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玻璃漏斗 Glass funnel long stem
' j' }1 a& ]* p, q$ {3 C% P* S试管 test tube test tube brush test tube holder test tube rack7 u' j% ^, P% b1 H8 x/ i+ P) O7 t
蒸发皿 evaporating dish small3 w1 v* D' r% e6 d- E8 x/ z: g
烧杯 beaker& }2 t/ p! i) i+ [8 J
锥形瓶 Erlenmeyer* l* }1 L0 V0 R' ?9 ]: N. c) |; [
量筒 grad cylinder ]; C, z6 y) A8 b6 A7 F; a
洗瓶 plastic wash bottle. L, O# |+ U$ d+ W6 s% z* N
勺皿 casserole ,small stoppered flask
% V- c% h+ m6 _& J, N' ^分液漏斗 separalory funnel
0 d# ~1 O! P( @/ N, A5 lwarter bath/oil bath* h/ Z! u5 D, y; K+ w; |
strring bar6 a# \4 [9 }, [% J2 k9 L# c, Q
magnetic stirrer
/ n" s- ~% ^% T" J2 P- I, t) C冷凝器 condenser+ O6 L- K5 s8 {0 E8 P6 M
Ballast bottle
$ R0 U% s3 D) W" N: {% }* P圆颈烧瓶 Round-bottom flask
7 x- h# J, T s试剂瓶 reagent bottles
F& Y! y, u% r5 b0 s, v; M$ [ d托盘天平 platform balance 台秤
& v* P: x9 D. l e0.1g 托盘pan 指针刻度表pointer and scale
* Z% U$ C7 k4 v! \4 acrossbeams and sliding weights 游码
& |; [3 {$ v+ l. c6 q1 f. g分析天平 two-pan/single-pan analytical balance
( [: b6 S3 U- o+ W0 d滴定管 burette glass bead(basic) nozzle! P) K& A/ m: j3 v
移液管 pipette 胖肚 elongated glass bulb 0 [2 x7 u8 \% | b4 t
洗耳球 rubber suction bulb
6 j8 H, i0 n% r. ~6 c# y" L玻棒 glass rod" M# j+ x4 [. ]) [# U) U
玻璃活塞 stopcock7 t0 Z: B- u) O4 T. R# J
容量瓶 pyknowmeter flasks 0 n. k& v/ i" E2 c; f9 H# B
比重瓶 (one-mark)volumetric flasks
. y8 f- T( U8 ]( |$ n胖肚吸管 one-mark pipette6 r# k1 S0 ?: |- X i& Q! f4 j
刻度吸管 graduated pipettes) G- c' w' w7 |' B4 }# c) v
锥形瓶(conical flask) 250ml×4 药匙(medicine spoon)×1
& M- R/ ]1 Y! ]- d8 Z1 ^/ H/ c(Erlenmeyer flask) 100 ml×3 滴管(drip tube;dropper)×2
V& x9 O" Z9 d烧杯(beaker) 500 ml×1 玻棒(Glass stic)×2
" F" k5 W6 y8 O+ T/ o+ o6 ?9 n250 ml×3 木试管夹(test tube clamp;test tube holder)×1 0 Z" d$ A0 A9 X- P1 U( G3 t9 X6 J
100 ml×3 胖肚吸管(straws) 25 ml×1 ( }6 I0 _! N& ~+ t' {% \/ A
50 ml×2 10 ml×1# e4 d1 o% g! F7 f4 P, M
容量瓶(volumetric flask) 100 ml×2 乳钵(morta)×1
- I" m* ?: s6 w1 a) W50 ml×4 洗耳球(ear washing bulb): {! F& E' w" L
碘量瓶 (Iodine numoe flask; iodine flask) 500 ml×33 [/ O- |# I7 ?. k2 G
试剂瓶 (reagent bottle) (无色)×2
4 Y9 Z& w2 [0 S8 T1 ]1 X/ @, Q$ A(棕色)×2 配洗液:+ | e! R1 I. d) x
量筒(cylinder) 100 ml×1 K2Cr2O72g+5ml水→65mlH2SO4. G1 l& L { Q6 S9 |( l( J
(graduated cylinder)10ml×1 边加边搅拌(stir)。
: }) T1 I- n$ _9 r" M铁支架(siderocradle)+蝴蝶架( j+ I$ r7 `4 Z, K; l8 m. y3 ?
白瓷板(White Porcelain Board ) (一)清点仪器(to count;to make an inventory)5 Y7 J% G/ b! j B' o) _
酸式滴定管(Acid burette) 25 ml×1 配洗液 (Lotion)7 b( Q0 J' C& B" f- e& |9 E- e
碱式滴定管(Alkali burette)25 ml×1 一般仪器的洗涤
# A+ U7 P. H9 B% r; }' h/ y2 e: K直型冷凝器(rectocondensor)×1 容量瓶(volumetric flask)! l$ s. P6 a. i9 b
漏斗架 (funnel stand) ×2 移液管(pipe): j( o7 V3 h" p- o% C, f9 V
水浴锅(water bath kettle) ×1
N" q% [( y$ d7 s% t温度计(Thermometer;hygrometer;hydroscope) ×1
* a$ G( S3 S1 Q电炉(electric furnace;electric hot plate;electric stove) 四人一个
* r* b4 W+ f: r, t6 S; x. M分析化学:analytical chemistry4 k9 Z+ B/ r) B+ ^( t
定性分析:qualitative analysis
5 a+ L4 Q8 z( ]7 {$ `, f定量分析:quantitative analysis
: I5 Y, g( |6 F2 [3 i) N物理分析:physical analysis
! S' p6 u* x) A) |0 G物理化学分析:physico-chemical analysis
5 N- u& Z! a! U4 q* j3 I; ?仪器分析法:instrumental analysis5 q$ Y- F# s# B3 [+ S! R) W" }
流动注射分析法:flow injection analysis;FIA
" g0 B3 ~2 j, `: X0 N5 m+ f5 L5 O顺序注射分析法:sequentical injection analysis;SIA
u1 f& _9 v. h. v8 z化学计量学:chemometrics$ d r% y! {) s: i; Y% ^; D! Z
绝对误差:absolute error) ?+ c) S- @, w8 O
相对误差:relative error) b4 r/ j& N1 Z, I7 [
系统误差:systematic error
4 u2 L1 G# {7 o+ V6 l) ~' f可定误差:determinate error
7 D. L q4 n. A' E& z随机误差:accidental error
+ K! B" F k% s# o& I不可定误差:indeterminate error
9 O7 L2 \; Z7 {) b) |准确度:accuracy/ V$ Z7 D5 x7 ?& U: k u
精确度:precision
1 X$ O; ^1 z$ A! l: D偏差:debiation,d
- E4 T' Q" |" |1 J4 ~0 C: x平均偏差:average debiation
4 {9 ^+ ]# Q7 I3 ]6 W8 S' C相对平均偏差:relative average debiation' v: V' ]8 r, y9 Q# `5 C
标准偏差(标准差):standerd deviation;S M* \# Z* g, k* G% R1 C
相对平均偏差:relatibe standard deviation;RSD/ t9 d- x S( N* v2 U# a
变异系数:coefficient of variation
! n7 O' E; Y( l0 E误差传递:propagation of error% Q7 a g: `4 L# E; ?: C
有效数字:significant figure
9 l6 {# k0 d! l) s, o置信水平:confidence level
: M0 b6 K$ I* J$ v显著性水平:level of significance0 I5 g8 C2 I; k/ y
合并标准偏差(组合标准差):pooled standard debiation _+ u0 V4 B& n2 U
舍弃商:rejection quotient ;Q $ \: m2 B' l! Q" H7 z; M
滴定分析法:titrametric analysis5 e% e% J! j" @* i% |0 v
滴定:titration
' t5 W. ~ E8 z7 v容量分析法:volumetric analysis& H$ v$ |% x! Z# k6 v
化学计量点:stoichiometric point
5 G- Y1 T7 l/ c" m* O7 u/ C等当点:equivalent point
; N, ?4 J) w+ e4 H, f8 v# Z. u# L. v电荷平衡:charge balance0 D4 J8 j3 X0 K) J% a9 Y% n
电荷平衡式:charge balance equation0 H; l) S, w8 w X' y2 b
质量平衡:mass balance
# k" H' ?8 X: i0 [. J物料平衡:material balance' y7 v- w; f1 G$ g% c" P; u
质量平衡式:mass balance equation
( Y6 n1 W3 Y2 J) x% l; q酸碱滴定法:acid-base titrations
! U$ i9 b* ], f2 L& _4 g( B8 E质子自递反应:autoprotolysis reaction; h, Y9 J$ a+ E" [) @, w9 @
质子自递常数:autoprotolysis constant
" |9 \* k! x9 U8 k5 a* S; d* P质子条件式:proton balance equation
$ Z# Z5 r0 E, x6 _1 A! @: w6 c酸碱指示剂:acid-base indicator9 r; l$ T+ H W K) V! d K; V
指示剂常数:indicator constant' A, z, k' D$ l M) N! c" ?0 w( {$ m
变色范围:colour change interval 6 ~+ |8 g8 {. P1 l
混合指示剂:mixed indicator
% d! ]& d( `) K双指示剂滴定法:double indicator titration& p0 X2 x$ T r* n% w
非水滴定法:nonaqueous titrations$ F' r' g1 t T2 E
质子溶剂:protonic solvent
5 \0 C% O/ u6 C+ w7 d, y酸性溶剂:acid solvent
0 r; b# N9 K( f1 B1 V, l; z碱性溶剂:basic solvent * h7 ?% g! ^- l) K+ L5 ^
两性溶剂:amphototeric solvent
# u7 B' D! B4 X; u+ q; l0 R0 \无质子溶剂:aprotic solvent
& c. v0 X' O: {+ L均化效应:differentiating effect
/ O1 H9 }; ^8 C; ?7 s9 l- Q. [区分性溶剂:differentiating solvent
' {8 i7 E) o# ?. Z3 a6 w6 ~8 J$ R离子化:ionization T; S o' D7 V& K# X3 z4 a0 N
离解:dissociation
4 [* a: c) D. v0 Z3 ~ o) v6 D; S结晶紫:crystal violet
- B! o- L9 @! f, e X萘酚苯甲醇: α-naphthalphenol benzyl alcohol
1 f9 l! g, e- W- q1 T, u" |$ t$ j奎哪啶红:quinadinered
5 G% N% H' Z1 F2 Y, y' y百里酚蓝:thymol blue+ J8 k: P7 H9 {& X6 W. c
偶氮紫:azo violet, L! h" Q- s6 F2 N+ l
溴酚蓝:bromophenol blue
. h$ y! O* W* @6 I8 {$ ?配位滴定法:compleximetry
% l& y! w9 x6 R* P5 s乙二胺四乙酸:ethylenediamine tetraacetic acid,EDTA
$ r% f: ?& t* L5 W' e5 m% N& P螯合物:chelate compound
J8 c% o( K5 {( s8 ~& b3 n8 p金属指示剂:metal lochrome indcator
) @' u; m+ ?$ A- Q9 ^氧化还原滴定法:oxidation-reduction titration* ]$ ]: l; }6 M7 M+ T
碘量法:iodimetry
$ N0 T) Y3 a+ f2 k8 U2 R溴量法:bromimetry ]0 [1 a7 p4 i+ y, u* }2 X) F
溴量法:bromine method
# q1 c) B# g& V6 L$ ~+ N7 j铈量法:cerimetry: a: b7 j4 d( Z8 r
高锰酸钾法:potassium permanganate method% z L6 _- R; Q- b2 U% S
条件电位:conditional potential
r5 P! Z) o3 L" b溴酸钾法:potassium bromate method
0 \5 Z; s8 V' G7 I" ?* c1 o# R; G. Q硫酸铈法:cerium sulphate method
+ J3 s- }3 v$ k1 s偏高碘酸:metaperiodic acid
1 y( P8 C+ Z9 n% L9 n1 X高碘酸盐:periodate
; g2 ?8 q' u) }+ m" C亚硝酸钠法:sodium nitrite method1 t- U+ ~6 v% ?$ z0 {6 i2 N, r
重氮化反应:diazotization reaction
8 G o V$ i* U- S" @重氮化滴定法:diazotization titration; Y, q% @6 B! e. H G
亚硝基化反应:nitrozation reaction
" m, i% K4 N& U. h5 ~: j亚硝基化滴定法:nitrozation titration& p2 P" [9 L6 t0 x
外指示剂:external indicator / h8 {! n. v1 d7 F! J& c
外指示剂:outside indicator8 o" P3 C& B9 Q* F4 n- i4 @
重铬酸钾法:potassium dichromate method" d! `- O7 H/ d) L, M
沉淀滴定法:precipitation titration- d8 C$ E: h# a6 q9 M
容量滴定法:volumetric precipitation method 3 a6 c2 v/ \6 {9 r! e( Q
银量法:argentometric method1 L! X! m2 m4 B4 m6 Y
重量分析法:gravimetric analysis
: C0 L, x6 ]& W% n B4 ?挥发法:volatilization method5 s6 o0 E4 u+ h
引湿水(湿存水):water of hydroscopicity
* Z9 l) [0 E5 w/ k包埋(藏)水:occluded water3 s3 N3 E, U3 z- @2 z
吸入水:water of imbibition
6 M1 X5 K- l! F- s+ f; E$ y结晶水:water of crystallization: V: b- i4 c: ], |! U- q
组成水:water of composition. `! u* A9 H9 s8 F5 B
液-液萃取法:liquid-liquid extration " ?( t' c" P* |1 Y4 J
溶剂萃取法:solvent extration0 a0 e2 H* E$ p. s& A& D- ?
反萃取:counter extraction
% n& M) F# @! N6 \8 ]分配系数:partition coefficient
/ F! i- i7 j; g# T7 s# f分配比:distribution ratio( P8 T& B$ M. q; W3 T5 l L6 K2 w) z
离子对(离子缔合物):ion pair
. G& A8 f H0 v9 j4 T1 X& D% o5 Y沉淀形式:precipitation forms( a3 Q8 A# G% K, L' ~1 z+ _
称量形式:weighing forms
& l. n1 j2 P. ^& e5 v9 f% ?8 {) ?! y物理分析:physical analysis
( b4 B2 ?/ [5 r6 d. L/ C- N物理化学分析:physicochemical analysis
* t+ u9 x) g* B$ j1 [ V仪器分析:instrumental analysis
/ Q8 z k# T1 z; D/ S5 E" i( \电化学分析:electrochemical analysis
" @/ R: f! x; @: `/ a; P电解法:electrolytic analysis method
1 T4 q7 C2 S G6 L4 \电重量法:electtogravimetry
4 p6 H5 E, B+ L1 S7 X库仑法:coulometry
b- B6 i h% y; ~4 L& u$ ]库仑滴定法:coulometric titration
+ X( a F. R$ E电导法:conductometry7 {8 z8 g% b; q; q7 a$ l" O8 p
电导分析法:conductometric analysis* {; Z( e2 G( h5 R
电导滴定法:conductometric titration6 p- i% f' X8 _3 T+ j
电位法:potentiometry
: e7 B. }0 }/ f直接电位法:dirext potentiometry( T# `9 P! o; \! ~/ B7 U1 ?: R) A* P
电位滴定法:potentiometric titration
% K: c, ^0 z( W4 ^伏安法:voltammetry
7 G) g1 |8 u) V7 \* P8 G极谱法:polarography w. S$ ~. V) R1 L
溶出法:stripping method3 Q' @; v! V1 @7 m( ?+ r
电流滴定法:amperometric titration
6 n# o$ `, W# ] @. o化学双电层:chemical double layer
5 {, [& p* m. b+ E/ ?5 p# j* U) k相界电位:phase boundary potential
/ T: A) m3 h2 f3 c3 C金属电极电位:electrode potential
& {9 z+ p Q% M) a k" Q化学电池:chemical cell. O2 ^# o" D" N/ }
液接界面:liquid junction boundary/ n* Z# v# k2 f/ y7 C0 O! B+ C
原电池:galvanic cell
( R( E$ ^6 e* [" n$ j/ a7 Z电解池:electrolytic cell: c8 ?6 c6 k7 t' H4 ^1 V. f1 b
负极:cathrode5 ]8 b0 `7 J$ s3 `! m8 w. P3 b
正极:anode
8 [0 e4 ` D8 t! F6 A电池电动势:eletromotive force
$ d f! |& R- o$ ?0 E& \7 q指示电极:indicator electrode, q9 t+ M1 N$ D
参比电极:reference electroade
, E$ x4 k g( Y; \* k/ ]% w标准氢电极:standard hydrogen electrode' j; t A( X! M
一级参比电极:primary reference electrode0 G5 |# r4 i* r% z5 H$ ^. f) V: x
饱和甘汞电极:standard calomel electrode
+ v$ @! o; T2 M" r( v* h银-氯化银电极:silver silver-chloride electrode
$ B& D1 k) [- Q$ t5 v5 \液接界面:liquid junction boundary1 o+ N9 E1 z O( i! i6 O1 p
不对称电位:asymmetry potential/ ^4 x3 j# w2 B/ U
表观PH值:apparent PH
$ L* w/ [9 j, t. H' P4 G复合PH电极:combination PH electrode
' \% \. x7 [% M- L4 q: U, G5 ?离子选择电极:ion selective electrode
, x1 \1 B0 z' M0 F7 y6 o敏感器:sensor$ K" ?" V0 a8 z" ?6 o, ]
晶体电极:crystalline electrodes% i1 e i: ]/ n3 Q0 m
均相膜电极:homogeneous membrance electrodes
+ `4 g: I1 H M( t; q- g# c非均相膜电极:heterog eneous membrance electrodes! r; G* y7 ]% x3 Y
非晶体电极:non- crystalline electrodes( ]. L$ Q, [6 x' D( \8 r! I
刚性基质电极:rigid matrix electrode3 Z: u2 j1 {/ I
流流体载动电极:electrode with a mobile carrier) F9 ]9 E8 K: T( h1 H
气敏电极:gas sensing electrodes. T6 Y3 }) ] [) U- s
酶电极:enzyme electrodes2 y, c6 @9 }- h2 ], J
金属氧化物半导体场效应晶体管:MOSFET
2 F$ v6 U) ]* \* d9 W& f0 U离子选择场效应管:ISFET
/ h8 X, P* n9 T' u总离子强度调节缓冲剂:total ion strength adjustment buffer,TISAB
8 M' D8 ?+ a8 H+ H/ F) I2 w永停滴定法:dead-stop titration
; R$ g/ ~1 S; \/ G V1 d双电流滴定法(双安培滴定法):double amperometric titration
2 q- ^0 w7 G( x) F3 x普朗克常数:Plank constant# Y+ k( Q& V* ?7 U+ ]
电磁波谱:electromagnetic spectrum" p, s, Z6 @+ G0 x; Z, P$ W2 F
光谱:spectrum
- X5 Q1 B4 b" s- L% g光谱分析法:spectroscopic analysis
. ~2 {6 H0 E) ~) P原子发射光谱法:atomic emission spectroscopy3 o6 q, C6 a6 ~ S" |# I, s+ J0 g6 a E
质量谱:mass spectrum
+ l. o4 g0 R2 G质谱法:mass spectroscopy,MS
9 k2 o7 \& K$ ~: c; B( p紫外-可见分光光度法:ultraviolet and visible spectrophotometry;UV-vis* z6 I! n t8 |
肩峰:shoulder peak
; S+ k; h! i" Q$ q" `末端吸收:end absorbtion
# k# J0 M! k5 U% I生色团:chromophore% V1 I s( t S- z; C
助色团:auxochrome
: |9 S. [( s7 v红移:red shift
& @1 {: y6 N1 C8 }长移:bathochromic shift
/ j/ y8 I6 x; U5 f3 I' F短移:hypsochromic shift7 A- C2 m& U1 r2 z
蓝(紫)移:blue shift' U1 A# o6 j) n8 B. L$ @$ V
增色效应(浓色效应):hyperchromic effect
; }3 c" D9 B! O w2 E减色效应(淡色效应):hypochromic effect
- @% j3 m: m! j强带:strong band
; H; t! I$ D- X; s弱带:weak band* n- B+ I$ s) l% U8 O( {' s
吸收带:absorption band7 v+ N: m# M, o! T' }% Z" J3 k
透光率:transmitance,T) O$ _5 }& ?+ T2 U$ X& W( H, X' k* A
吸光度:absorbance1 ^, q9 a$ v! c( ]. ^
谱带宽度:band width. _$ ~$ A) }: a4 z+ ], m$ c p
杂散光:stray light6 z1 T" O& {! ^( n9 @
噪声:noise
1 h$ l& e o0 K: d, H暗噪声:dark noise- g# `. L3 F/ i9 E: n
散粒噪声:signal shot noise
, Z$ j' J1 x7 _2 H6 L( D闪耀光栅:blazed grating
- n9 }" r2 ^& O0 _全息光栅:holographic graaing
1 L/ `+ d- u8 ^. t3 m( |: f" X光二极管阵列检测器:photodiode array detector9 {& _+ B2 Y) D% @2 K
偏最小二乘法:partial least squares method ,PLS( N. J- C3 f; k8 x9 L* B4 Z9 C6 {: ]
褶合光谱法:convolution spectrometry) [7 ]5 J0 B. g% v* K
褶合变换:convolution transform,CT5 [6 g4 M1 J% y' n: F
离散小波变换:wavelet transform,WT) Y9 j6 C' l6 n8 i2 y7 t/ V2 p: X* y
多尺度细化分析:multiscale analysis5 |' g1 H9 A' e, |9 S
供电子取代基:electron donating group
# Q, h/ O1 ~8 C' [2 U吸电子取代基:electron with-drawing group% N6 J& f- a ^3 ]# _" y. {! @
荧光:fluorescence
* X! m; p/ z, T荧光分析法:fluorometry# b% H) c# V/ c5 O/ Y" |
X-射线荧光分析法:X-ray fulorometry2 n, k; M: P9 `/ [' W7 y7 u Y3 O$ ]
原子荧光分析法:atomic fluorometry
9 z# ?! d! Q. V分子荧光分析法:molecular fluorometry
. g& d/ M7 `; }0 m; Z4 m/ B振动弛豫:vibrational relexation# h& U7 M9 l2 K4 s+ `* H
内转换:internal conversion1 B5 V* J# `6 A) Y
外转换:external conversion, ]! [6 m" [6 S, z
体系间跨越:intersystem crossing' M# I# |! Y0 q9 g/ j; X
激发光谱:excitation spectrum
0 p* m9 G- a( O7 Q4 o荧光光谱:fluorescence spectrum
% e' I' E# ~9 h/ q6 v2 Z/ L# T0 M/ a斯托克斯位移:Stokes shift
) q2 c* s/ n: b6 G! `荧光寿命:fluorescence life time
# ?# o$ n" x$ g荧光效率:fluorescence efficiency& s. D" s' ?5 w5 `
荧光量子产率:fluorescence quantum yield+ t. S0 H, _3 g$ u
荧光熄灭法:fluorescence quemching method/ D1 r9 D8 B& _& \2 d1 Q* z
散射光:scattering light. S3 K6 z# u9 E/ d( `! \
瑞利光:Reyleith scanttering light9 z1 P6 T) d' }. u2 o6 J
拉曼光:Raman scattering light/ w3 ?9 m$ _/ ?$ v2 i& Z( j
红外线:infrared ray,IR$ R0 M9 E0 x7 W6 D
中红外吸收光谱:mid-infrared absorption spectrum,Mid-IR
/ Q$ B0 n9 j, M/ ^9 o9 D& ]远红外光谱:Far-IR- u9 h. H' \6 J1 K, R$ ^. M
微波谱:microwave spectrum,MV8 m( p) u+ l" U) n; W/ c! H- W/ D' n
红外吸收光谱法:infrared spectroscopy: |# d( N1 G* ]2 w
红外分光光度法:infrared spectrophotometry; Z. j+ c# Z4 w! N; k5 P, D
振动形式:mode of vibration
& @0 \, e/ y+ `伸缩振动:stretching vibration
. W. `9 J" o9 S$ K; {5 A) l对称伸缩振动:symmetrical stretching vibration
5 f4 g& v- ?- U9 t. }, Z不对称伸缩振动:asymmetrical stretching vibration% ?4 I/ k0 t, P9 n( M6 R
弯曲振动:bending vibration6 C6 j9 W9 T, z
变形振动:formation vibration
: H0 E9 C0 Q/ {* G" N! x面内弯曲振动:in-plane bending vibration,β
6 c. H P; t2 d v剪式振动:scissoring vibration,δ
3 L* r' M2 h! p. Y- I9 j面内摇摆振动:rocking vibration,ρ 8 Q& ~6 r0 ?% O( z' R4 {
核磁共振:nuclear magnetic resonance,NMR4 F) y2 g8 x) {, B9 S# P: b
核磁共振波谱:NMR spectrum
2 m( L) J( H$ _3 z2 b; f! ?核磁共振波谱法:NMR spectroscopy2 G* N1 V9 S) r
扫场:swept field- f4 L, ~7 E8 c0 e6 O
扫频:seept frequency1 E- H* a3 h3 _9 D6 o
连续波核磁共振:continuous wave NMR,CW NMR
. E7 p3 o* A* F+ m- C; H9 |, m2 @2 bFourier变换NMR:PFT-NMR,FT-NMR
% ]- Z, @7 ~8 o( K二维核磁共振谱:2D-NMR j O* ]- b! w& h0 D4 K
质子核磁共振谱:proton magnetic resonance spectrum,PMR( P: V/ v# }9 z5 t
氢谱:1H-NMR1 B( `- {) |# f8 p1 S. ^
碳-13核磁共振谱:13C-NMR spectrum,13CNMR
- ^; f i9 @5 ]3 u! T自旋角动量:spin angular momentum |
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发表于 2007-11-8 17:27:22