微粒子合成化学・講義
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- あきみ たかにし
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1 1
2 2
3 3 1m 10cm 1cm 1mm 100 m 10 m 1 m 100nm 10nm 1nm m 10 m 1 m 1nm 100nm 10nm
4 4
5 5
6 6
7 7 1m 10cm 1cm 1mm 100 m 10 m 1 m 100nm 10nm 1nm m 10 m 1 m 1nm 100nm 10nm
8 10 9 m = 1 nm m 8
9 9
10 10
11 A S 4 = 4πr 2, V = πr 3 3 = A S = 3 Vd rd ( d ) 11
12 12
13 13
14 14
15 ゲルーゾル法で合成した粒子 α-fe2o3 α-fe2o3 CdS 2μm 2μm 2μm 10μm Cu2O CdS 0.5μm α-fe2o3 α-fe2o3 1μm 0.5μm 15
16 -Fe 2 O 3 m 16
17 Stöber 17
18 (T. Sugimoto, Adv. Colloid Interface Sci. 28, 65 (1987).) 18
19 LaMer 19
20 20
21 21
22 O 22
23 Si(-O-C 2 H 5 ) 4 + 2H 2 O SiO 2 + 4C 2 H 5 OH 23
24 Stöber TEOS=Tetraethylorthosilica te, Si(-O-C 2 H 5 ) mol/l = NH 3 =1 10 mol/l H2O= mol/l =
25 TiO 2, ZrO 2 SiO2: W. Stöber, A. Fink, and E. Bohn: J. Colloid Interface Sci. 26, (1968) 62. TiO2: E.A. Barringer and H.K. Bowen: J. Am. Ceram. Soc. 67 (1984) C-113. E. A. Barringer, N. Jubb, B. Fegley, Jr., R. L. Pober, and H. K. Bowen: in "Ultrastructure Processing of Ceramics, Glasses, and Composites," (L. L. Hench and D. R. Ulrich, Eds.), pp Wiley, New York, B. Fegley, Jr., E. A. Barringer, and H. K. Bowen: J. Am. Ceram. Soc. 67, (1984) C-113. ZrO2: K. Uchiyama, T. Ogihara, T. Ikemoto, N. Mizutani, and M. Kato: J. Mater. Sci. 22, (1987) T. Ogihara, N. Mizutani, and M. Kato: Ceram. Intern. 13, (1987) 35. PZT: T. Ogihara, H. Kaneko, N. Mizutani, and M. Kato: J. Mater. Sci. Lett. 7, (1988) 867. H. Hirashima, E. Onishi, and M. Nakagawa: J. Non- Cryst. Solids 121, (1990)
26 Matijevic 26
27 27
28 α-fe2o3 -FeOOH α-fe 2 O 3 28
29 1 mol/l 1/100 mol/l 29
30 30
31 31
32 100 Fe(OH)3 β-feooh 3 hours 6 days α-fe2o3 32
33 2μm 33
34 Ni(OH)2 With PEG 50,, 12 hours NaH2PO2 0.1 M Ni(OH) M NaH 2 PO wt% PEG 400,000 34
35 - : 0.5 M : 1.0 M 2M 35
36 Reservoir of M 2+ Reservoir of S 2- Cd(OH)2 or Metal chelates M(NH3)n M + S Gelatin TAA M=Cd, Zn, Pb etc. 36
37 BaTiO 3, SrTiO 3 37
38 Synthesis method of BaTiO 3 /SrTiO 3 fine particles H) 3 gel-sol method Schematic drawing of reaction vessel (autoclave) 38
39 TEM micrograph of BaTiO 3 BT01 BT02 (High Purity Chemicals) 200 nm BT03 (Wako Pure Chemicals) 39
40 XRD patterns of starting materials a. BT01 Intensity/a.u. b. BT02 c. BT03 BaTiO 3 (cub., JCPDS ) BaTiO 3 (tet., JCPDS ) θ/degree 40
41 TG curves for starting materials in Ar BT03 BT Weight change/% BT01 Samples: BaTiO 3 Heating rate: 5 ºC/min, in argon atmosphere Temperature/ºC 41
42 TEM microphotographs of initial materials 50 nm 200 nm 200 nm SR-01 SR-02 SR-03 The particle size of SR-01 is smaller than 40 nm. 42
43 XRD patterns for initial materials a. SR-01 Intensity/a.u. b. SR-02 c. SR-03 SrTiO 3 (Cub., JCPDS ) θ/degree A cubic SrTiO 3 phase was founded in initial materials. 43
44 TG curves of initial materials in Ar atmosphere Weight change/% SR-01 SR-02 Samples: SrTiO 3 Heating rate: 5 ºC/min, in argon atmosphere Temperature/ºC SR Carbonates SR-01 only contents 3.9 % of adsorbed water and 2.83 % of OH groups. 44
45 45
46 CeO 2 1.0x10-3 mol/l Ce(SO 4 ) 2 4.0x10-2 mol/l H 2 SO 4 90 A B,C B 46
47 47
48 48
49 2.0x10-2 mol dm -3 FeCl 3 and 4.5x10-4 KH 2 PO 4 at 100 o C M. Ocana, M. Morales, and C.J. Serna: J. Colloid Interface Sci. 171 (1995) 85. M. Ocana, R. Rodriguez-Clemente, C.J. Serna: Adv. Mater. 7 (1995)
50 0 hour 8 hours 2 day 4 day 7 day β-feooh α-fe 2 O 3 50
ナノハイブリッド材料の創製
1 α-fe2o3 α-fe2o3 α-fe2o3 α-fe2o3 2µm 2µm 2µm 10µm CdS CdS Cu2O 0.5µm 1µm 0.5µm 2 Ni-Zn 3 4 5 Ni-Zn 6 7 1. 2. 3. (T. Sugimoto, Adv. Colloid Interface Sci. 28, 65 (1987).) 8 LaMer 9 10 11 O 12 13 α-fe2o3
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2 3 10 9 m = 1 nm m 4 5 100 m 1m 10cm 100 m 1cm 1mm 10 m 1 m 100nm 10nm 1nm 1 10 m 1 m 1nm 100nm 10nm 10 8 6 1 nm 10 8 7 9 10 11 12 13 14 15 17 18 19 20 21 nm Ni-Zn 2- Ni-Zn Zn Ni Ni-Zn B 5 10 nm 23
微粒子合成化学・講義
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