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玻璃漏斗 Glass funnel long stem
. M* q3 v& O- ]( S- e8 ?试管 test tube test tube brush test tube holder test tube rack$ V5 E0 @$ ] ~/ P& w
蒸发皿 evaporating dish small: Q+ p# `' n' o/ j% q
烧杯 beaker& [7 B( r$ k9 x" _3 Q" O8 q
锥形瓶 Erlenmeyer5 R5 c6 U5 {4 z% l& j ^
量筒 grad cylinder% {8 C' O5 X8 }8 `3 M# r
洗瓶 plastic wash bottle( D- y) f" k& ^4 ^
勺皿 casserole ,small stoppered flask ) t- L1 Q' I0 d6 g, U
分液漏斗 separalory funnel& J- Z) ? d% L6 d* G/ B/ q4 Y3 `
warter bath/oil bath; `) K( Y! }; H5 D |* [' ^( Z) ~
strring bar1 m( w: ~7 i: { W. k2 E
magnetic stirrer9 G4 V1 V2 M) \5 z( Q
冷凝器 condenser5 E* [8 |* G9 P0 e
Ballast bottle
, ~ G2 w' v8 b3 U- h7 v, ]圆颈烧瓶 Round-bottom flask
- ~4 m# B: d# T( s4 A试剂瓶 reagent bottles
* i7 J4 h [% A% l r4 c托盘天平 platform balance 台秤7 X2 s+ q- _) X1 X3 W
0.1g 托盘pan 指针刻度表pointer and scale
2 p5 j$ L/ `1 k8 @ p$ R! fcrossbeams and sliding weights 游码
7 K0 o! z7 x# T) Z1 D分析天平 two-pan/single-pan analytical balance
1 M7 J, v6 f1 Q* L2 b- z# z滴定管 burette glass bead(basic) nozzle! _+ s8 _ ~0 p
移液管 pipette 胖肚 elongated glass bulb
, I1 l$ ?8 u" P1 R Q: E" E4 ?- t$ D洗耳球 rubber suction bulb: ]5 W8 u. H! B1 |0 g# E
玻棒 glass rod
, T3 u& Q5 d% ^( F3 k# y, h2 Y玻璃活塞 stopcock1 I- F) t2 i* S4 {& R/ E9 m( T
容量瓶 pyknowmeter flasks 6 o* n% p( z0 u% T; h
比重瓶 (one-mark)volumetric flasks
! T/ z, W/ n6 U! a胖肚吸管 one-mark pipette
( @: {; S- h- C( s% a刻度吸管 graduated pipettes
6 B. n: \& u* ], e0 M% C* H锥形瓶(conical flask) 250ml×4 药匙(medicine spoon)×1 8 M0 } i7 F" ]7 H0 Z2 w7 Q
(Erlenmeyer flask) 100 ml×3 滴管(drip tube;dropper)×2
2 N% W3 ?: j* [( p烧杯(beaker) 500 ml×1 玻棒(Glass stic)×2
/ {% G. u e# u8 B: a250 ml×3 木试管夹(test tube clamp;test tube holder)×1 - C8 ^' Q0 M8 j D; V
100 ml×3 胖肚吸管(straws) 25 ml×1
1 v' U; e$ z4 H H( o% C50 ml×2 10 ml×1- h8 x+ L3 m) ], H. p$ z) ~
容量瓶(volumetric flask) 100 ml×2 乳钵(morta)×18 T" c, I) V2 s" s1 E5 D
50 ml×4 洗耳球(ear washing bulb)
% a- z2 T" D$ F( E% F1 t碘量瓶 (Iodine numoe flask; iodine flask) 500 ml×3
$ G1 q# m$ ~! n7 W试剂瓶 (reagent bottle) (无色)×2
D. f. k2 W! P% i; K. ?. H(棕色)×2 配洗液:, U7 L! T$ u) I* ^0 g H
量筒(cylinder) 100 ml×1 K2Cr2O72g+5ml水→65mlH2SO4
+ b* y2 I3 t4 v/ R: [8 K(graduated cylinder)10ml×1 边加边搅拌(stir)。
& X7 ?7 p7 l2 v; W3 q铁支架(siderocradle)+蝴蝶架# U+ R3 T% x0 g- }: O h
白瓷板(White Porcelain Board ) (一)清点仪器(to count;to make an inventory)
! v C" S5 u4 }; j: ?酸式滴定管(Acid burette) 25 ml×1 配洗液 (Lotion)
1 ~# H. f% z2 Z a0 B/ E碱式滴定管(Alkali burette)25 ml×1 一般仪器的洗涤
! G! O- p; ?* D1 R, U7 G0 ~* \直型冷凝器(rectocondensor)×1 容量瓶(volumetric flask) \( t& P4 t$ R& f
漏斗架 (funnel stand) ×2 移液管(pipe)
@: r' P! c: G1 P9 r1 _水浴锅(water bath kettle) ×1
+ j- V' [8 L4 w! E3 i0 H2 s温度计(Thermometer;hygrometer;hydroscope) ×1 " {* \: Z1 Y3 C1 \+ D j
电炉(electric furnace;electric hot plate;electric stove) 四人一个
" T" l2 t- [- u( P0 O0 C& Q分析化学:analytical chemistry: e z& e5 ~5 `; d$ l
定性分析:qualitative analysis+ w p+ K ?6 v- @- M
定量分析:quantitative analysis# f! i/ @. b1 ^4 j
物理分析:physical analysis4 m, @! f% J$ D& P8 O# Z* l4 a9 r
物理化学分析:physico-chemical analysis2 U, `4 a3 I7 f1 U$ s
仪器分析法:instrumental analysis3 Z# q# l" `6 n( Q
流动注射分析法:flow injection analysis;FIA/ y5 p% E8 L1 H; k j3 }6 @
顺序注射分析法:sequentical injection analysis;SIA* Z; n0 o. G1 D
化学计量学:chemometrics
4 d$ \* y. E- ^. R, H绝对误差:absolute error
0 P' z" b2 u% \+ u1 ^- T" |相对误差:relative error
/ P4 N8 a( D" o ^- { }系统误差:systematic error: q0 B; J1 ?* K* E% {0 d
可定误差:determinate error
$ T x- E7 I. m/ e# x; }随机误差:accidental error
$ Y& d6 i& z5 ^2 P4 E不可定误差:indeterminate error
; V$ @4 X9 o. X2 }准确度:accuracy2 E' J& i1 ]# n7 M- j1 B D. v, x
精确度:precision
2 p. {+ n7 [$ b# V+ k% f) n偏差:debiation,d( R. ^9 @6 Y1 b9 Y- n; J! `
平均偏差:average debiation
Y' D* X. ~# k; S相对平均偏差:relative average debiation& y. W# ?8 D! T+ I# P1 z6 }
标准偏差(标准差):standerd deviation;S
6 T6 t) B2 `( e0 d* _; X7 A" Q相对平均偏差:relatibe standard deviation;RSD( ^ M) {/ A& N7 r) R. g/ c
变异系数:coefficient of variation2 q: i5 n4 h( V0 g* g# x4 h
误差传递:propagation of error
5 E9 R! e- Z, K# W7 J; ]) c有效数字:significant figure
; Q2 g/ m: n# a% @! B$ o; O& p/ I" m2 J置信水平:confidence level7 G. V2 q& k: F- s6 [* `& b/ e
显著性水平:level of significance+ A) i: W! B. X
合并标准偏差(组合标准差):pooled standard debiation" x) [' W2 ]7 @: [7 _
舍弃商:rejection quotient ;Q
% F9 H: `& q( U" @滴定分析法:titrametric analysis
* E8 }# `8 C' l& ?% v3 o7 k滴定:titration% q" M% l. g4 T/ d* o1 d
容量分析法:volumetric analysis
2 J) U. O) v4 e* n% c2 c% g/ G; c化学计量点:stoichiometric point4 l. Y# O! l7 Z0 R6 D: O* h
等当点:equivalent point, r3 C" g7 Y$ _
电荷平衡:charge balance
. d5 F( L3 [) b" U6 x1 I- }电荷平衡式:charge balance equation* ], Q8 E3 F) x. p6 z) W& A3 Q5 T
质量平衡:mass balance
: Y& h4 {, \0 ?8 I: a+ T5 g物料平衡:material balance
' Q1 _- r3 Q: y: R质量平衡式:mass balance equation
2 C# |% |6 C+ C酸碱滴定法:acid-base titrations
l8 I; \' |9 j+ |, U7 q质子自递反应:autoprotolysis reaction2 ]+ a. s h0 t
质子自递常数:autoprotolysis constant3 C1 Y: M& `/ E$ s
质子条件式:proton balance equation3 I( X! j& y: y5 q
酸碱指示剂:acid-base indicator" D- Y1 j L% L U) G, u
指示剂常数:indicator constant& y+ |- I1 {$ Y j- h
变色范围:colour change interval , z( f0 _- ]# k" T
混合指示剂:mixed indicator1 H7 K' O! C6 `& ?0 `) i/ ?
双指示剂滴定法:double indicator titration
9 h7 o" @) u( i9 j非水滴定法:nonaqueous titrations; q. C6 K- q6 D l$ y5 w9 |3 n
质子溶剂:protonic solvent ; u1 n( p+ @7 i
酸性溶剂:acid solvent $ q, R3 Q2 _$ |$ l- I# \% R
碱性溶剂:basic solvent * Z* V3 H7 n4 P( [
两性溶剂:amphototeric solvent
% l5 {8 b6 _( y/ X j% p, k无质子溶剂:aprotic solvent
) w O5 [: z6 A/ }6 G& _! N6 E均化效应:differentiating effect
$ A, i" i3 U- a" y) J2 K区分性溶剂:differentiating solvent 1 c, p# o$ P5 f3 E$ o
离子化:ionization
. k6 I! k# \3 E$ J4 j: [* r离解:dissociation
# C& s' y% j2 M* A& W8 ^ z结晶紫:crystal violet
) t" n% \: p6 ^! r: u3 S萘酚苯甲醇: α-naphthalphenol benzyl alcohol
% {! K* y* v4 S5 S8 [! ?奎哪啶红:quinadinered D1 f9 C- V9 [: W) \
百里酚蓝:thymol blue6 m. ~7 k+ W2 n! V9 `
偶氮紫:azo violet, o$ E( J- T5 t$ Y
溴酚蓝:bromophenol blue
5 h7 a# c/ [$ V& f r% ~& D' k配位滴定法:compleximetry0 U# O/ w2 I+ U! k' d% c' N
乙二胺四乙酸:ethylenediamine tetraacetic acid,EDTA
. n/ V5 A2 Z9 e I W! O4 i螯合物:chelate compound
2 J" L, f/ r1 y! |5 d2 F金属指示剂:metal lochrome indcator ' N, f6 Y. P* q @7 |* t% T/ Q# N8 U
氧化还原滴定法:oxidation-reduction titration
) x% [1 x9 \3 @: @0 q碘量法:iodimetry* N3 J9 B1 {$ k5 J. v: I: U4 F
溴量法:bromimetry ]. p q: w9 P8 n+ A2 C
溴量法:bromine method. w5 |: a1 k+ F+ `8 k* y
铈量法:cerimetry
" q* @# z7 l0 F0 g& Q# L5 C6 L高锰酸钾法:potassium permanganate method: x K+ Q! t9 R/ I! b
条件电位:conditional potential8 _3 v9 ]7 c8 X) P
溴酸钾法:potassium bromate method
- P8 ~1 y- r, T硫酸铈法:cerium sulphate method
, u7 g J7 u: ]偏高碘酸:metaperiodic acid
% f4 `2 V( B' ~- E高碘酸盐:periodate
3 j& Q" @" {( A; F0 p `7 |亚硝酸钠法:sodium nitrite method
$ G4 c4 O/ d/ r* S T! t重氮化反应:diazotization reaction8 z# l8 @ e2 i$ [ b
重氮化滴定法:diazotization titration
5 S" H7 Y8 ]( [$ c9 @ d: i# r3 |亚硝基化反应:nitrozation reaction
& j. v3 S5 Y( m8 X, Q! n亚硝基化滴定法:nitrozation titration, r5 A& |- V2 w/ [" L" `2 _6 m; j
外指示剂:external indicator
! \/ P! [; |& U0 F外指示剂:outside indicator; O9 |1 M1 b" o
重铬酸钾法:potassium dichromate method
1 a3 S( b: ~( y沉淀滴定法:precipitation titration
( j% E0 `* f3 s4 O容量滴定法:volumetric precipitation method ; O8 q$ J* p* }
银量法:argentometric method S; V, n: f: W& j
重量分析法:gravimetric analysis
^3 n# R0 a3 u/ |挥发法:volatilization method
9 k: k2 J3 U, `& ^引湿水(湿存水):water of hydroscopicity
) w3 E( d' x, Y4 \ d/ U* I包埋(藏)水:occluded water- e" e* a6 `. P) r# s
吸入水:water of imbibition
, b' Y- \- T, l3 w7 T/ w结晶水:water of crystallization/ p' @# h3 R/ q; D% [
组成水:water of composition
5 C! y4 q0 @) f" Y液-液萃取法:liquid-liquid extration
+ S- A w2 ]/ T) s' a+ t) D溶剂萃取法:solvent extration. B6 n9 Y# l& E9 {/ M; P+ D
反萃取:counter extraction8 L; k. W3 }2 K
分配系数:partition coefficient1 J, O: V/ a7 I6 j
分配比:distribution ratio8 L, Z1 Q$ l9 h ]1 Y
离子对(离子缔合物):ion pair [( J1 a0 k% A+ V( V- T- e
沉淀形式:precipitation forms
- W9 ?! [" [# O. [称量形式:weighing forms
) H$ a3 J! L0 @物理分析:physical analysis
5 ^# W& _% U+ H3 d" D& |4 p0 ]' Z" z物理化学分析:physicochemical analysis
- _$ L7 Z0 N& p3 O! J仪器分析:instrumental analysis/ Z5 q* Y9 D+ B7 s
电化学分析:electrochemical analysis
7 O1 \( d7 j3 X7 ]7 {5 H电解法:electrolytic analysis method0 A: X* E1 W7 B
电重量法:electtogravimetry
1 u/ K" N- P& o9 F5 S" \* ]3 H库仑法:coulometry M2 J8 B2 a4 R8 L
库仑滴定法:coulometric titration
. e" v# e3 J- P% u电导法:conductometry
U( h: i1 |) C' l* |. {9 a电导分析法:conductometric analysis
9 K7 P- C- G& p; O4 J5 ?电导滴定法:conductometric titration+ b! }- P @- X/ M& K/ X' l
电位法:potentiometry
% ]! o3 q1 o/ G/ x3 C+ F直接电位法:dirext potentiometry
7 p+ Q9 F5 h5 u R电位滴定法:potentiometric titration
6 z' k6 J# N: b. Z/ E3 J. X伏安法:voltammetry9 f0 t6 V; D6 T6 V- y
极谱法:polarography
9 B2 m4 o% ^2 d" v& I( C溶出法:stripping method
) g; X. H& B, q* N7 l电流滴定法:amperometric titration
4 y: E7 {" |; \. U! N% E0 T/ h2 Z化学双电层:chemical double layer
4 U e, l5 E2 d* X3 @相界电位:phase boundary potential& Z* R: D6 J& t
金属电极电位:electrode potential/ k8 o% I% K( ~* J
化学电池:chemical cell
2 R; W+ o* Q$ Q液接界面:liquid junction boundary8 a" i; z2 ?3 a0 ?$ M1 l5 M7 I% A
原电池:galvanic cell$ R6 e2 H( h G& Q9 H$ V
电解池:electrolytic cell
* H/ f1 V5 E( F0 i5 ?负极:cathrode
3 ?; S( w7 d3 U正极:anode6 \8 Q" G9 c3 y! ]0 o% H
电池电动势:eletromotive force. P: S- C# G7 `- i1 `$ a k
指示电极:indicator electrode3 e- P; R& Z; Y, N
参比电极:reference electroade
: R: i2 s2 e U2 h7 V标准氢电极:standard hydrogen electrode+ k! a0 P; ?' w; d
一级参比电极:primary reference electrode
3 R! R! E7 ]# W3 _5 `# M饱和甘汞电极:standard calomel electrode4 l: @3 y$ f8 Z+ l" |3 `
银-氯化银电极:silver silver-chloride electrode
+ A$ |! H4 I9 ^7 v7 x: |液接界面:liquid junction boundary! G: ]9 ~+ Z$ {& R: x' Q
不对称电位:asymmetry potential$ O8 ~- n* r P- H$ N" j6 z, Q
表观PH值:apparent PH
, E: y& O, s% G9 M. b: R复合PH电极:combination PH electrode6 H8 z! C- _# p* t
离子选择电极:ion selective electrode
6 |4 r* S6 q- B# p7 v, z敏感器:sensor0 z3 \. ] b6 n, y+ \! h, R; S
晶体电极:crystalline electrodes- x8 S# R8 h8 _$ d) w- s4 O
均相膜电极:homogeneous membrance electrodes
0 d* J# k2 E1 Q( o非均相膜电极:heterog eneous membrance electrodes7 A$ o# R- H- B
非晶体电极:non- crystalline electrodes
$ P7 x" z; D3 z- K刚性基质电极:rigid matrix electrode
; ?3 Y1 W @" Q' E( Z* s/ E流流体载动电极:electrode with a mobile carrier
- D; K. g, J5 s: C, D. a! ]: v气敏电极:gas sensing electrodes! Q4 l$ k# k1 w( v& x$ ~
酶电极:enzyme electrodes
& ^+ e: T8 a/ I3 K6 v; v. k0 l金属氧化物半导体场效应晶体管:MOSFET( J- ~3 {9 [2 Z; ]
离子选择场效应管:ISFET6 K$ L' [) z* `% t" l* V
总离子强度调节缓冲剂:total ion strength adjustment buffer,TISAB
) F2 B+ q1 _! o. |; D) X永停滴定法:dead-stop titration+ l$ F/ [7 r- @( H* M W$ m, ?! w
双电流滴定法(双安培滴定法):double amperometric titration) z1 M* |6 a: w7 T
普朗克常数:Plank constant
: w$ x' @% J8 Q6 ^# _电磁波谱:electromagnetic spectrum- r A1 B5 r; P) |
光谱:spectrum
% i0 y* V4 c1 ^9 z/ K# ` K光谱分析法:spectroscopic analysis& Q" g6 F% C+ ~1 \3 v
原子发射光谱法:atomic emission spectroscopy
; Q' x' @' B7 {) }+ l* ~3 P质量谱:mass spectrum
) D) ~; U& q" D: U& z% |0 J4 g质谱法:mass spectroscopy,MS+ P0 f+ u% L9 ?5 C- E3 u
紫外-可见分光光度法:ultraviolet and visible spectrophotometry;UV-vis
$ V# `6 H* ?7 g3 c+ |肩峰:shoulder peak
2 C$ ? `. R0 \+ e5 w+ I8 ` E, z0 k$ e末端吸收:end absorbtion
* F. O5 D1 ~/ m x生色团:chromophore
! W# a2 b+ m( C1 y: n7 j1 S4 D助色团:auxochrome3 n8 P( i' L6 e: n% ]
红移:red shift
- @1 r/ `/ P' _7 z0 R. O/ d长移:bathochromic shift
$ Z* u m5 V1 s6 b! g$ F! a$ I( A短移:hypsochromic shift, Y4 H, D9 e. S9 g/ p9 A- t7 e
蓝(紫)移:blue shift
1 x7 f! p( U6 T3 v. }1 `+ P& R增色效应(浓色效应):hyperchromic effect
( W z; G% ]8 C+ P- Y, A* K减色效应(淡色效应):hypochromic effect e* I% F, d1 ~3 u) x% b2 X
强带:strong band- @$ T x4 w v6 q$ i
弱带:weak band
7 }+ Z% J9 Q* N2 O9 `& ~吸收带:absorption band
3 M! l. Q: t1 i k透光率:transmitance,T, Q4 K; J$ Q" x( |, M. ^
吸光度:absorbance
$ I5 p& ]8 D2 n: L谱带宽度:band width
, ~( I; i, ~3 @* w& H杂散光:stray light
' d6 t! r) ]/ z: _: ^: d* }* R8 p噪声:noise / b: q3 S+ _7 ^) s
暗噪声:dark noise ^1 i) Y' k" G/ Y: h: d4 L
散粒噪声:signal shot noise
7 C% R" a2 z( z4 x% t' b# r闪耀光栅:blazed grating
+ R, ? P: ^. h2 t6 D2 Y5 ^全息光栅:holographic graaing% G- B$ {+ a5 ?" ]$ C
光二极管阵列检测器:photodiode array detector
5 B8 K/ A* v/ x4 B* B7 w$ I4 t2 Q偏最小二乘法:partial least squares method ,PLS
4 Y* ?3 V- \1 [褶合光谱法:convolution spectrometry4 D% {( G& O' G9 Z
褶合变换:convolution transform,CT
; r3 R! n! z1 L) j# w' x离散小波变换:wavelet transform,WT' g6 D4 i9 ~" p" E; _; @! e
多尺度细化分析:multiscale analysis5 Q# @, c$ u9 o! J
供电子取代基:electron donating group* z1 t+ q2 {8 r% b9 f( l, H; h6 ?- f
吸电子取代基:electron with-drawing group
% k9 E3 u& O) V& ?) X1 A! I荧光:fluorescence$ |6 I0 j# M( a9 V: i" F
荧光分析法:fluorometry0 T# m( T- J6 @# [5 M
X-射线荧光分析法:X-ray fulorometry
) a+ V3 g. L' q原子荧光分析法:atomic fluorometry
+ I+ _& K' d7 q% b2 ?5 t) Y' l分子荧光分析法:molecular fluorometry% T I5 m% G m7 K+ }
振动弛豫:vibrational relexation
/ u9 L6 d) y2 n* K内转换:internal conversion, ]+ D' N1 g# w2 V1 b
外转换:external conversion& _0 a. P+ h3 H% t- r
体系间跨越:intersystem crossing! \) d' J6 q6 v# w/ |# ]
激发光谱:excitation spectrum
/ B! b k1 m6 p1 g( T荧光光谱:fluorescence spectrum
" u* p- d1 V) ?) E- V S( w, ?斯托克斯位移:Stokes shift! ]! ?6 F1 v* B7 _7 O! N) O4 S
荧光寿命:fluorescence life time9 z7 @; j+ v2 L$ `' W- Y
荧光效率:fluorescence efficiency- X2 q) v+ J( C8 |
荧光量子产率:fluorescence quantum yield
) ~+ ?5 W1 q4 ~荧光熄灭法:fluorescence quemching method
! g6 @9 g+ {& s6 k6 f. r+ H散射光:scattering light( w9 E) B5 W z" `
瑞利光:Reyleith scanttering light' z9 [0 g4 K. `6 z
拉曼光:Raman scattering light
$ M- Z) w" u4 r2 Z& m, f2 U红外线:infrared ray,IR* I' F# `8 q+ p* w( f
中红外吸收光谱:mid-infrared absorption spectrum,Mid-IR3 b1 o& y' N* V. C/ \8 U) Z' B
远红外光谱:Far-IR+ e: f8 Z) R& q5 n }: A
微波谱:microwave spectrum,MV
0 s/ m/ `9 X- ?红外吸收光谱法:infrared spectroscopy
# n3 O0 N5 m9 K {! C+ f红外分光光度法:infrared spectrophotometry' ?+ P$ @8 R. S' e( C `4 @9 e2 H: S
振动形式:mode of vibration
5 h8 i+ V: W, H+ W/ D* f伸缩振动:stretching vibration
/ ?. q3 c D, C" B对称伸缩振动:symmetrical stretching vibration* { G( G+ g2 B" D5 A
不对称伸缩振动:asymmetrical stretching vibration3 o4 w* N9 _8 ?# m6 ^# z
弯曲振动:bending vibration
v ^2 g) Q' t$ {# q变形振动:formation vibration
7 w& F+ E7 L/ _& z y1 R" s: ^# U( L面内弯曲振动:in-plane bending vibration,β
+ Y) C/ Y' {) I8 G! _剪式振动:scissoring vibration,δ& o% T3 Y1 B4 R9 J: d# b1 _
面内摇摆振动:rocking vibration,ρ
; P8 B4 m( e3 x, }' j; c核磁共振:nuclear magnetic resonance,NMR
+ R& ~/ h# {" s* `核磁共振波谱:NMR spectrum
9 v7 h) @) |3 p5 W" O8 L# ?核磁共振波谱法:NMR spectroscopy6 E7 x& f2 B/ t0 x2 W4 ?3 Y
扫场:swept field
8 L% l6 a4 T: G! m# j% }扫频:seept frequency, O7 g0 j) n: m( }6 S+ H" E% _
连续波核磁共振:continuous wave NMR,CW NMR# j) K- [6 |8 g1 G; ~8 m& C; Q
Fourier变换NMR:PFT-NMR,FT-NMR
/ ~: |* z3 a5 W& i二维核磁共振谱:2D-NMR A' W. f1 i5 ?4 T
质子核磁共振谱:proton magnetic resonance spectrum,PMR
9 M) y, ?7 c- Z. s# m! w氢谱:1H-NMR! ^; R) v0 c$ j1 S6 d6 |
碳-13核磁共振谱:13C-NMR spectrum,13CNMR
- G' F6 f" \$ Z% {5 ?* b) V" Z自旋角动量:spin angular momentum |
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发表于 2007-11-8 17:27:22