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School of Medicine, Nara Medical University@

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1. ‘åú±–ΖF, uŽ…‚ðo‚·‚·‚²‚¢’Ž‚½‚¿vi‚¿‚­‚܃vƒŠƒ}[V‘j,
@ ’}–€‘–[, pp.1-186, 2019.

2. ‘åú±–ΖF, uƒNƒ‚‚ÌŽ…‚ŃoƒCƒIƒŠƒ“viŠâ”g‰ÈŠwƒ‰ƒCƒuƒ‰ƒŠ[ j,
@@Šâ”g‘“X, pp.1-114, 2016.

3. ‘åú±–ΖF,uƒNƒ‚‚ÌŽ…‚̔閧v(Šâ”gƒWƒ…ƒjƒAV‘),
@@Šâ”g‘“X, pp.1-182, 2008.

4. ‘åú±–ΖF,uƒRƒ‰[ƒQƒ“‚̘bv(’†ŒöV‘),
@@’†‰›Œö˜_VŽÐ, pp.1-188, 2007.

5. ‘åè–ΖF, uƒNƒ‚‚Í‚È‚ºŽ…‚©‚ç—Ž‚¿‚È‚¢‚Ì‚©v(PHPV‘),
@@PHPŒ¤‹†Š, pp. 1-211, 2004.

6. ‘åú±–ΖF,uƒNƒ‚‚ÌŽ…‚̃~ƒXƒeƒŠ[v(’†ŒöV‘),
@@’†‰›Œö˜_VŽÐ, pp.1-186, 2000.


@’˜‘ˆê——



Žå‚È”­•\˜_•¶iŒ´’˜j

1. Shigeyoshi Osaki Yoichi Ishida and Kaoru Yamafuji,
@@@High Temperature Relaxation of Form ‡V
@@@Poly(vinylidene fluoride), Polymer Journal, 12,
@@@No.3, 171-176 (1980).

2. Shigeyoshi Osaki, A New Method for Quick
@@@Determination of Molecular Orientation in
@@@Poly(ethylene terephthalate) by Use of Polarized
@@@Microwaves, Polymer Journal, 19, No.7,
@@@821-828 (1986).

3. Shigeyoshi Osaki, Orientation test, Nature, 347,
@@@No.6289, 132 (1990).

4. Shigeyoshi Osaki, Spider silk as mechanical lifeline,
@@@Nature, 384, 419 (1996).

5. Shigeyoshi Osaki, A new microwave cavity
@@@resonator for determining molecular orientation
@@@and dielectric anisotropy of sheet materials,
@@@Review of Scientific Instruments
, 68,
@@@2518-2523 (1997).

6. Shigeyoshi Osaki, Distribution Map of Collagen
@@@Fiber Orientation in a Whole Calf Skin, The
@@@Anatomical Record
, 254, 147-152 (1999).

7. Shigeyoshi Osaki, Ultraviolet Rays Mechanically
@@@Strengthen Spiderfs Silks, Polymer Journal, 36,
@@@No.8, 657-660 (2004).

8.. Shigeyoshi Osaki, Spider silk violin strings with
@@@a unique packing structure generate a soft
@@@profound timbre, Physical Review Letters,
@@@108
, No.15, 154301-1 - 154301-5 (2012).


@Œ´’˜ˆê——



‘à‚È‚Ç

1.
‘åè–ΖF, •ªŽq”zŒü‚Ì‘ª’è–@‚Æ‘ª’è‘•’u‚Ìi•à,
@@@MOL, No.1, 92-100 (1988).

2. ‘åè–ΖF, ‚•ªŽqƒtƒBƒ‹ƒ€, ƒV[ƒg‚ÌŒõŠw“I
@@@”zŒü‘ª’è\•¡‹üÜ—¦‚ÌŽ©“®‘ª’è\,
@@@ƒRƒ“ƒo[ƒeƒbƒN, No.9, 17-21 (1989).

3. ‘åè–ΖF, ƒNƒ‚‚ÌŽ… \‚»‚Ì‹­“x‚©‚ç‚Ý‚½Œø—¦«‚Æ
@@@ˆÀ‘S«\, Œ»‘㉻Šw, 347, 29-35 (2000).

4. ‘åè–ΖF, “®•¨‚©‚çŠw‚Ô“V‘R‘@ˆÛ‚̃TƒCƒGƒ“ƒX
@@@\ƒNƒ‚‚ÌŽ…¥ƒ~ƒmƒ€ƒV‚ÌŽ…¥ƒRƒ‰[ƒQƒ“üˆÛ\,
@@@‘@ˆÛŠw‰ïŽ
, 58, 74-78 (2002)

5. ‘åè–ΖF, ƒRƒ‰[ƒQƒ“üˆÛ‚Ì”zŒü«‚ª¶‘Ì‘gD‚Ì
@@@‰^“®‹@”\‚ðŒˆ‚ß‚é -ƒ}ƒCƒNƒ”g‚É‚æ‚éV‚µ‚¢
@@@‘ª’è–@‚Ì“K—p-, “ޗLjãŠwŽGŽ, 56, 205-224
@@@(2005).

6. ‘åè–ΖF, ƒNƒ‚‚ÌŽ…‚̔閧, ‘@ˆÛŠw‰ïŽ, 62,
@@@42-47 (2006).

7. ‘åè–ΖF, ƒNƒ‚‚ÌŽ…‚Ń”ƒ@ƒCƒIƒŠƒ“‚ð’e‚­, Œ»‘㉻Šw,
@@@No. 11, 45-50 (2012).


@‘à“™ˆê——



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1.
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@@@ ‘ª’è•û–@, i“Á‹–“o˜^: 1507325j,
@@@ º˜a64”N(1989)7ŒŽ26“ú.

2. ‘åè–ΖFA“¡ˆä—Ç•F, ƒV[ƒg‚Ì”zŒü«‘ª’è•û–@,
@ @@i“Á‹–“o˜^:1569708j, •½¬2”N(1990)7ŒŽ10“ú.

3. ‘åè–ΖFA“¡ˆä—Ç•F, —U“d‘̃V[ƒg‚Ì”zŒü«–”‚Í
@@ @—U“d“Á«‚Ì‘ª’è•û–@, i“Á‹–“o˜^: 1673427j,
@@@ •½¬4”N(1992)6ŒŽ12“ú.

4. ‘åè–ΖFAŽðˆä´˜aA‰Y¼Œö‹`, Þ—¿‚Ì3ŽŸŒ³
@@@ •ûŒü‚Ì—U“d—¦‘ª’è•û–@, i“Á‹–Œö:
@@@ H7-076777j, •½¬7”N(1995)8ŒŽ16“ú.

5. Žðˆä´˜aA‘åè–ΖF, ƒŒƒ^[ƒf[ƒVƒ‡ƒ“‘ª’è•û–@,
@ @@i“Á‹–“o˜^:2701479j, •½¬10”N(1998)6ŒŽ19“ú.

6. ‘åè–ΖFA“¡ˆä—Ç•F, Method for measuring
@@@ orientation ofconstituents of sheets,
@@@ European Patent Office Publication
@@@ No. 0160488B1, 1985”N6ŒŽ11“ú.

7. ‘åè–ΖFAŽðˆä´˜aA“¡ˆä—Ç•F, System and
@@@ method for determining anisotropy of
@@@ light-transmitting sheet specimen, United
@@@States Patent
Patent No.: 4,849,623
@@@ Date of Patent: Jul. 18, 1989, 1989”N7ŒŽ18“ú.

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