拞揷尋媶幒
榑暥徿丄島墘徿側偳
- 2000擭6寧丂忋抧抭戝丂壔妛斀墳摙榑夛丂億僗僞乕徿 忋抧抭戝丆岺摗憦丆崅桍惓晇丆拞揷廆棽丆乽掅壏儅僩儕僢僋僗扨棧朄偵傛傞1-僼僃僯儖-1-僾儘僺儞偲俶俷俀偺岝斀墳婡峔乿乯
- 2001擭10寧丂壛摗峅巙丂幙検暘愅妛夛帍丂榑暥徿(H. Kato, M. Ishihara, M. Nakata,
乬Resolution Enhancement in Mass Spectrometry by Autoregressive Deconvolution乭,
J. Mass Spectrom. Soc. Jpn., 49(5), 175-182 (2001).
- 2002擭俇寧丂拞揷廆棽丂擔杮壔妛夛墷暥帍丂桪廏榑暥徿(M. Nakata, 乬Dynamics
of molecules and clusters studied by low-temperature matrix-isolation infrared
spectroscopy and density-functional-theory calculations乭, Bull. Chem.
Soc. Jpn., 75(6), 1-17 (2002).
- 2003擭3寧丂擇尒擻帒丂擔杮壔妛夛弔婫擭夛丂妛惗島墘徿乮擇尒擻帒丆岺摗憦丆崅桍惓晇丆拞揷廆棽乽僷儖僗挻壒懍暘巕慄拞偵惗惉偟偨廘壔儊僠儖僋儔僗僞乕偺儅僩儕僢僋僗扨棧愒奜暘岝乿乯
- 2003擭10寧丂愒堜怢峴丂擔杮壔妛夛墷暥帍丂桪廏榑暥徿(N. Akai, I. Miura, S.
Kudoh, K. Shigehara, M. Nakata, 乬Lowest electronically excited triplet
states of 1,2,4,5-tetracyanobenzene and tetracyanopyrazine by matrix-isolation
infrared spectroscopy combined with density-functional-theory calculation乭,
Bull. Chem. Soc. Jpn., 76(10), 1927-1933 (2003)
- 2012擭11寧丂斞愹徦懢丂戞2夞CSJ壔妛僼僃僗僞2012丂桪廏億僗僞乕敪昞徿乮戝嶳壚庻巕丆屲搰寬懢丆怴柤庡婸抝丆嶳杮揟巎丆斞愹徦懢丆拞揷廆棽丆娭扟攷丆乽4-amino-6-oxopyrimidine寢徎偺怳摦暘岝亅寢徎懡宍傪棙梡偟偨暘巕娫憡屳嶌梡偺尋媶乿乯
- 2012擭11寧丂斞愹徦懢丂2012擭擔杮壔妛夛惣擔杮戝夛丂億僗僞乕徿乮戝嶳壚庻巕丆屲搰寬懢丆怴柤庡婸抝丆嶳杮揟巎丆斞愹徦懢丆拞揷廆棽丆娭扟攷丆乽4-amino-6-oxopyrimidine寢徎偵偍偗傞暘巕娫憡屳嶌梡偑悈慺寢崌嵔偺怳摦偵媦傏偡岠壥乿乯
- 2014擭俆寧丂旙岥揘晇丂戞62夞幙検暘愅憤崌摙榑夛偵偍偄偰丄乭岟楯徿乭傪庼梌丏
- 2016擭俆寧丂擇尒擻帒丂擔杮暘岝妛夛徿乽彠椼徿乿
- 2017擭6寧丂彲拞朑丂 RADIOISOTOPES帍乽榑暥彠椼徿乿
丂丂
拞揷尋僩僢僾儁乕僕傊