | 05573cam a2200541 i 4500 | ||
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001 | on1285169226 | ||
003 | OCoLC | ||
005 | 20230516165959.0 | ||
006 | m o d | ||
007 | cr cnu---unuuu | ||
008 | 211113s2022 ne o 000 0 eng d | ||
040 |
_aEBLCP _beng _erda _epn _cEBLCP _dYDX _dYDXIT _dOCLCQ _dOCLCF _dOPELS _dOCLCO _dOCLCQ |
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019 |
_a1283949972 _a1284287756 _a1284838191 _a1284875392 |
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020 |
_a9780128228432 _q(electronic book) |
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020 |
_a0128228431 _q(electronic book) |
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020 |
_a9780128228425 _q(electronic bk.) |
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020 |
_a0128228423 _q(electronic bk.) |
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035 |
_a(OCoLC)1285169226 _z(OCoLC)1283949972 _z(OCoLC)1284287756 _z(OCoLC)1284838191 _z(OCoLC)1284875392 |
||
050 | 4 |
_aTA418.9.N35 _bU73 2022 |
|
082 | 0 | 4 |
_a620.115 _223 |
245 | 0 | 0 |
_aUpconversion Nanophosphors / _cedited by Sabu Thomas, Kanchan Upadhyay, Raunak Kumar Tamrakar, Nandakumar Kalarikkal. |
264 | 1 |
_aAmsterdam, Netherlands ; _aOxford, United Kingdom ; _aCambridge, MA : _bElsevier, _c[2022] |
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300 | _a1 online resource (426 pages) | ||
336 |
_atext _btxt _2rdacontent |
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337 |
_acomputer _bc _2rdamedia |
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338 |
_aonline resource _bcr _2rdacarrier |
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490 | 1 | _aMicro and Nano Technologies | |
505 | 0 | _aFront cover -- Half title -- Full title -- Copyright -- Contents -- Contributors -- 1 -- Photoluminescent rare-earth nanocrystal-based characterization methods: Advancements in photophysical applications -- 1.1 Introduction -- 1.2 Diffused reflectance spectroscopy -- 1.3 Photoluminescence spectroscopy -- 1.4 Down-conversion -- 1.5 A mechanism of down-conversion -- 1.6 Upconversion -- 1.6.1 Upconversion mechanisms and properties -- 1.6.1.1 Upconversion phosphor system -- 1.6.2 Host lattice -- 1.6.3 Dopant system -- 1.7 Photoluminescence quantum yield | |
505 | 8 | _a1.8 Challenges and future perspectives -- References -- 2 -- What are upconversion nanophosphors: Basic concepts and mechanisms -- 2.1 Introduction -- 2.2 Fundamental concepts of photon upconversion -- 2.2.1 Optical properties of rare-earth ions -- 2.2.2 Dopant ions: activators and sensitizers -- 2.2.3 Host material -- 2.2.4 Modulation of upconversion emissions -- 2.2.4.1 Controlling Ln 3+ doping concentration -- 2.2.4.2 Introducing multiple activators -- 2.2.4.3 Screening the host matrix -- 2.2.4.4 Luminescence resonance energy transfer -- 2.3 Upconversion mechanisms | |
505 | 8 | _a2.4 Excited-state dynamics -- 2.5 Basic understanding of photophysics -- 2.6 Applications -- 2.6.1 Bio-imaging -- 2.6.2 Bio-sensing and detection -- 2.6.3 Drug delivery and therapy -- 2.6.4 Security printing -- 2.6.5 Thermographic phosphors -- 2.7 Conclusions -- References -- 3 -- Physics of inorganic upconverting nanophosphors and their relevance in applications -- 3.1 Introduction -- 3.1.1 Background knowledge and nomenclature -- 3.1.2 From the Stokes principle to upconversion -- 3.1.3 Rare-earth elements -- 3.2 Inorganic phosphors: Hosts and dopants -- 3.2.1 Host crystals | |
505 | 8 | _a3.2.2 Activator and sensitizer ions -- 3.3 Building-block ion-ion interaction mechanisms -- 3.3.1 Energy transfer -- 3.3.2 Cross-relaxation -- 3.3.3 Luminescence quenching -- 3.4 Upconversion: Fundamentals and dynamics -- 3.4.1 Mechanisms/pathways leading to upconversion emission -- 3.4.2 Examples -- 3.4.2.1 Single doping: Er 3+ ion -- 3.4.2.2 Co-doping: Yb 3+ -Er 3+ and Yb 3+ -Tm 3+ pairs -- 3.5 Nanoupconverters -- 3.5.1 Introduction and relevant applications -- 3.5.2 Spatial-confinement-related phenomena/effects -- 3.5.3 Quenching effects -- 3.5.4 Core-shell architectures | |
505 | 8 | _a3.5.5 Excited state dynamics -- 3.6 Conclusions -- References -- 4 -- Upconversion photoluminescence properties of ZrO 2 : Ln 3+ /Yb 3+ (Ln = Er, Ho, Tm) films formed by plasma electrolyt ... -- 4.1 Introduction -- 4.2 Experimental section -- 4.2.1 Sample preparation -- 4.2.2 Measurements and characterization -- 4.3 Results and discussion -- 4.3.1 Morphology, chemical, and phase composition of ZrO 2 :Ln 3+ /Yb 3+ films -- 4.3.2 Upconversion PL of ZrO 2 :Er 3+ /Yb 3+ films -- 4.3.3 Upconversion PL of ZrO 2 :Ho 3+ /Yb 3+ films -- 4.3.4 Upconversion PL of ZrO 2 :Tm 3+ /Yb 3+ films | |
500 | _a4.4 Conclusions. | ||
588 | 0 | _aOnline resource; title from digital title page (viewed on December 30, 2021). | |
520 | _aUpconversion Nanophosphors provides detailed information about various lanthanide-based upconversion nanoparticles and their application in different fields. It will also help solve fundamental and applied problems of inorganic phosphor materials showing upconversion behavior, as well as generate innovative ideas related to the application of inorganic phosphor materials. This book will prove to be an invaluable reference work for scientists, engineers, industrial experts, and masters and PhD students working in the field of upconversion and materials science. | ||
650 | 0 |
_aNanoparticles. _97280 |
|
650 | 2 |
_aNanoparticles _0(DNLM)D053758 _97280 |
|
650 | 6 |
_aNanoparticules. _0(CaQQLa)201-0262530 _968594 |
|
650 | 7 |
_aNanoparticles. _2fast _0(OCoLC)fst01032624 _97280 |
|
700 | 1 |
_aThomas, Sabu, _eeditor. _915280 |
|
700 | 1 |
_aUpadhyay, Kanchan, _eeditor. _969643 |
|
700 | 1 |
_aTamrakar, Raunak Kumar, _eeditor. _969644 |
|
700 | 1 |
_aKalarikkal, Nandakumar, _eeditor. _969499 |
|
776 | 0 | 8 |
_iPrint version: _aThomas, Sabu. _tUpconversion Nanophosphors. _dSan Diego : Elsevier, �2021 _z9780128228425 |
830 | 0 |
_aMicro & nano technologies. _969645 |
|
856 | 4 | 0 |
_3ScienceDirect _uhttps://www.sciencedirect.com/science/book/9780128228425 |
942 | _cEBK | ||
999 |
_c82652 _d82652 |