微粒子合成化学・講義
|
|
- あきみ たかにし
- 5 years ago
- Views:
Transcription
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
More informationナノ粒子のサイズ・形態制御と 構造敏感型触媒プロセスへの応用
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
More information微粒子合成化学・講義
微粒子合成化学 講義 http://www.tagen.tohoku.ac.jp/labo/muramatsu/mura/main.html E-mail: mura@tagen.tohoku.ac.jp 村松淳司 1 単分散微粒子 合成 応用 2 3 1m 10cm 1cm 1mm 100μm 10μm 1μm 100nm 10nm 1nm 1A 光学顕微鏡電子顕微鏡ソフトボール硬貨パチンコ玉小麦粉花粉タバコの煙ウィルスセロハン孔径
More informationTiO2ナノ粒子の部分硫化による可視光応答性光触媒の開発
2002 CdS, ZnS by CdS CdS, ZnS CdS CdS, ZnS 52 36 15 14 14 10 10 10 3 3 (a) (b) (c) (d) (e) (f) (g) (h) ev, nm 1240 nm TiO 2 =3.2eV (= 390nm) (a) (b) (c)pt 1 Fe 2 O 3 2.2 TiO 2 (rutile) 3.0 Cu
More informationuntitled
1 / 37 5-4 6.1 1 2 / 37 1 (1) FePt AuAg (2) CdSe ZnSXY 2 O 3 X X : ZnO (3) SiO 2 (4) (5) 2 1 3 / 37 1 (1) FePt AuAg (2) CdSe ZnSXY 2 O 3 X X : ZnO (3) SiO 2 (4) (5) 3 4 / 37 1Tbits/cm 2 HD FePt FePt 110nm
More informationPowerPoint プレゼンテーション
PREPARATION OF MONODISPERSED PARTICLES CONTROLLED IN SIZE AND SHAPE 1 E-mail: mura@tagen.tohoku.ac.jp LaMer ITO Indium Tin Oxides 2 3 Basic concept For preparation of monodispersed particles Stöber silica
More information2008/02/18 08:40-10:10, 12:50-14:20 14:30-16:00, 16:10-17:40,
008/0/18 08:40-10:10, 1:50-14:0 14:30-16:00, 16:10-17:40, 1pt A 1911 Leiden Heike Kammelingh-Onnes H.Kammelingh Onnes 1907 He 1 4. K H H c T c T H c Hg:40 mt, Pb:80 mt, Sn:30 mt 100 mt I c H c H c H
More informationFig. ph Si-O-Na H O Si- Na OH Si-O-Si OH Si-O Si-OH Si-O-Si Si-O Si-O Si-OH Si-OH Si-O-Si H O 6
NMR ESR NMR 5 Fig. ph Si-O-Na H O Si- Na OH Si-O-Si OH Si-O Si-OH Si-O-Si Si-O Si-O Si-OH Si-OH Si-O-Si H O 6 Fig. (a) Na O-B -Si Na O-B Si Fig. (b) Na O-CaO-SiO Na O-CaO-B -Si. Na O-. CaO-. Si -. Al O
More informationThe Phase Behavior of Monooleoylglycerol-Water Systems Mivoshi Oil & Fat Co.. Ltd. Faculty of Science and Technology, Science University of Tokyo Inst
The Phase Behavior of Monooleoylglycerol-Water Systems Mivoshi Oil & Fat Co.. Ltd. Faculty of Science and Technology, Science University of Tokyo Institute of Colloid and Interface Science, Science University
More information2 Zn Zn + MnO 2 () 2 O 2 2 H2 O + O 2 O 2 MnO 2 2 KClO 3 2 KCl + 3 O 2 O 3 or 3 O 2 2 O 3 N 2 () NH 4 NO 2 2 O + N 2 ( ) MnO HCl Mn O + CaCl(ClO
1 [1]. Zn + 2 H + Zn 2+,. K Ca Na Mg Al Zn Fe Ni Sn Pb H Cu Hg Ag Pt Au H (H + ),,. [2] ( ) ( ) CO 2, S, SO 2, NH 3 () + () () + () FeS Fe S ( ) + ( ) ( ) + ( ) 2 NH 4 Cl + Ca(OH) 2 Ca O + 2 NH 3,.,,.,,.,.
More information研修コーナー
l l l l l l l l l l l α α β l µ l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l l
More informationSPring8菅野印刷.PDF
20021219Spring-8 Ah/kg Ah/dm 3 Li -3.01 540 3860 2090 Na -2.71 970 1160 1140 Al -1.66 2690 2980 8100 Zn -0.76 7140 820 5800 Fe -0.44 7850 960 7500 Cd -0.40 8650 480 4100 Pb -0.13 11340 260 2900 H 2 0
More informationFig. 1. Schematic drawing of testing system. 71 ( 1 )
1850 UDC 669.162.283 : 669.162.263.24/. 25 Testing Method of High Temperature Properties of Blast Furnace Burdens Yojiro YAMAOKA, Hirohisa HOTTA, and Shuji KAJIKAWA Synopsis : Regarding the reduction under
More informationuntitled
254nm UV TiO 2 20nm :Sr 5 Ta 4 O 15 3 4 KEY-1 KEY-2 (Ti,Nb,Ta) 5 KEY-1 KEY-2 6 7 NiO/ Sr 2 Ta 2 O 7 mmol h -1 g -1 20 15 10 5 H 2 O 2 H 2 O 2 0 0 2 4 6 8 10 12 NiO/Sr 2 Ta 2 O 7 The synthesis of photocatalysts
More information*1 *2 *1 JIS A X TEM 950 TEM JIS Development and Research of the Equipment for Conversion to Harmless Substances and Recycle of Asbe
*1 *2 *1 JIS A 14812008X TEM 950 TEM 1 2 3 4 JIS Development and Research of the Equipment for Conversion to Harmless Substances and Recycle of Asbestos with Superheated Steam Part 3 An evaluation with
More informationX線分析の進歩36 別刷
X X X-Ray Fluorescence Analysis on Environmental Standard Reference Materials with a Dry Battery X-Ray Generator Hideshi ISHII, Hiroya MIYAUCHI, Tadashi HIOKI and Jun KAWAI Copyright The Discussion Group
More informationAl-Si系粉末合金の超塑性
Superplasticity of Al-Si P/M Alloys Satoru Ishihara, Mikio Kondoh, Kazuhiko Itoh Al-17Si-4.5Cu-0.5Mg-(06)Fe-(02)Mm ( Mm : ) (i) (ii) Si(iii) Fe (iv) Mm Al-17Si-4.5Cu-0.5Mg500 10 2 s 1 520 110 1 s 1 Si
More information後期化学_01_濃度
2011 ( ) 1 4 1 100 g g % * 1 100 g 1 g 1 % * 2 (1 g)/(100 g) = 0.01 = 1 % 100 g 100 g 99 g 100 g 1 g 1 % 2.5 g 50 g (2.5 g)/(50 g) = 0.050 = 5.0 % 100 ml g 1 %(w/w) wt% % %(w/v) % / 2 % SI 2 / % 100 ml
More informationFeature Article Earozoru Kenkyu, 26 1, Preparation of Nanoparticles by Ultrasonic Spray Pyrolysis 1 Takashi OGI 1 and Kikuo OKUYAMA 1 Rec
Feature Article Earozoru Kenkyu, 26, 36 4 20 Preparation of Nanoparticles by Ultrasonic Spray Pyrolysis Takashi OGI and Kikuo OKUYAMA Received 2 August 200 Accepted 29 September 200 Abstract In this review,
More information4 1 Ampère 4 2 Ampere 31
4. 2 2 Coulomb 2 2 2 ( ) electricity 2 30 4 1 Ampère 4 2 Ampere 31 NS 2 Fleming 4 3 B I r 4 1 0 1.257 10-2 Gm/A µ 0I B = 2πr 4 1 32 4 4 A A A A 4 4 10 9 1 2 12 13 14 4 1 16 4 1 CH 2 =CH 2 28.0313 28 2
More informationδf = δn I [ ( FI (N I ) N I ) T,V δn I [ ( FI N I ( ) F N T,V ( ) FII (N N I ) + N I ) ( ) FII T,V N II T,V T,V ] ] = 0 = 0 (8.2) = µ (8.3) G
8 ( ) 8. 1 ( ) F F = F I (N I, T, V I ) + F II (N II, T, V II ) (8.1) F δf = δn I [ ( FI (N I ) N I 8. 1 111 ) T,V δn I [ ( FI N I ( ) F N T,V ( ) FII (N N I ) + N I ) ( ) FII T,V N II T,V T,V ] ] = 0
More informationC-2 NiS A, NSRRC B, SL C, D, E, F A, B, Yen-Fa Liao B, Ku-Ding Tsuei B, C, C, D, D, E, F, A NiS 260 K V 2 O 3 MIT [1] MIT MIT NiS MIT NiS Ni 3 S 2 Ni
M (emu/g) C 2, 8, 9, 10 C-1 Fe 3 O 4 A, SL B, NSRRC C, D, E, F A, B, B, C, Yen-Fa Liao C, Ku-Ding Tsuei C, D, D, E, F, A Fe 3 O 4 120K MIT V 2 O 3 MIT Cu-doped Fe3O4 NCs MIT [1] Fe 3 O 4 MIT Cu V 2 O 3
More information製紙用填料及び顔料の熱分解挙動.PDF
Thermogravimetric analysis of pigments and fillers for papermaking Toshiharu Enomae Graduate School of Agricultural and Life Sciences Contact e-mail address: enomae@psl.fp.a.u-tokyo.ac.jp A2 350 450 A2
More information00) î âûë¨ìx.pdf
....... .... = 1) 2) Ca + CO CaCO 3) 温泉水からの鉱物生成 指宿温泉での鉄鉱物の生成 霧島丸尾温泉でのシリカ鉱物の生成 湧水からの鉱物生成 Dissolution of anorthite Ca 2 2 O 8 + 8H + Ca 2+ + 2 3+ + 2H 4 O 4 Reaction of Ca ions Ca 2+ + CO 2 + H 2 O CaCO
More informationlimit&derivative
- - 7 )................................................................................ 5.................................. 7.. e ).......................... 9 )..........................................
More informationH22応用物理化学演習1_濃度.ppt
1 2 4/12 4/19 4/27 5/10 5/17 5/24 5/31 (20 ) (20 ) (10 ) (50 ) 3 (mole fraction) X = (mol) (mol) i n 1, n 2,, n x N i X i = n i = n i n 1 + n 2 + + n x N 4 (molarity, M) 1 dm 3 ( L) (mol) (mol/l) = 1 L
More informationクレジットカード決済の導入による公金収納のサービス向上
CONTENTS 1 2 3 4 5 6 18 2612 1 2 1 1. 8. 6. 4. 2.. 1 1996 97 98 99 2 1 2 JR NHK 19 3 4 2 2612 1 2 N28 2 4 6 8 1 26 5 21 2 4718246 3 66. 2.72.6 23. 264 47182 264 2 3 3 1 12 2 214 21 116 4 28 N373 N28 5
More information1 911 9001030 9:00 A B C D E F G H I J K L M 1A0900 1B0900 1C0900 1D0900 1E0900 1F0900 1G0900 1H0900 1I0900 1J0900 1K0900 1L0900 1M0900 9:15 1A0915 1B0915 1C0915 1D0915 1E0915 1F0915 1G0915 1H0915 1I0915
More information36 th IChO : - 3 ( ) , G O O D L U C K final 1
36 th ICh - - 5 - - : - 3 ( ) - 169 - -, - - - - - - - G D L U C K final 1 1 1.01 2 e 4.00 3 Li 6.94 4 Be 9.01 5 B 10.81 6 C 12.01 7 N 14.01 8 16.00 9 F 19.00 10 Ne 20.18 11 Na 22.99 12 Mg 24.31 Periodic
More informationSynthesis and Property of the Mn Doped Oxide Red Phosphors in the Calcium Aluminates Koji INOUE, Shinya IWATA and Shinobu HASHIMOTO Recently, the deve
Synthesis and Property of the Mn Doped Oxide Red Phosphors in the Calcium Aluminates Koji INOUE, Shinya IWATA and Shinobu HASHIMOTO Recently, the development of new sulfide-free phosphors with high efficiency
More information18 2 20 W/C W/C W/C 4-4-1 0.05 1.0 1000 1. 1 1.1 1 1.2 3 2. 4 2.1 4 (1) 4 (2) 4 2.2 5 (1) 5 (2) 5 2.3 7 3. 8 3.1 8 3.2 ( ) 11 3.3 11 (1) 12 (2) 12 4. 14 4.1 14 4.2 14 (1) 15 (2) 16 (3) 17 4.3 17 5. 19
More information2 1 7 - TALK ABOUT 21 μ TALK ABOUT 21 Ag As Se 2. 2. 2. Ag As Se 1 2 3 4 5 6 7 8 9 1 1 2 3 4 5 6 7 8 9 1 1 2 3 4 5 6 7 8 9 1 Sb Ga Te 2. Sb 2. Ga 2. Te 1 2 3 4 5 6 7 8 9 1 1 2 3 4 5 6 7 8 9 1 1 2 3 4
More information(1) θ a = 5(cm) θ c = 4(cm) b = 3(cm) (2) ABC A A BC AD 10cm BC B D C 99 (1) A B 10m O AOB 37 sin 37 = cos 37 = tan 37
4. 98 () θ a = 5(cm) θ c = 4(cm) b = (cm) () D 0cm 0 60 D 99 () 0m O O 7 sin 7 = 0.60 cos 7 = 0.799 tan 7 = 0.754 () xkm km R km 00 () θ cos θ = sin θ = () θ sin θ = 4 tan θ = () 0 < x < 90 tan x = 4 sin
More informationTable 1. Shape and smelting properties of chrome ores as delivered. Table 2. Chemical composition of chrome ores (%). Table 3. Chemical composition of
UDC 669.263.1: 669.046.462 The Reduction Process and Reducibility of Chromite with Carbon Hiroshi G. KATAYAMA and Akihiko TANAKA Synopsis: In the present work, various chrome ores and relatively pure chromites
More informationエマルジョン燃焼法による複合酸化物粉末の合成
Complex-oxide Synthesis by Emulsion Combustion Method ( ECM ) Kazumasa Takatori ( ) 1995 237,000 44 21 11 9% 2 2 3 R&D Vol. 32 No. 1 ( 1997. 3 ) Magnetic Permanent magnets, AV tapes, Floppy disks: 3CoFe
More information温泉の化学 1
H O 1,003 516 149 124 2,237 1974 90 110 1km 2,400 ( 100 Mg 200 (98 ) 43,665 mg 38,695 mg 19,000 mg 2000 2000 Na-Ca-Cl 806 1970 1989 10 1991 4 ph 1 981 10,000 1993... (^^; (SO_4^{2-}) " " 1973-1987 1970
More information** Department of Materials Science and Engineering, University of California, Los Angeles, CA 90025, USA) Preparation of Magnetopulmbite Type Ferrite
** Department of Materials Science and Engineering, University of California, Los Angeles, CA 90025, USA) Preparation of Magnetopulmbite Type Ferrite Thin Films by Dip-Coating Method and Magnetic Properties
More information本組よこ/根間:文11-029_P377‐408
377 378 a b c d 379 p M NH p 380 p 381 a pp b T 382 c S pp p 383 p M M 384 a M b M 385 c M d M e M 386 a M b M a M 387 b M 388 p 389 a b c 390 391 a S H p p b S p 392 a T 393 b S p c S 394 A a b c d 395
More informationX X 1. 1 X 2 X 195 3, 4 Ungár modified Williamson-Hall/Warren-Averbach 5-7 modified modified Rietveld Convolutional Multiple Whole Profile CMWP 8 CMWP
X X a a b b c Characterization of dislocation evolution during work hardening of stainless steels by using XRD line-profile analysis Tomoaki KATO a, Shigeo SATO a, Yoichi SAITO b, Hidekazu TODOROKI b and
More information(Jackson model) Ziman) (fluidity) (viscosity) (Free v
1) 16 6 10 1) e-mail: nishitani@ksc.kwansei.ac.jp 0. 1 2 0. 1. 1 2 0. 1. 2 3 0. 1. 3 4 0. 1. 4 5 0. 1. 5 6 0. 1. 6 (Jackson model) 8 0. 1. 7 10. 1 10 0. 1 0. 1. 1 Ziman) (fluidity) (viscosity) (Free volume)(
More informationCuおよびCu‐Sn系化合物のSn‐Pbはんだ濡れ性解析
61 Wettability of Cu and Cu-Sn Intermetallic Compound by Sn-Pb Solder Alloy Hisaaki Takao, Nobuyuki Yamamoto, Hideo Hasegawa CuCu-Sn Cu 150 C 2h55nmCu 2 O Cu Cu-Sn 5nm Cu-Sn Cu SnCu-Sn Wettability of Cu
More information土壌の観察・実験テキスト −土壌を調べよう!−
( ) 2006 7 20 i 21 1962 1969 1987 1992 2005 65 1972 1977 1997 1977 1998 1982 1998 2002 2004 2005 SPP 1999 ii 1 g cm m 6378km ( ) 4.2, 4.3 5.1 7.1 8.1 4.1 7.3, 7.4 7.1 1 2 7.1 8.2 2 5 6 1, 2 2.3 4.2, 4.3
More information(Shigen to Sozai) Vol.116 p (2000) 石炭灰フライアッシュからのゼオライトのアルカリ水熱合成と生成物の陽イオン交換特性 * 1 1 村山憲弘山川洋亮 2 3 小川和男芝田隼次 Alkali Hydrothermal Synthesis of Zeol
石炭灰フライアッシュからのゼオライトのアルカリ水 Title 熱合成と生成物の陽イオン交換特性 Author(s) 村山, 憲弘, 山川, 洋亮, 小川, 和男, 芝田, 隼次 Citation 資源と素材 : 資源 素材学会誌, 116(4): 279-284 Issue Date 2000 URL http://hdl.handle.net/10112/5454 資源 素材学会 (http://www.jstage.jst.go.
More informationFrontier Simulation Software for Industrial Science
PACS-CS FIRST 2005 2005 2 16 17 2 28 2 17 2 28 3 IT IT H14~H16 CHASE CHASE-3PT Protein Protein-DF ABINIT-MP 17 2 28 4 CMOS Si-CMOS CMOS-LSI CMOS ATP 10nm 17 2 28 5 17 2 28 6 CMOS CMOS-LSI LSI 90nm CMOS
More information( ) ( ) 20 11 11-13 15 20 21 ( ) 114cm 100cm 85cm () () 11 18 19 19-25 26 ( 1 ) 1 2 10 ( ) () 11 16 19 21 24-13 20 3 20 ( ) ( ) 14 15 19 20 23 29 13 20 4/15 600 400 5 7 1 8 5 7 20 3 1999 1000 100 86
More informationuntitled
P04 P23 P21 01 CONTENTS P0305 P28 30 P28 1 2 3 4 5 P07 P09 P13 P15 P19 P30 6 P21 7 8 P22 P25 02 03 04 05 P04 P07P28 P29 06 1 2 3 4 1 07 5-1 -2 6 7-1 -2 8 08 1 2 3 4 2 1 09 5-1 -2 6 7-1 -2 8 10 1 2 3 4
More information10-7 cm/ 50cm 10-6 cm/ 2,4-D 2 ph
10-7 cm/ 50cm 10-6 cm/ 2,4-D 2 ph Cd 2+ Ca 2+ - Cr(OH) 4 ph ph ph ph 6 CrO 2-4 AsO 3-4 ph 9 Cd 2+ ph 6 ph 9 ph 6 9 ph B(OH) - 4 ph B(OH) 3 ph ph B(OH) - 4 ph soil organic matter ph ph ph ph 2,4-D ph 2,4-D
More informationP.37 P.816 P.17 P.1819 contents 1 2
201211 NEW! P.37 P.816 P.17 P.1819 contents 1 2 3 4 5 6 7 8 http://www.tokiomarine-nichido.co.jp/ 1 2 16 3 11 4 1 18 9 10 5 6 11 12 18 9 10 6 7 8 13 1411 12 5 13 14 15 1615 16 21 17 18 0120-071-281 19
More information() 2
1 () 2 2 4 3 6,500 4 5 2 6 A B A B A B A B - A B 7 8 A B A B A B 9 JR JR 10 11 6 5 12 17 6 13 14 B A A B A B A B 2 1 8 15 8 16 17 9 18 3 4 5 mm mm 19 2 20 3 6 7 11 12 13 14 18 4 3 2 1 21 3 12 13 14 16
More information0.45m1.00m 1.00m 1.00m 0.33m 0.33m 0.33m 0.45m 1.00m 2
24 11 10 24 12 10 30 1 0.45m1.00m 1.00m 1.00m 0.33m 0.33m 0.33m 0.45m 1.00m 2 23% 29% 71% 67% 6% 4% n=1525 n=1137 6% +6% -4% -2% 21% 30% 5% 35% 6% 6% 11% 40% 37% 36 172 166 371 213 226 177 54 382 704 216
More information10 117 5 1 121841 4 15 12 7 27 12 6 31856 8 21 1983-2 - 321899 12 21656 2 45 9 2 131816 4 91812 11 20 1887 461971 11 3 2 161703 11 13 98 3 16201700-3 - 2 35 6 7 8 9 12 13 12 481973 12 2 571982 161703 11
More information着色斜め蒸着膜の光学的性質~無機偏光膜への応用
Anisotropy in the Optical Absorption of Metal-insulator Obliquely Deposited Thin Films The Application for an Inorganic Polarizer Motofumi Suzuki, Yasunori Taga Abstract An attempt has been made to clarify
More information( ) ,
II 2007 4 0. 0 1 0 2 ( ) 0 3 1 2 3 4, - 5 6 7 1 1 1 1 1) 2) 3) 4) ( ) () H 2.79 10 10 He 2.72 10 9 C 1.01 10 7 N 3.13 10 6 O 2.38 10 7 Ne 3.44 10 6 Mg 1.076 10 6 Si 1 10 6 S 5.15 10 5 Ar 1.01 10 5 Fe 9.00
More information磁気測定によるオーステンパ ダクタイル鋳鉄の残留オーステナイト定量
33 Non-destructive Measurement of Retained Austenite Content in Austempered Ductile Iron Yoshio Kato, Sen-ichi Yamada, Takayuki Kato, Takeshi Uno Austempered Ductile Iron (ADI) 100kg/mm 2 10 ADI 10 X ADI
More information000..\..
Bull. Nagoya Univ. Museum No. 20, 79 91, 2004 Quantitative chemical analysis of rocks with X-ray fluorescence analyzer XRF-1800 NAKAZAKI Mineko TSUBOI Motohiro KANAGAWA Kazuyo KATO Takenori SUZUKI Kazuhiro
More informationNi PLD GdBa 2 Cu 3 O 7 x 2 6
Ni PLD GdBa 2 Cu 3 O 7 x 2 6 1 1 1.1.................................. 1 1.2................................ 2 1.2.1......................... 3 1.3 RE 1 Ba 2 Cu 3 O 7 x...................... 3 1.3.1...............................
More information微粒子合成化学・講義
第 2 回 ナノテクノロジーに見る仙台の力 http://mura.site/ E-mail: mura@tohoku.ac.jp 東北大学多元物質科学研究所 村松淳司 1 / 74 Fe2O3 2 / 74 Fe2O3 3 / 74 FeFe 2O23O3 2µm 4 / 74 FeFe 2O223O Fe O33 2µm 5 / 74 FeFe 2Fe O2232O O333 Fe O 2µm
More informationMicrosoft Word - 目次注意事項2.doc
I II 2009 1. 2. 12 50 3. 1. 2. 3 ( 0.1g, 0.01g, 0.001g ) 3. 4. 1. 2. ()A4 3. 000005 19 5 11 () 19 5 15 () EDTA " # $ 1000 500 =... mol/l Web 1) p.159 2) 1987pp.14-15 3) 1989pp.58-60 4) http://www.chem.zenkyo.h.kyoto-u.ac.jp/operation/
More information解 説 J. Soc. Powder Technol., Japan, 42, (2005) Review 液相 にお ける ナ ノ粒 子 のサ イ ズ形態 制御機 構 に関す る 考 察 Insights into the Mechanisms of Size of Nanopar
解 説 J. Soc. Powder Technol., Japan, 42, 478-491 (2005) Review 液相 にお ける ナ ノ粒 子 のサ イ ズ形態 制御機 構 に関す る 考 察 Insights into the Mechanisms of Size of Nanoparticles and in Liquid Shape Control Phases 杉本 忠夫 Tadao
More information1066008 Yoshifumi Sugito ........................................................................ .................................... -................................................. .......................................................................................
More informationTable 1. Chemical composition of Fe203 and SrCO3 used for experiment. Fig. 1. Process of preparion of the specimen.
Influence of Addition of Some Oxides on the Magnetic Properties of the Strontium Ferrite Magnets Takeshi Anbo, Takahiro Motone, Takashi Furuya and Koichi Sasaki Synopsis Recently high coercivity ferrite
More information380-厚板06
Development of Ironmaking Technology Abstract The Japanese steel industry has a long history of introducing new and innovative technologies in the field of ironmaking. The new technologies introduced during
More informationLLG-R8.Nisus.pdf
d M d t = γ M H + α M d M d t M γ [ 1/ ( Oe sec) ] α γ γ = gµ B h g g µ B h / π γ g = γ = 1.76 10 [ 7 1/ ( Oe sec) ] α α = λ γ λ λ λ α γ α α H α = γ H ω ω H α α H K K H K / M 1 1 > 0 α 1 M > 0 γ α γ =
More information( ) 1 1.1? ( ) ( ) ( ) 1.1(a) T m ( ) 1.1(a) T g ( ) T g T g 500 74% ( ) T K ( 1.1(b) 15 T g T g 10 13 T g T g T g [ ] A ( ) exp (1.1) T T 0 Vogel-Fulcher T 0 T 0 T K T K Ortho-Terphenil (OTP) SiO 2 (1.1)
More information(1) (2) (1) (2) 2 3 {a n } a 2 + a 4 + a a n S n S n = n = S n
. 99 () 0 0 0 () 0 00 0 350 300 () 5 0 () 3 {a n } a + a 4 + a 6 + + a 40 30 53 47 77 95 30 83 4 n S n S n = n = S n 303 9 k d 9 45 k =, d = 99 a d n a n d n a n = a + (n )d a n a n S n S n = n(a + a n
More information1.7 D D 2 100m 10 9 ev f(x) xf(x) = c(s)x (s 1) (x + 1) (s 4.5) (1) s age parameter x f(x) ev 10 9 ev 2
2005 1 3 5.0 10 15 7.5 10 15 ev 300 12 40 Mrk421 Mrk421 1 3.7 4 20 [1] Grassberger-Procaccia [2] Wolf [3] 11 11 11 11 300 289 11 11 1 1.7 D D 2 100m 10 9 ev f(x) xf(x) = c(s)x (s 1) (x + 1) (s 4.5) (1)
More informationさくらの個別指導 ( さくら教育研究所 ) A 2 2 Q ABC 2 1 BC AB, AC AB, BC AC 1 B BC AB = QR PQ = 1 2 AC AB = PR 3 PQ = 2 BC AC = QR PR = 1
... 0 60 Q,, = QR PQ = = PR PQ = = QR PR = P 0 0 R 5 6 θ r xy r y y r, x r, y x θ x θ θ (sine) (cosine) (tangent) sin θ, cos θ, tan θ. θ sin θ = = 5 cos θ = = 4 5 tan θ = = 4 θ 5 4 sin θ = y r cos θ =
More information23 1 Section ( ) ( ) ( 46 ) , 238( 235,238 U) 232( 232 Th) 40( 40 K, % ) (Rn) (Ra). 7( 7 Be) 14( 14 C) 22( 22 Na) (1 ) (2 ) 1 µ 2 4
23 1 Section 1.1 1 ( ) ( ) ( 46 ) 2 3 235, 238( 235,238 U) 232( 232 Th) 40( 40 K, 0.0118% ) (Rn) (Ra). 7( 7 Be) 14( 14 C) 22( 22 Na) (1 ) (2 ) 1 µ 2 4 2 ( )2 4( 4 He) 12 3 16 12 56( 56 Fe) 4 56( 56 Ni)
More information15
15 1...1 1-1...1 1-1-1...1 1-1-2...3 1-1-3...4 1-1-4...5 1-2...5 1-2-1...5 1-2-2...6 1-3...6 1-3-1...6 1-3-2...7 1-3-3...8 1-3-4...8 1.4 Co-Pt...9 1.5...9 2...10 2-1...10 2-1-1...10 2-1-2...10 2-2...11
More informationRAA-05(201604)MRA対応製品ver6
M R A 対 応 製 品 ISO/IEC 17025 ISO/IEC 17025は 試験所及び校正機関が特定の試験又は 校正を実施する能力があるものとして認定を 受けようとする場合の一般要求事項を規定した国際規格 国際相互承認 MRA Mutual Recognition Arrangement 相互承認協定 とは 試験 検査を実施する試験所 検査機関を認定する国際組織として ILAC 国際試験所認定協力機構
More information[ ] (Ising model) 2 i S i S i = 1 (up spin : ) = 1 (down spin : ) (4.38) s z = ±1 4 H 0 = J zn/2 i,j S i S j (4.39) i, j z 5 2 z = 4 z = 6 3
4.2 4.2.1 [ ] (Ising model) 2 i S i S i = 1 (up spin : ) = 1 (down spin : ) (4.38) s z = ±1 4 H 0 = J zn/2 S i S j (4.39) i, j z 5 2 z = 4 z = 6 3 z = 6 z = 8 zn/2 1 2 N i z nearest neighbors of i j=1
More information物理化学I-第12回(13).ppt
I- 12-1 11 11.1 2Mg(s) + O 2 (g) 2MgO(s) [Mg 2+ O 2 ] Zn(s) + Cu 2+ (aq) Zn 2+ (aq) + Cu(s) - 2Mg(s) 2Mg 2+ (s) + 4e +) O 2 (g) + 4e 2O 2 (s) 2Mg(s) + O 2 (g) 2MgO(s) Zn(s) Zn 2+ (aq) + 2e +) Cu 2+ (aq)
More informationK 吸収端 XAFS 用標準試料 Ti Ti-foil 金属箔 縦 1.3 cm 横 1.3 cm 厚さ 3 µm TiO2 anatase ペレット φ 7 mm 厚さ 0.5 mm 作製日 TiO2 rutile ペレット φ 7 mm 厚さ 0.5 mm 作製日 2017.
あいち SR BL5S1 硬 X 線 XAFS ビームライン Ⅰ 標準試料リスト 周期表のリンクをクリックすると 各元素の標準試料リストに飛びます 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 H He Li Be B C N O F Ne Na Mg Al Si P S Cl Ar K Ca Sc Ti V Cr Mn Fe Co Ni Cu Zn Ga
More informationCanvas-tr01(title).cv3
Working Group DaiMaJin DaiRittaikaku Multiparticle Jiki-Bunnsekiki Samurai7 Superconducting Analyser for Multi particles from RadioIsotope Beams with 7Tm of bending power (γ,n) softgdr, GDR non resonant
More information1 9 v.0.1 c (2016/10/07) Minoru Suzuki T µ 1 (7.108) f(e ) = 1 e β(e µ) 1 E 1 f(e ) (Bose-Einstein distribution function) *1 (8.1) (9.1)
1 9 v..1 c (216/1/7) Minoru Suzuki 1 1 9.1 9.1.1 T µ 1 (7.18) f(e ) = 1 e β(e µ) 1 E 1 f(e ) (Bose-Einstein distribution function) *1 (8.1) (9.1) E E µ = E f(e ) E µ (9.1) µ (9.2) µ 1 e β(e µ) 1 f(e )
More information<90CE90EC88E290D55F955C8E862E656336>
5 5 9 9 7 7 5 5 6 6 7 7 8 8 9 9 8 8 8 8 79 79 78 78 76 76 77 77 7 7 6 7 7 5 68 68 67 67 66 66 65 65 6 6 6 6 6 6 6 6 6 6 59 59 58 58 57 57 56 56 55 55 5 5 8 8 5 5 9 9 9 8 7 9 9 8 8 7 7 6 6 5 5 5 5 69 69
More information_XAFS_ichikuni
Applied Chemistry and Biotechnology Many elements can be a candidate for developing the active catalyst. However, there are some restrictions such as cost, abundance, etc. Platinum group metals show the
More informationFig. 4. Configuration of fatigue test specimen. Table I. Mechanical property of test materials. Table II. Full scale fatigue test conditions and test
(J. Soc. Mat. Sci., Japan), Vol. 52, No. 11, pp. 1351-1356, Nov. 2003 Fatigue Life Prediction of Coiled Tubing by Takanori KATO*, Miyuki YAMAMOTO*, Isao SAWAGUCHI** and Tetsuo YONEZAWA*** Coiled tubings,
More information1 d 6 L S p p p p-d d 10Dq 1 ev p-d d 70 % 1: NiO [3] a b CI c [5] NiO Ni [ 1(a)] Ni 2+ d 8 d 7 d 8 + hν d 7 + e d 7 1(b) d 7 p Ni 2+ t 3 2g t3 2g e2
3 3.1 3.1.1 - d s p d 3d d d d d d d 10 23 d d 1954 [1] d d 1970 I-II-VI 2 II-VI II 1:1 I III CuAlS 2 Al 3+ d 5 Fe 3+ d 5 S 3p d 6 L L [2] configuration interaction: CI d 5 1 1 d 6 L S p p p p-d d 10Dq
More information1 2 LDA Local Density Approximation 2 LDA 1 LDA LDA N N N H = N [ 2 j + V ion (r j ) ] + 1 e 2 2 r j r k j j k (3) V ion V ion (r) = I Z I e 2 r
11 March 2005 1 [ { } ] 3 1/3 2 + V ion (r) + V H (r) 3α 4π ρ σ(r) ϕ iσ (r) = ε iσ ϕ iσ (r) (1) KS Kohn-Sham [ 2 + V ion (r) + V H (r) + V σ xc(r) ] ϕ iσ (r) = ε iσ ϕ iσ (r) (2) 1 2 1 2 2 1 1 2 LDA Local
More information07.報文_及川ら-二校目.indd
8 01 01 4 4 1 5 16 18 6 006 H 18 4 011 H 6 4 1 5 1 5 007 H 19 5 009 1 5 006 007 009 011 9 10 4 000 H 1 4 5 004 H 16 4 004 009 H 1 5 4 4 5 1 4 006 011 1 1 4m 5m 10m 007 1 7 009 009 1 5 10 1 000kg 10a 006
More information特-4.indd
1 000 Ni-Cr Tribological Characteristics of Ni-Cr Alloy at 1 000 C in Air R&D 1 000 Ni-Cr 1 000 Ni-Cr alloy sliding tests in atmosphere at 1 000 C were carried out and the process in which a glazed oxide
More information6 2 T γ T B (6.4) (6.1) [( d nm + 3 ] 2 nt B )a 3 + nt B da 3 = 0 (6.9) na 3 = T B V 3/2 = T B V γ 1 = const. or T B a 2 = const. (6.10) H 2 = 8π kc2
1 6 6.1 (??) (P = ρ rad /3) ρ rad T 4 d(ρv ) + PdV = 0 (6.1) dρ rad ρ rad + 4 da a = 0 (6.2) dt T + da a = 0 T 1 a (6.3) ( ) n ρ m = n (m + 12 ) m v2 = n (m + 32 ) T, P = nt (6.4) (6.1) d [(nm + 32 ] )a
More informationTGS(Tri-glycine sulfate, TGS)
E s s E D-E FerromagnetisFerroeletris (polar) + T Curie-Weiss sµc/m NaKC 4 H 4 O 6-4H O,RSRS Goettingen( Valasek19 ). -18 4 KH O 4 Bush, Sherrer,1935 KH O 4 Slater(1941) BaTiO 3 Wul, Wainer, Ogawa,1943
More information(素案)ナノ物質の管理に関する検討会(第1回) 参考資料2 報告書 P56~P80
56 (ex. EB CFRP ( ) And more Li 57 100% 60 1.73 g/cm3 0.6 g/cm3 ex. sp2 58 59 (Soot) C60 C70 60 61 µ µ 62 63 64 ZnO 4000 19 UV 65 g/mol 81.37 g/cm3 5.6 1.92.01 45 1975 66 ( ), ( ), 67 30wt% 68 2007 49,189
More information[1] 2 キトラ古墳天文図に関する従来の研究とその問題点 mm 3 9 mm cm 40.3 cm 60.6 cm 40.5 cm [2] 9 mm [3,4,5] [5] 1998
18 1 12 2016 キトラ古墳天文図の観測年代と観測地の推定 2015 5 15 2015 10 7 Estimating the Year and Place of Observations for the Celestial Map in the Kitora Tumulus Mitsuru SÔMA Abstract Kitora Tumulus, located in Asuka, Nara
More informationfma20.PDF
PZT TSC Measurement for Degraded and Damaged PZT Thin Films Capacitors Prepared by Sputtering. FeRAM MFIS : XRD, TEM : XRF, EDS, EPMA, SIMS : SPM, NDM? DLTS DLTS (TSC) (TSC) fatigue,, ( ) (1) (2) J T TSC
More informationC 3 C-1 Cu 2 (OH) 3 Cl A, B A, A, A, B, B Cu 2 (OH) 3 Cl clinoatacamite S=1/2 Heisenberg Cu 2+ T N 1 =18K T N 2 =6.5K SR T N 2 T N 1 T N 1 0T 1T 2T 3T
C 3 C-1 Cu 2 (OH) 3 Cl A, B A, A, A, B, B Cu 2 (OH) 3 Cl clinoatacamite S=1/2 Heisenberg Cu 2+ T N 1 =18K T N 2 =6.5K SR T N 2 T N 1 T N 1 0T 1T 2T 3T 4T 5T 6T C (J/K mol) 20 18 16 14 12 10 8 6 0 0 5 10
More information9 Nippon Shokuhin Kagaku Kogaku Kaishi Vol. /,, No.0,,/+,/0 (,**/) 251 * * E#ects of Microbial Transglutaminase on Melting Point and Gel property of G
9 Nippon Shokuhin Kagaku Kogaku Kaishi Vol. /,, No.0,,/+,/0 (,**/) 251 * * E#ects of Microbial Transglutaminase on Melting Point and Gel property of Gelatins Takahiko Soeda, Tomoko Kaneko*, Akiko Hokazono,
More information北アルプス_燕岳~穂高_-2.doc
1 ( )22 2001 2226 30 1300m 27kg 2 JR 1000 22 10 3 500-400 au 300 N 2763m 4 N N 10 N 500m PM9:00 5 ( 2 ) 7 23 2001 2226 10 N N 40 10 30 6 5m N N N 12 3 49 30 20 2922m 7 K ( ) U S N ( ) 50 15 N 35 (2758m)
More information薄膜結晶成長の基礎3.dvi
3 464-8602 1 [1] 2 3 (epitaxy) (homoepitaxy) (heteroepitaxy) 1 Makio Uwaha. E-mail:uwaha@nagoya-u.jp; http://slab.phys.nagoya-u.ac.jp/uwaha/ 2 3.1 [2] (strain) r u(r) ɛ αγ (r) = 1 ( uα + u ) γ (3.1) 2
More informationJ. Jpn. Inst. Light Met. 65(6): 224-228 (2015)
65 62015 224 228 ** Journal of The Japan Institute of Light Metals, Vol. 65, No. 6 (2015), 224 228 2015 The Japan Institute of Light Metals Investigation of heat flow behavior on die-casting core pin with
More information