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玻璃漏斗 Glass funnel long stem, ^* e) M; X O
试管 test tube test tube brush test tube holder test tube rack/ ]0 v2 I8 Q9 h2 [/ s$ @6 m
蒸发皿 evaporating dish small: s. L0 S: F6 X0 }' N! n
烧杯 beaker0 t3 V7 K, n2 C o/ N8 O' f
锥形瓶 Erlenmeyer+ z( y0 a9 B$ \% X- }* F
量筒 grad cylinder# C. [, {5 }% D/ B$ X
洗瓶 plastic wash bottle5 U0 v" G. T; A* u
勺皿 casserole ,small stoppered flask , c) N* l# L$ _4 |) r1 C% V
分液漏斗 separalory funnel0 Q3 ]; s( i2 a) c% \5 i) c
warter bath/oil bath
: h' f3 [( C {; Z% s- P6 g6 Pstrring bar7 W; B+ V7 I: |( r4 ~: T) ]
magnetic stirrer# q" t* |8 Q" j0 N, r3 f
冷凝器 condenser
: @2 a/ E2 F F/ [( c4 `8 PBallast bottle% j2 A; V# S; p/ |! ~
圆颈烧瓶 Round-bottom flask
- c. c! B4 F5 A0 |; B4 }试剂瓶 reagent bottles : l, P/ n- c6 A1 e! P6 i
托盘天平 platform balance 台秤
/ ]2 B$ F5 U, K3 V0.1g 托盘pan 指针刻度表pointer and scale
; B# k0 l+ c1 Wcrossbeams and sliding weights 游码( \0 {$ b% z0 K
分析天平 two-pan/single-pan analytical balance
' @+ o0 I* S8 N0 K7 I" P, J4 K滴定管 burette glass bead(basic) nozzle" R5 t# d% e# S7 E8 h
移液管 pipette 胖肚 elongated glass bulb 8 t9 L* N0 Q' Z! _1 [ D6 c. ]
洗耳球 rubber suction bulb! k$ H1 n# F! `, Z
玻棒 glass rod
+ F% q* y7 A6 ` F7 k1 ~玻璃活塞 stopcock
0 g- [- _9 G0 Y: V5 G) P, [容量瓶 pyknowmeter flasks 8 U1 M/ {9 `! n5 ]5 _9 a! ^+ l
比重瓶 (one-mark)volumetric flasks" _; C8 @3 z7 o6 q2 L7 k0 N
胖肚吸管 one-mark pipette
4 ^' n# s8 G, t刻度吸管 graduated pipettes
1 a+ n' k- F5 ]& w7 E9 p& H6 e2 U锥形瓶(conical flask) 250ml×4 药匙(medicine spoon)×1
7 I8 y" _" h% ~(Erlenmeyer flask) 100 ml×3 滴管(drip tube;dropper)×2
( N6 i$ m8 p" F: L9 D烧杯(beaker) 500 ml×1 玻棒(Glass stic)×2
( P, M+ ~6 {! q6 X: w# b250 ml×3 木试管夹(test tube clamp;test tube holder)×1 # g5 m: o* F4 |3 Z$ a
100 ml×3 胖肚吸管(straws) 25 ml×1
) _ _+ U; o& y) A f. h50 ml×2 10 ml×1
2 B2 e3 U. F! ~) W# l容量瓶(volumetric flask) 100 ml×2 乳钵(morta)×1
6 a( S* c5 }6 P0 s* J50 ml×4 洗耳球(ear washing bulb)6 r" x+ b: k. |$ T
碘量瓶 (Iodine numoe flask; iodine flask) 500 ml×3. p9 _. q) r. [- g+ V+ _) i- ]
试剂瓶 (reagent bottle) (无色)×2
7 n! m! ?$ o. E% q- \- G(棕色)×2 配洗液:
0 G" P$ ?9 n8 J4 ~1 v# F$ j4 q$ d量筒(cylinder) 100 ml×1 K2Cr2O72g+5ml水→65mlH2SO4, v. ~4 B1 t8 L" C1 v8 e
(graduated cylinder)10ml×1 边加边搅拌(stir)。
' ~4 F/ v4 ]4 J9 B铁支架(siderocradle)+蝴蝶架
: {# [2 T) d) m9 y$ L" D白瓷板(White Porcelain Board ) (一)清点仪器(to count;to make an inventory)0 [) O; k6 _8 Z9 N6 G$ v: I
酸式滴定管(Acid burette) 25 ml×1 配洗液 (Lotion)) E3 k0 a, x) x/ W& U" p% n; ^
碱式滴定管(Alkali burette)25 ml×1 一般仪器的洗涤
) n1 X/ E, t/ H3 q/ K& A) I直型冷凝器(rectocondensor)×1 容量瓶(volumetric flask)
. N/ \5 n- V) o# m, V漏斗架 (funnel stand) ×2 移液管(pipe)" g/ L, ]( M; i! f+ O/ O. ]
水浴锅(water bath kettle) ×1 ! X0 I+ Q' s& I5 g
温度计(Thermometer;hygrometer;hydroscope) ×1 5 `8 t% @: {) q4 ~
电炉(electric furnace;electric hot plate;electric stove) 四人一个
( Q: J* z; F6 {5 @0 x9 q8 N W1 g0 Y分析化学:analytical chemistry" W+ C( L" A; c8 Z, t9 w& ]# {0 @1 E
定性分析:qualitative analysis7 g, {/ c+ ]: t- f* ~
定量分析:quantitative analysis
0 l6 Y4 o9 f& h6 g/ }* ~6 l- u3 S) `物理分析:physical analysis) z& F0 o+ K( `5 O$ K2 Y
物理化学分析:physico-chemical analysis
3 [0 C: K# H# z+ c5 L仪器分析法:instrumental analysis: v% t# \. m5 q ^, \ q; P
流动注射分析法:flow injection analysis;FIA% `+ a. N0 [ Z# Q- b1 A7 ~
顺序注射分析法:sequentical injection analysis;SIA
( X/ ]8 C1 E" w! r- D( `- K化学计量学:chemometrics
7 T; k- h8 ?0 ?7 {绝对误差:absolute error
( d. r: B7 w! Q( j相对误差:relative error
2 h. J; E" v, k' l" u系统误差:systematic error
6 @$ ?+ O; @! l7 l D; ~可定误差:determinate error
& m2 |& I. m2 n# H8 y随机误差:accidental error1 _9 }5 l( Z! ?' H& Z- c9 ]5 _
不可定误差:indeterminate error
/ y% V, o7 L! C4 h- `# k准确度:accuracy
/ p# z8 P! A* X& v" V& i- N0 ]精确度:precision$ N& I3 j! \9 } i& s/ Z: n1 [
偏差:debiation,d5 k5 s& U. n, E6 a4 b
平均偏差:average debiation& G( [" x% G m+ r/ R
相对平均偏差:relative average debiation1 S4 B1 u# j" b; z6 L
标准偏差(标准差):standerd deviation;S
0 V- J5 v) H4 K& T; q3 O相对平均偏差:relatibe standard deviation;RSD
6 V2 l; ^7 |6 Q6 S n变异系数:coefficient of variation
1 r# c8 @8 C5 O+ T误差传递:propagation of error
! U, e) g( Z3 P0 g0 P8 a有效数字:significant figure
. }- g' @+ @7 C8 |% E; N+ B置信水平:confidence level# y" O2 k2 j% X( @# Q* j
显著性水平:level of significance
6 r' ~) `9 O. p- t# p7 n合并标准偏差(组合标准差):pooled standard debiation1 L7 X1 K. c: ~; S
舍弃商:rejection quotient ;Q
2 J+ z2 r* H* C1 ]) a+ T2 C9 b& A滴定分析法:titrametric analysis7 K7 _% C9 ?6 x1 l1 {' t
滴定:titration
6 s$ ]2 e1 J' l& e" K% j. x容量分析法:volumetric analysis
* b* n. q# \9 h化学计量点:stoichiometric point U9 @, u; Q/ }5 q5 D
等当点:equivalent point
4 y4 b" Y x8 h9 @# s, `电荷平衡:charge balance
) f- |3 y' |3 B* Q/ N电荷平衡式:charge balance equation" C* F! q; q" n5 {2 w$ B! L+ [5 o
质量平衡:mass balance( o. h, t$ M; T" B& m
物料平衡:material balance
3 ^) t) F# {- U8 k c8 W$ J质量平衡式:mass balance equation% `5 O7 ]+ {. }& z# o( f0 j9 e
酸碱滴定法:acid-base titrations9 D' \$ N3 m7 H; _* Q$ P! R& j' m' [
质子自递反应:autoprotolysis reaction
2 l& H' `3 U& M3 F7 G! x质子自递常数:autoprotolysis constant
4 n6 F" v+ o" N! U3 M1 w质子条件式:proton balance equation
o. j9 e% q; V- q酸碱指示剂:acid-base indicator# S, ?, v# S* N# l
指示剂常数:indicator constant( ~5 N8 a8 q; t* j
变色范围:colour change interval
7 Y) O, h3 L( j. d混合指示剂:mixed indicator
% S+ z! L' w" c; a& z0 Y3 h双指示剂滴定法:double indicator titration
" R3 J9 p$ R" {8 m; X! {非水滴定法:nonaqueous titrations
! a) j2 t( L2 v, o* t4 N. m质子溶剂:protonic solvent
, n: Z* t& R2 n酸性溶剂:acid solvent 9 D6 l% k' }" w& k9 k+ \" j
碱性溶剂:basic solvent
! e$ A1 W* ^& m& b两性溶剂:amphototeric solvent
. \& J5 j8 w6 h, X6 ~无质子溶剂:aprotic solvent
7 r" x# {: T% N2 ?3 w) k均化效应:differentiating effect: ~8 Q" S4 u* r3 {
区分性溶剂:differentiating solvent 0 b# d1 S$ _3 E* u
离子化:ionization
$ F2 W& b$ X$ H1 v# N离解:dissociation5 e% [) S/ a& K% K% l4 X" Z
结晶紫:crystal violet% R- G5 X' C! n' H/ f
萘酚苯甲醇: α-naphthalphenol benzyl alcohol$ t+ l/ V" F n n0 _3 X0 \
奎哪啶红:quinadinered
# P" c% i. A. \4 } m' E* N2 z百里酚蓝:thymol blue
7 q1 J0 G- h# D) }' K9 U X( J! |偶氮紫:azo violet
) e, W( _+ z7 h) q溴酚蓝:bromophenol blue
) a' e# p7 D; x, C配位滴定法:compleximetry( h/ ]& A: \. W% C0 Q! a( a A; ~2 c5 _
乙二胺四乙酸:ethylenediamine tetraacetic acid,EDTA4 n4 j! ?8 i& i9 Q
螯合物:chelate compound' I; ~# H- y0 v, |' N* v
金属指示剂:metal lochrome indcator
5 d$ O4 p$ A `& f! X( L( ~8 i氧化还原滴定法:oxidation-reduction titration$ Y9 u4 z: E, ?6 E
碘量法:iodimetry- |8 ^0 s8 t" r- V* n
溴量法:bromimetry ]2 ]8 g0 D9 A) S6 @# A
溴量法:bromine method' n( J2 }( u0 @, ~" \; Q
铈量法:cerimetry
0 W" Y+ s& o. o/ e/ U5 E+ A- L高锰酸钾法:potassium permanganate method
+ l! P& j5 J* p条件电位:conditional potential
" X- E7 `+ t9 N- D- h溴酸钾法:potassium bromate method! q+ B# o- X; j8 j) X
硫酸铈法:cerium sulphate method
# D4 p4 d; p( {- g1 o偏高碘酸:metaperiodic acid H. \, Z. }% K* g; U; j/ Y d
高碘酸盐:periodate
2 d1 _& u, L0 ]9 Z亚硝酸钠法:sodium nitrite method3 q5 N) f4 d' \: b# k- y9 }) g X: O4 z Z
重氮化反应:diazotization reaction
0 m) j/ t; K& c5 M" X重氮化滴定法:diazotization titration, `( |. ~0 H3 R+ m4 ^+ z, x
亚硝基化反应:nitrozation reaction
6 g( X& O+ R5 ~, S" K E' x, K' U亚硝基化滴定法:nitrozation titration# U" i' }% G, b' M5 ]7 \; t1 o }
外指示剂:external indicator f! p r9 `) D& _# W2 L' |
外指示剂:outside indicator& T( y" a* @2 T* d4 c/ s0 m6 r( |
重铬酸钾法:potassium dichromate method
0 |3 z' K: u) B5 C! y! `沉淀滴定法:precipitation titration ^# o& T% n2 G" S, j' ^. `
容量滴定法:volumetric precipitation method
+ a& I- K- C/ S银量法:argentometric method9 U3 `! P, T' v+ O" K
重量分析法:gravimetric analysis
( C! s1 J( A7 G% P9 R挥发法:volatilization method7 E1 i3 j( O0 l" h% G2 M% S. m
引湿水(湿存水):water of hydroscopicity' R7 Z& @" ^! w5 @' @2 P
包埋(藏)水:occluded water% b, [+ }9 H& X! L
吸入水:water of imbibition( e& L6 V3 _1 k( B% z
结晶水:water of crystallization. J. C7 ~( p( X+ F% q
组成水:water of composition
% F, h8 ~9 O0 o9 R液-液萃取法:liquid-liquid extration + ^6 E$ _& t" x! Y/ Z4 }( I9 s
溶剂萃取法:solvent extration
) u( p1 z) Z) D c5 f8 K% @0 ~* h& ]反萃取:counter extraction
, [' @' y' q. A分配系数:partition coefficient
3 o: D P6 L4 L, B; l- {$ x分配比:distribution ratio5 ~+ u- |$ H9 d7 V) z- `
离子对(离子缔合物):ion pair
+ G1 ]+ ^! B( B$ t9 W h沉淀形式:precipitation forms
2 @' M0 ]0 K$ R称量形式:weighing forms
7 s/ Q8 h& n; R& X2 J6 L8 G+ P+ O3 m物理分析:physical analysis
8 z/ i% {% [, r, ]( M5 s `物理化学分析:physicochemical analysis
2 N k7 N( ` X- ]+ }仪器分析:instrumental analysis+ F8 U% t' T- Q* m8 w/ ?4 O( P
电化学分析:electrochemical analysis9 P2 j$ X* V1 w0 d7 m# r; X
电解法:electrolytic analysis method; |# v/ A4 k( j3 z
电重量法:electtogravimetry
3 | ?& [6 |6 R& t库仑法:coulometry
) @) [3 T1 i3 h2 O, f库仑滴定法:coulometric titration
+ T+ a [) A8 v0 d2 C1 n电导法:conductometry/ ~7 o( s& k, u
电导分析法:conductometric analysis
! m$ c, i7 |* r2 m- h( e电导滴定法:conductometric titration9 X4 M" Z" Q4 W. A; x6 q
电位法:potentiometry5 x; h- a( S7 C4 Z
直接电位法:dirext potentiometry) t- ?, q3 H3 D
电位滴定法:potentiometric titration
2 {8 g# Y) C9 K9 n0 F伏安法:voltammetry, [! s5 H7 c. y' a% R7 P2 q4 y) ^
极谱法:polarography, V6 R0 B+ W1 D) G+ B# W& `2 \
溶出法:stripping method% f, w8 v9 D& \1 |: p
电流滴定法:amperometric titration
1 r" E Y, n9 w化学双电层:chemical double layer/ e4 q% ^3 w$ P K9 Y
相界电位:phase boundary potential# U: a4 D7 Z/ p; ^" o3 U% g2 v
金属电极电位:electrode potential' a) O7 S: M/ @* ~
化学电池:chemical cell) M: u, y. X; C) P2 E
液接界面:liquid junction boundary
8 i3 N. |9 G8 j) ^" d原电池:galvanic cell% V# a o8 \. l/ ^/ n, ~4 s) X- m
电解池:electrolytic cell
& s- S0 ~! V5 U负极:cathrode
% {1 K' b* r2 s# K正极:anode
& d( X+ t8 u, C( m+ I( w n1 {电池电动势:eletromotive force& [2 t8 F" S! I+ J- {4 i0 ^ S& R
指示电极:indicator electrode" `7 X) y' d& ]+ M- v- P
参比电极:reference electroade" ^: T- R" y/ N( j& L' ^# S- {" ~! q
标准氢电极:standard hydrogen electrode* ~1 S( S/ O. b! x" B* D, D
一级参比电极:primary reference electrode
% H8 B0 [7 f: Q7 l* t! p& G饱和甘汞电极:standard calomel electrode
6 ^( V4 @! X; s. F. j( A4 @" A银-氯化银电极:silver silver-chloride electrode1 f% I- c& \0 c; f& h, r ~
液接界面:liquid junction boundary
9 l; o" Z. a& o3 ~8 _; d不对称电位:asymmetry potential9 [, C0 v1 b# M: B4 F
表观PH值:apparent PH
; c: A9 Z* z9 L7 I6 K$ J1 V. t; |+ z3 I复合PH电极:combination PH electrode' R' J/ }3 u5 O/ V8 |' I3 k
离子选择电极:ion selective electrode
0 T# G* x5 R1 v6 }8 E敏感器:sensor
! q% S0 a& ~4 k. v- l/ q- j3 v4 A晶体电极:crystalline electrodes
1 _3 `" K9 ]9 M; B6 p均相膜电极:homogeneous membrance electrodes
- ?$ H4 }$ P, Y+ {& h3 R非均相膜电极:heterog eneous membrance electrodes
& m* i' g" l4 X/ @' W9 _/ R8 T非晶体电极:non- crystalline electrodes: ]( Y; P w" Y' |
刚性基质电极:rigid matrix electrode9 Y/ d, T- ~4 [9 b! I8 o9 @
流流体载动电极:electrode with a mobile carrier! \5 h9 M. D9 w
气敏电极:gas sensing electrodes$ r) `3 U! M g5 E' [! U0 I1 F. ~# m
酶电极:enzyme electrodes
# v$ v3 \# e9 p5 _金属氧化物半导体场效应晶体管:MOSFET
o9 w6 b3 u5 D( u) _# I离子选择场效应管:ISFET
# u* l' Q! v, H# k% l总离子强度调节缓冲剂:total ion strength adjustment buffer,TISAB
7 Z3 m) D/ g% u; m, a3 o永停滴定法:dead-stop titration& s7 }; m; a0 }: v* T3 P1 C- L! t
双电流滴定法(双安培滴定法):double amperometric titration3 e$ U8 d& z9 \
普朗克常数:Plank constant; I+ A5 d5 _( n- I ~
电磁波谱:electromagnetic spectrum6 b2 G! n2 `. n* K* t* T3 X$ _. Y
光谱:spectrum& ^% Z1 ?5 y& z+ g2 V
光谱分析法:spectroscopic analysis
, F8 ]* k. r5 o6 `( [原子发射光谱法:atomic emission spectroscopy
: ^* Y" @( @8 ~. U质量谱:mass spectrum. \3 i% y$ Y3 k
质谱法:mass spectroscopy,MS
! Y7 ^( X9 C# g$ t% C& H- |紫外-可见分光光度法:ultraviolet and visible spectrophotometry;UV-vis4 K* q- M/ o( J) q7 i7 I7 y7 f
肩峰:shoulder peak
9 h S8 P6 Y; E. _" i# o2 f8 o末端吸收:end absorbtion
8 ]7 o$ [) d0 u& I. w生色团:chromophore$ s( J& N1 B- s" [- b) t
助色团:auxochrome8 c0 X3 F' b- `/ F9 N& O
红移:red shift; {/ A' f6 K/ d
长移:bathochromic shift
$ V* U5 O; M# K, ~+ \1 H8 `短移:hypsochromic shift: ~; \7 X0 u6 t# E5 G
蓝(紫)移:blue shift# H+ m" O& ~4 B- X+ D
增色效应(浓色效应):hyperchromic effect
3 K& ^ a, l, P$ H6 R( }5 t. _减色效应(淡色效应):hypochromic effect& D! `! D- u1 ]1 x" c3 L* ]2 ~
强带:strong band2 \7 m- H# e* R6 M2 [
弱带:weak band
. q' T: X4 t/ I L吸收带:absorption band O) m& s$ Q& O) c0 z
透光率:transmitance,T' B% r( Y& w# j8 y, D" D
吸光度:absorbance
: G' z7 i: [8 _- {4 Q谱带宽度:band width
, d; u: ?# u3 f. e& V" m杂散光:stray light
. t/ Q3 z3 ]' \+ ?6 }- s噪声:noise
, b- C* M7 i" o" D+ o$ ]% m暗噪声:dark noise9 ?) }0 p; @+ @# N. B
散粒噪声:signal shot noise
& P+ U- C6 _* f+ k$ V闪耀光栅:blazed grating, N; w; D. y0 o* y$ @0 `- {/ P e% ]
全息光栅:holographic graaing, e/ ~! M$ l! |# A& U/ T! y
光二极管阵列检测器:photodiode array detector
$ _$ n( ? n2 I, ?. h: T$ g偏最小二乘法:partial least squares method ,PLS0 Y) M5 ?# x3 R# ]7 d+ K3 P
褶合光谱法:convolution spectrometry
3 j, k ?3 W' F: [4 K$ M6 T褶合变换:convolution transform,CT& i& z( Y& ~, g" \6 ~/ W
离散小波变换:wavelet transform,WT' \4 n0 ^/ |' @" x# \
多尺度细化分析:multiscale analysis
5 `$ y% j' a# e* \1 t8 z: C供电子取代基:electron donating group
# q7 T) T Z+ c t5 I# ?" _吸电子取代基:electron with-drawing group
$ u9 n1 D0 T' R( w, b荧光:fluorescence
6 i% S8 O% v6 ^$ R, a4 l' Y# o荧光分析法:fluorometry
3 E, u* Q& f1 F& b1 r2 |X-射线荧光分析法:X-ray fulorometry
) R( M! z* C% m0 Z( T0 v原子荧光分析法:atomic fluorometry7 P1 m% w B$ ~1 }# B
分子荧光分析法:molecular fluorometry
) r) t; C p6 J# Q, v1 X3 A振动弛豫:vibrational relexation
; r( |& a9 F* z0 @6 `内转换:internal conversion E( W5 i/ u5 z2 u9 ?/ U
外转换:external conversion
: C- k5 p( Z9 O* K8 L% h q( V体系间跨越:intersystem crossing
, A9 E# { G& D: ?# D激发光谱:excitation spectrum
. ~# R' x0 e( W3 t9 F荧光光谱:fluorescence spectrum. V8 ]2 T; z' P7 D6 b
斯托克斯位移:Stokes shift, {7 ~, S$ [- a% `; x8 _( K
荧光寿命:fluorescence life time
+ }- y" S! n3 V' ^, W, @荧光效率:fluorescence efficiency
" @9 i* p, J* v. r t荧光量子产率:fluorescence quantum yield2 ]' C, J6 T3 H. ?+ ?- c- F
荧光熄灭法:fluorescence quemching method
3 Y7 ?; p6 {2 i# `散射光:scattering light; s$ |4 z- i3 l! ^, v2 ]5 y
瑞利光:Reyleith scanttering light
3 z" q' m# c& z) w, R拉曼光:Raman scattering light
$ e' Q- Q8 e* O; ^6 b5 f! `- [ h! m4 }红外线:infrared ray,IR
, U6 [7 D" q# `0 K$ x% M中红外吸收光谱:mid-infrared absorption spectrum,Mid-IR0 p* z) P* V+ z. W1 Z5 G7 t7 w# m
远红外光谱:Far-IR/ {: g- Y+ [7 L: Y/ i7 E* `2 b
微波谱:microwave spectrum,MV
( d! Z9 m) y* I: U. | i! h, O% ]红外吸收光谱法:infrared spectroscopy% O: B% r1 q/ G7 X0 K/ ]* x
红外分光光度法:infrared spectrophotometry8 c: W6 F& g6 M
振动形式:mode of vibration$ `' M. g8 c/ J& t! \
伸缩振动:stretching vibration
+ K4 ?! q/ w' F9 R0 r& q对称伸缩振动:symmetrical stretching vibration
# s) g Z: _" r, a不对称伸缩振动:asymmetrical stretching vibration
+ C0 W" O! G. ^$ I4 P4 H0 ~弯曲振动:bending vibration- R8 O( _, c/ v
变形振动:formation vibration
. b6 |" U3 m9 Z& q0 n; }1 `; g# a面内弯曲振动:in-plane bending vibration,β$ `8 c- F4 S0 R
剪式振动:scissoring vibration,δ! R' S' l% I8 F* J
面内摇摆振动:rocking vibration,ρ
- g4 Z/ X0 S: V+ n4 W# v( s2 m) W: Y& \核磁共振:nuclear magnetic resonance,NMR9 h2 t0 q+ p: c |, O, ]1 [+ `
核磁共振波谱:NMR spectrum' a4 i. N" p8 o
核磁共振波谱法:NMR spectroscopy
( X! ]; @, V/ t7 \& i6 n扫场:swept field
' U5 U: r2 `# M% M; y1 }扫频:seept frequency
% ~) `: ?& P8 V! n; T6 y连续波核磁共振:continuous wave NMR,CW NMR% s- f5 l* H- u; d( i' @) O3 s
Fourier变换NMR:PFT-NMR,FT-NMR U% p1 m# ?' Y8 X+ v
二维核磁共振谱:2D-NMR
! L$ ]/ D6 S! n% [质子核磁共振谱:proton magnetic resonance spectrum,PMR
' s0 P. q0 f+ j) d氢谱:1H-NMR6 V7 ^# u6 J; N1 _7 N$ |7 \
碳-13核磁共振谱:13C-NMR spectrum,13CNMR
; y9 |: Q& A5 \0 ?8 j自旋角动量:spin angular momentum |
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发表于 2007-11-8 17:27:22