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玻璃漏斗 Glass funnel long stem' [ i5 U, l1 k7 L& c2 y" u
试管 test tube test tube brush test tube holder test tube rack s9 t! b* |) {
蒸发皿 evaporating dish small5 i0 U# J: U+ R* ~' j( \+ w% Y
烧杯 beaker
, S* q* _7 @1 V- T锥形瓶 Erlenmeyer
% @* Z+ S2 z* R. b) a量筒 grad cylinder4 L3 K" R$ t& w' X* w2 a5 m+ l
洗瓶 plastic wash bottle
6 }/ h- R$ D& H9 v X3 `勺皿 casserole ,small stoppered flask + D6 M0 Z# n; l
分液漏斗 separalory funnel
9 E5 c' u2 V" M! j3 nwarter bath/oil bath
' `# a; g1 k0 Y) g8 f3 X* W/ | Jstrring bar# r$ e3 w- \! N5 F/ @/ U
magnetic stirrer# s( b- i4 L8 Z
冷凝器 condenser
, x9 }1 P/ \; u3 x5 @Ballast bottle
/ F$ w) f8 [# V9 W9 C; \圆颈烧瓶 Round-bottom flask
0 }8 W, i2 g- S: z! c试剂瓶 reagent bottles
: [) Y8 P+ M9 I1 S托盘天平 platform balance 台秤+ O9 Y+ A3 l) U9 z1 d4 m3 p& `
0.1g 托盘pan 指针刻度表pointer and scale9 C7 n/ J( G5 U0 j; c5 _
crossbeams and sliding weights 游码
' ?2 g( `- @5 G* q7 U2 r: w" o- Q分析天平 two-pan/single-pan analytical balance
5 m* p; t h! E( G9 I滴定管 burette glass bead(basic) nozzle, L0 M. ~; J$ v/ h# v
移液管 pipette 胖肚 elongated glass bulb $ _8 l- r+ _( E8 m S1 C# N/ N |6 q7 ~
洗耳球 rubber suction bulb
C: r1 d9 G* T* N. Z玻棒 glass rod
) t! g! _( J* o4 R8 ]9 S. W7 S$ _玻璃活塞 stopcock1 X( w. {; x; e3 c
容量瓶 pyknowmeter flasks
4 U9 \' L0 v$ F/ R1 S比重瓶 (one-mark)volumetric flasks- d% ^% f& y5 S+ ^/ ~9 ~1 I
胖肚吸管 one-mark pipette/ R; o% _3 r3 p7 W: q- i6 `6 U, h
刻度吸管 graduated pipettes
) S9 O$ n% k( B; H. z, I9 W- J锥形瓶(conical flask) 250ml×4 药匙(medicine spoon)×1
1 ~! U% r. p! m, v; H" ]& R(Erlenmeyer flask) 100 ml×3 滴管(drip tube;dropper)×2( Z U# x. U# _" k# }2 J3 i
烧杯(beaker) 500 ml×1 玻棒(Glass stic)×2
' f, K- k: ?5 b# J250 ml×3 木试管夹(test tube clamp;test tube holder)×1
7 } l! _- c8 {9 z100 ml×3 胖肚吸管(straws) 25 ml×1
: y, X: n+ l( c2 f50 ml×2 10 ml×1
5 b9 @# P5 [0 y& U容量瓶(volumetric flask) 100 ml×2 乳钵(morta)×1
4 X. X4 [' s' f# X7 w50 ml×4 洗耳球(ear washing bulb)9 \2 d* H1 N. M8 }$ c, K
碘量瓶 (Iodine numoe flask; iodine flask) 500 ml×3
" c) Q8 N. v+ Z# m试剂瓶 (reagent bottle) (无色)×2 _; s0 f* t! [3 }
(棕色)×2 配洗液:8 r& S8 Z" [; x. q0 ^
量筒(cylinder) 100 ml×1 K2Cr2O72g+5ml水→65mlH2SO4
& B$ K' [! \) N( ?+ U) ?(graduated cylinder)10ml×1 边加边搅拌(stir)。
1 h6 a/ {: @9 Y$ d+ t3 G铁支架(siderocradle)+蝴蝶架1 S+ F3 c. Z/ t- a
白瓷板(White Porcelain Board ) (一)清点仪器(to count;to make an inventory)
6 ?; C' S! {; H" ^, ?" L酸式滴定管(Acid burette) 25 ml×1 配洗液 (Lotion)& }9 y2 B3 d- F& {
碱式滴定管(Alkali burette)25 ml×1 一般仪器的洗涤. s# H7 ^ p4 m4 _1 x
直型冷凝器(rectocondensor)×1 容量瓶(volumetric flask): ^# ]( |* a2 M/ O p% e" [
漏斗架 (funnel stand) ×2 移液管(pipe)
6 {. ^8 {$ W6 y0 i* L! P: S- b. A: U水浴锅(water bath kettle) ×1
0 o- B9 s$ Z; D+ x f8 u温度计(Thermometer;hygrometer;hydroscope) ×1
4 j6 w/ @. `# ]8 D0 u4 z电炉(electric furnace;electric hot plate;electric stove) 四人一个 , e3 l1 d- }! V
分析化学:analytical chemistry
" J1 X! C# U0 g1 q2 H定性分析:qualitative analysis
7 E+ L! f6 c3 h$ [定量分析:quantitative analysis2 }" _) Z# a; n; ~' s8 I7 R2 Z
物理分析:physical analysis, e1 O, Q) j# p
物理化学分析:physico-chemical analysis
; o( n# e0 B `. r4 D8 ~4 F9 N仪器分析法:instrumental analysis3 F q9 b5 \8 X) P5 {0 i) ~2 @+ `
流动注射分析法:flow injection analysis;FIA# A, T; z) Q3 d5 q8 l" ~6 f
顺序注射分析法:sequentical injection analysis;SIA
5 ^( R1 u# f! P6 G3 ^4 D化学计量学:chemometrics
6 m( C) j/ Q# J. f& E绝对误差:absolute error
+ F* V1 R+ }8 z8 W相对误差:relative error( K, h( F/ o# `% d k
系统误差:systematic error1 z w: b2 h) X5 F. p/ c
可定误差:determinate error
) f" y4 u/ n" ?+ U" O, M随机误差:accidental error
* d5 B6 c9 X4 T; j不可定误差:indeterminate error& s2 {; q B# q- r: N
准确度:accuracy
* c; M# Q8 |% r精确度:precision! B8 ~: I W" X5 \* }. d. q
偏差:debiation,d
: _9 N& n9 o" i) B平均偏差:average debiation. c/ |4 E3 Z$ p, K
相对平均偏差:relative average debiation# R1 `& h& @. R$ y
标准偏差(标准差):standerd deviation;S$ Z6 `3 `$ s+ A! F2 d8 s
相对平均偏差:relatibe standard deviation;RSD) P H1 e* F9 Z' o; u
变异系数:coefficient of variation3 e& ?: k% L: E& a$ N. @! E
误差传递:propagation of error
# ?2 E; Z. g; v; n2 S! h$ H7 O有效数字:significant figure) c; q q2 J( b& a7 r/ q, s8 j
置信水平:confidence level
, P6 x1 G0 y) j5 @( E$ s- X# g/ h) G显著性水平:level of significance
% F6 X+ {1 b' t W8 C. `合并标准偏差(组合标准差):pooled standard debiation3 a) g, p) `) d, p4 k, }
舍弃商:rejection quotient ;Q : _& d7 |2 m+ d. F n# N: I& R! F
滴定分析法:titrametric analysis$ Z7 Y, _- h0 D+ X* M- z! m
滴定:titration
]* Z1 j# s! i% h6 Q, n容量分析法:volumetric analysis3 I6 K6 p% w E4 Q
化学计量点:stoichiometric point
" ^& S0 g( ]' D等当点:equivalent point) Z9 {% ^$ Z. f8 c5 Q7 V% w
电荷平衡:charge balance2 E" j' o( J g
电荷平衡式:charge balance equation
$ m S! {1 ?1 L$ F& X8 T/ l m3 i( W质量平衡:mass balance0 v$ m& `6 u% B# Y
物料平衡:material balance; \# b& A$ _2 E
质量平衡式:mass balance equation" k. M+ \9 D9 V0 _9 W
酸碱滴定法:acid-base titrations! ?+ \/ s, \. b
质子自递反应:autoprotolysis reaction
( W; y4 s0 A+ t' s7 J质子自递常数:autoprotolysis constant( E0 D/ Z' o" u7 ]+ k( r3 ^
质子条件式:proton balance equation5 K$ w/ t1 S* ^. e
酸碱指示剂:acid-base indicator
. l+ R7 ~' r- x指示剂常数:indicator constant8 u; \! {5 X& D7 y- d2 f1 d
变色范围:colour change interval ! P) Z, \/ z; j( B) Q# p- Y, O6 R
混合指示剂:mixed indicator, j W; f7 W1 L
双指示剂滴定法:double indicator titration( u% \- T: k/ S0 M; Q
非水滴定法:nonaqueous titrations/ ^0 x# g3 ?" d& n$ L
质子溶剂:protonic solvent 4 X' L: y7 L/ w/ S% k# n+ \
酸性溶剂:acid solvent
# i, v& A+ ]/ U' F; I碱性溶剂:basic solvent
9 y1 ~" M/ a1 q4 L8 r0 |两性溶剂:amphototeric solvent , @/ M% {% {; i* h g
无质子溶剂:aprotic solvent
# g, S: C1 P; `4 s% o+ y0 o5 P5 X均化效应:differentiating effect& D R/ c- r0 q# l
区分性溶剂:differentiating solvent
9 d- L4 z. b) ^+ w8 ^ K* P离子化:ionization6 U, a; J& v8 u# f; u
离解:dissociation& ]( I8 k; l$ j* ?3 ^
结晶紫:crystal violet5 a2 E8 ~' w" i8 x6 ]0 S' ^; c
萘酚苯甲醇: α-naphthalphenol benzyl alcohol
) x1 i* w0 [+ Q+ K( p M& N奎哪啶红:quinadinered. a2 v' t9 `3 X
百里酚蓝:thymol blue- ~+ g3 H' v# @7 S: N* N, d+ s& ?
偶氮紫:azo violet
2 Q! u8 ^3 i9 f4 G$ z溴酚蓝:bromophenol blue
! j- g* K! @; t4 r V3 r配位滴定法:compleximetry. [3 c4 o/ f0 w) {
乙二胺四乙酸:ethylenediamine tetraacetic acid,EDTA0 ?" w% s4 M6 C& E
螯合物:chelate compound
2 t* C$ K; X7 b) L. r3 }金属指示剂:metal lochrome indcator
4 |; i. ^ {9 P- d3 A$ `氧化还原滴定法:oxidation-reduction titration
& N. G. w8 O! ?碘量法:iodimetry1 J* j( D6 J8 d2 R' \
溴量法:bromimetry ]5 a( q8 s# q& w$ C) v( i O) w9 c
溴量法:bromine method& \' u& f4 \4 X9 Z7 e1 W% ?6 R
铈量法:cerimetry! x0 O9 E" _* t. n2 v
高锰酸钾法:potassium permanganate method0 H! s: M; n; K/ `1 n* N" W" b D
条件电位:conditional potential
& r: j# q e; B1 |溴酸钾法:potassium bromate method w7 i0 F: I/ {$ Z/ ]* H& r1 b
硫酸铈法:cerium sulphate method( @; f8 k" _# g( a' q A5 K/ w. K
偏高碘酸:metaperiodic acid
4 _- d$ C1 f6 n: c* l/ ~3 r高碘酸盐:periodate
! j2 V/ T6 N7 h' f亚硝酸钠法:sodium nitrite method$ a9 q y }+ V9 Q. l. N. W
重氮化反应:diazotization reaction% t* A" q! f0 _4 |% H+ A5 S
重氮化滴定法:diazotization titration0 G6 u2 D7 V6 @& ~& r; E* p; |
亚硝基化反应:nitrozation reaction
H" G" P! F. S' q- {亚硝基化滴定法:nitrozation titration
# Q: ]2 T* Z8 V外指示剂:external indicator
$ D! E* f. L; E; s外指示剂:outside indicator
' L, ]/ I$ O3 C1 g' z1 }重铬酸钾法:potassium dichromate method
$ y$ d: e, F( | H5 y9 D3 S沉淀滴定法:precipitation titration
% F% U3 c5 ]6 m) j- Y容量滴定法:volumetric precipitation method
0 p+ W8 \0 Y: `* b. a# M银量法:argentometric method
2 u+ f7 ], D: J9 \) a( T8 {8 h- [重量分析法:gravimetric analysis
# i4 p: q+ v, T4 W: z6 G挥发法:volatilization method) p9 q9 `7 ]8 S; q7 U6 c* |/ Y
引湿水(湿存水):water of hydroscopicity
+ X/ q- m: \5 i. g7 G包埋(藏)水:occluded water
& S, ]7 i0 V8 \' b6 k3 x吸入水:water of imbibition
: \8 ^' n1 t# w3 z: v) G% ^1 b0 N结晶水:water of crystallization
0 ?) ~7 |$ B: E5 a h0 w0 i组成水:water of composition
* M/ x4 g W4 B Z# D液-液萃取法:liquid-liquid extration 5 |' Q1 t4 ~! Z
溶剂萃取法:solvent extration
( h$ r4 P8 b1 y- t" ~& }1 b' I# f反萃取:counter extraction& t1 s3 S4 L- O B' f! J% M
分配系数:partition coefficient1 B9 B6 Z' j( x% i) t
分配比:distribution ratio# @. F# i5 j* U/ r3 \
离子对(离子缔合物):ion pair, P/ L' M, v+ c! g8 h. ^
沉淀形式:precipitation forms
: b/ t: A. m" \) D7 g; L' u4 v称量形式:weighing forms1 ?3 P, r( X1 u0 A5 ^1 I: b
物理分析:physical analysis
) o1 F6 F, ^4 t+ t k物理化学分析:physicochemical analysis
8 ` h8 U8 C) d6 N仪器分析:instrumental analysis
+ A6 {9 v5 z1 B) P0 q4 O电化学分析:electrochemical analysis* q4 S3 J, w: E6 u8 ]: H
电解法:electrolytic analysis method
8 j% c) K5 v6 @5 @ u) ?电重量法:electtogravimetry
" j1 _: S: C3 D5 {' H: B库仑法:coulometry* q$ |# O7 \- F$ C* u% X( i
库仑滴定法:coulometric titration6 s3 M4 s/ R9 _8 {/ w, ?
电导法:conductometry" n2 I' Z/ o+ C' o9 U* `& a5 A
电导分析法:conductometric analysis
) z4 ]- e) T& Q. T3 t, l电导滴定法:conductometric titration6 ]% ^4 l2 e( n `
电位法:potentiometry
4 q6 D4 q6 s4 r! e# c* I直接电位法:dirext potentiometry- S. y% `/ ~$ g# U3 h4 J# N# c! h. I
电位滴定法:potentiometric titration6 B! u; s3 V7 q K: f9 e& S
伏安法:voltammetry
3 [% g4 b' m& s: U. j: K" K: D极谱法:polarography5 Y# g1 P( H. \ ^) t+ B+ P
溶出法:stripping method/ k A% G8 o. V8 g, V
电流滴定法:amperometric titration
% F/ u) C c1 o% o# A5 u化学双电层:chemical double layer
8 a* X# ^9 K7 Q! `3 Q& F8 D相界电位:phase boundary potential
, \& Z9 O0 R" Q* ?, H$ W x2 C1 w金属电极电位:electrode potential" Y' r- D4 i# l8 e
化学电池:chemical cell s1 ?9 C' S. l4 b( L9 h% d. `
液接界面:liquid junction boundary& z: t7 i4 A9 N) w3 t7 p( x0 S! S) P
原电池:galvanic cell
1 H, Z& \) O9 z电解池:electrolytic cell6 W3 S' S9 h1 h3 D
负极:cathrode. D; D4 e3 `' K# b
正极:anode
N. B$ v2 k2 c/ ~6 T5 Z0 N电池电动势:eletromotive force: b; J9 y2 _/ b" Y" {4 u
指示电极:indicator electrode
1 R. Y3 o, Y" y参比电极:reference electroade
: {" @! P5 v* R) X标准氢电极:standard hydrogen electrode
/ p! Q3 `( g/ N5 g. o一级参比电极:primary reference electrode
7 q( Z, n; E1 X0 w9 y6 T饱和甘汞电极:standard calomel electrode3 }$ E2 E2 c2 ^9 {( O5 |0 k7 U# H
银-氯化银电极:silver silver-chloride electrode) }0 Q# Y4 i |6 u; E& [" V
液接界面:liquid junction boundary2 m% c" e, W1 v4 Z
不对称电位:asymmetry potential
9 s- r8 E% W* @) ]( [' b表观PH值:apparent PH 0 [1 K) { r4 W; P: B/ @3 S
复合PH电极:combination PH electrode) r- ^+ E8 P f, Q
离子选择电极:ion selective electrode
4 p1 }' V+ q. Z0 w& v3 |2 e敏感器:sensor
( Z) q ^0 B. j1 B B. j* G晶体电极:crystalline electrodes+ s1 A+ q' v8 n/ s K
均相膜电极:homogeneous membrance electrodes/ ?8 Z% H* ?% c
非均相膜电极:heterog eneous membrance electrodes: \6 |: t2 _/ S( e, \
非晶体电极:non- crystalline electrodes
# o$ M# e: v) F. S. o7 t) L: y' M刚性基质电极:rigid matrix electrode9 p: s) E' s Q4 N: {0 _
流流体载动电极:electrode with a mobile carrier
) N% `% `5 ~" ?: i' k1 W气敏电极:gas sensing electrodes' N& ~9 S( g4 o+ B( ~/ F7 s( {
酶电极:enzyme electrodes
8 [( \0 b6 u( c+ c金属氧化物半导体场效应晶体管:MOSFET2 `, M! L$ F( Y- A0 V
离子选择场效应管:ISFET
, ]/ `2 _+ \: }8 Y) q5 k, \总离子强度调节缓冲剂:total ion strength adjustment buffer,TISAB
5 k3 p" p8 `8 J1 |7 y永停滴定法:dead-stop titration, w1 U: O$ b( s4 t. ?: Y1 J) g
双电流滴定法(双安培滴定法):double amperometric titration1 _* K5 O. I' H5 v3 X$ W3 y
普朗克常数:Plank constant
" g) D8 }) h, S% L2 e电磁波谱:electromagnetic spectrum0 ]* i5 v1 ?9 R& J
光谱:spectrum
& p6 o2 c X9 S& f' U1 c5 u% t光谱分析法:spectroscopic analysis
8 v. \3 N. O" ~原子发射光谱法:atomic emission spectroscopy
1 n: }" B4 J9 n; @质量谱:mass spectrum
- [! c8 ~. M$ A( u% b8 Q质谱法:mass spectroscopy,MS' m; N% {# ~1 H9 i
紫外-可见分光光度法:ultraviolet and visible spectrophotometry;UV-vis
7 T, B9 g7 @9 d% I9 V肩峰:shoulder peak
6 A7 x! Q! F/ ^* U' s末端吸收:end absorbtion
) S2 Q7 E# A+ v2 Z0 g生色团:chromophore
' m) Y: B2 }; s! a2 O2 P助色团:auxochrome3 L2 @% [( O$ z' A$ J, @% M" J
红移:red shift
: n- p" Q+ S. l( @长移:bathochromic shift8 d5 M; `. c4 l6 v7 Z# `
短移:hypsochromic shift3 q4 i( Q; D0 r, z6 X
蓝(紫)移:blue shift
' r' Q. g+ r ?% J* b t4 k7 q# t增色效应(浓色效应):hyperchromic effect
# P# ~1 _4 Y% n8 l, s; b减色效应(淡色效应):hypochromic effect
+ D4 B% l4 @: i1 E' i强带:strong band
: {# A* H3 [6 V) g: D弱带:weak band& Q( Z2 I, ^7 h# w& n% V* w
吸收带:absorption band; L$ Q3 q+ l! D% q
透光率:transmitance,T: G0 u, C1 n5 f) V
吸光度:absorbance
4 S2 s+ m r3 ]7 u' T, S谱带宽度:band width% j1 _5 F3 X( Y+ Z+ t1 ]1 \
杂散光:stray light4 I0 T H( T6 h8 c' v
噪声:noise
* p) ?* w r; ^$ C9 A暗噪声:dark noise9 ]% L9 m7 h6 |, H2 p4 X
散粒噪声:signal shot noise: a4 I/ X0 u% ~& O( o
闪耀光栅:blazed grating$ h G F0 p3 g# F
全息光栅:holographic graaing6 ?0 \8 }: V; Q. r- Q+ E
光二极管阵列检测器:photodiode array detector& @+ d5 `& s7 B; [; @& W3 B" h' `8 q
偏最小二乘法:partial least squares method ,PLS
7 p9 _* k' D; A4 {2 [6 P; h: `褶合光谱法:convolution spectrometry& H4 ]; r- l- B* w
褶合变换:convolution transform,CT2 c7 H' `" X- O% w- Y/ Z" Q& |
离散小波变换:wavelet transform,WT# u# x8 @1 D0 q
多尺度细化分析:multiscale analysis
6 c, _% c, C4 J$ h4 T3 C8 N, ~供电子取代基:electron donating group- O1 v9 _4 J* \7 K! V6 F/ g
吸电子取代基:electron with-drawing group
, {/ G: y$ V3 o1 ~: j5 K荧光:fluorescence
$ x# W$ q* y! d: G+ V3 t荧光分析法:fluorometry$ E( s4 d( S: ^
X-射线荧光分析法:X-ray fulorometry
. `' T5 V7 @1 Z) F原子荧光分析法:atomic fluorometry! p# ~" Q: V9 {* @# J% [" D
分子荧光分析法:molecular fluorometry5 ]9 N% \+ | K' n, p* w' e
振动弛豫:vibrational relexation6 c/ y" @/ Z: p3 c' D
内转换:internal conversion9 f) \! H& }! p+ L6 Q0 j0 F
外转换:external conversion' t C7 J4 T) e3 y
体系间跨越:intersystem crossing4 m8 R3 Q/ \5 M
激发光谱:excitation spectrum; K" c; N5 ^, Z
荧光光谱:fluorescence spectrum
8 B& ~- P6 F( U斯托克斯位移:Stokes shift7 x8 W6 V8 Q& e1 v2 ?; [
荧光寿命:fluorescence life time
9 B! X* Q( g9 n# {" _7 w荧光效率:fluorescence efficiency
, L% O* D% R2 l% D6 G* T V0 ~' ^+ R荧光量子产率:fluorescence quantum yield" T: y3 V, n: C; d# z
荧光熄灭法:fluorescence quemching method( i* K/ k, t9 l5 } e
散射光:scattering light4 H i2 I1 @- j$ s1 h6 D
瑞利光:Reyleith scanttering light8 n% o# \4 o; v: h
拉曼光:Raman scattering light( _* P1 i, R5 L# Y) i; e8 P
红外线:infrared ray,IR; |( E' P e* E) r3 |
中红外吸收光谱:mid-infrared absorption spectrum,Mid-IR
2 E5 k% Y( I/ N! y1 \) u远红外光谱:Far-IR3 R, C) j: @0 q6 b! Y9 w! d! I
微波谱:microwave spectrum,MV3 L2 ` M" K0 i% e. n
红外吸收光谱法:infrared spectroscopy" M* A% g6 v! B+ S% N
红外分光光度法:infrared spectrophotometry8 V9 Z* }8 l' Q/ w
振动形式:mode of vibration
\' b/ u% s. a8 y伸缩振动:stretching vibration3 c+ I+ X/ u1 k$ l: K, F
对称伸缩振动:symmetrical stretching vibration+ x4 \: q& I% b+ i
不对称伸缩振动:asymmetrical stretching vibration/ A+ Q- u" }5 f6 e! ^( N
弯曲振动:bending vibration" |8 ^& z& C2 `+ a! z
变形振动:formation vibration
, f% z7 o+ X1 {8 \$ T/ L面内弯曲振动:in-plane bending vibration,β
; P. T4 ]8 }+ ?* {剪式振动:scissoring vibration,δ
8 o3 B4 N5 F' [2 V* D4 _1 g面内摇摆振动:rocking vibration,ρ
. L5 p* o- f1 D核磁共振:nuclear magnetic resonance,NMR2 A: |" o7 E+ b- Z; W% A8 E
核磁共振波谱:NMR spectrum4 X0 ?9 M: M0 v2 X7 J, _" W
核磁共振波谱法:NMR spectroscopy( T h3 g1 T8 N0 U
扫场:swept field
7 _9 ^ G0 U' `7 X5 Z# Y扫频:seept frequency
/ ^# M* K a) C+ x) V8 [% J) V8 i! E连续波核磁共振:continuous wave NMR,CW NMR, J+ G# Q' T' b8 L- i# z
Fourier变换NMR:PFT-NMR,FT-NMR
& C/ X3 Z: }( ~( {8 ^二维核磁共振谱:2D-NMR
) @8 ~! D1 `% ~质子核磁共振谱:proton magnetic resonance spectrum,PMR& e. r3 j' k0 H
氢谱:1H-NMR, t" S! o1 Y( {+ O
碳-13核磁共振谱:13C-NMR spectrum,13CNMR
) n' i' r @" o7 E, V自旋角动量:spin angular momentum |
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发表于 2007-11-8 17:27:22