Sandalore didn't just appear overnight in the world of perfumery and consumer goods. Back in the late 1970s, chemists at Givaudan, a major Swiss fragrance company, began looking for alternatives to natural sandalwood oil. Genuine sandalwood became tougher to source due to overharvesting and restrictions placed on exportation from countries like India and Australia. The urge to find a stable, cost-effective, and sustainable solution drove researchers deep into organic chemistry labs. As a result, Sandalore entered the field—shaped by decades of chemical innovation and market pressure to conserve threatened natural resources. Before Sandalore, the industry grappled with adulterated oils and inconsistent scent profiles. The new synthetic brought reliability and helped protect sandalwood trees from extinction, setting a standard for ecological responsibility within the flavor and fragrance sector.
Sandalore belongs to a group of synthetic odorants known as alkylated phenyl compounds, developed specifically to evoke the distinctive creamy, woody scent of sandalwood oil. Unlike actual sandalwood oil, which faces shipment and storage hurdles due to purity concerns, Sandalore holds up in a global supply chain. Today, you find it in everything from fine fragrances and soaps to room sprays and fabric softeners. Major companies formulate Sandalore to impart softness and depth to their fragranced products. Its ability to support and extend sandalwood notes without the price tag or supply risks that haunt natural versions brought it into mainstream use by formulators seeking both performance and consistency.
In daily handling, Sandalore presents as a clear, pale yellow liquid, featuring a high boiling point around 320°C and a density just above one gram per cubic centimeter at standard temperatures. Its refractive index typically sits between 1.500 and 1.510. The compound shows excellent solubility in alcohol and most polar solvents, letting fragrance chemists blend it seamlessly into body care and cleaning products. It stands stable under sunlight, air, and usual storage conditions—making logistics less of a headache. Sandalore's molecular structure, built on a substituted phenylethyl skeleton, defies easy breakdown during regular use so the fragrance lingers steadily on skin, textiles, or wherever else applied.
In technical documents, suppliers list Sandalore as 3-(2,2,3-Trimethyl-3-cyclopenten-1-yl)-2-methylpropanal. Product datasheets typically state a minimum purity of 97%, with water and related aromatic impurities controlled below 0.5%. The material safety data sheet always points out flash point (well above 110°C), vapor pressure (extremely low at room temperature), and recommended handling temperatures. Product packaging displays both the chemical name and common synonyms, along with batch numbers, manufacturer addresses, and storage conditions. In the European Union, Sandalore falls under REACH registration and IFRA guidelines for safe use in personal care and household products, enforcing traceability and formulation limits aimed at reducing the risk of skin sensitization.
The manufacturing process for Sandalore runs as a multi-step organic synthesis, much like many other perfumery ingredients. Chemists begin with an appropriate cyclopentenone starting material, subjected to alkylation and reduction under controlled pressures and temperatures. Later, a Grignard-type reaction facilitates the introduction of a phenylethyl group, followed by functionalization and purification using fractional distillation or chromatography. This route minimizes impurities and manages isomer ratios, which dramatically affect the olfactory qualities of the finished material. Process optimization matters at scale: tighter control over reagent addition and temperature ramps makes all the difference for consistent aroma delivery across millions of liters produced each year.
In practice, Sandalore resists rapid degradation and shows considerable compatibility with other fragrance components, thanks to its sturdy ring system and electron-stabilizing substituents. Under standard formulation conditions, it interacts little with common aesthetic additives, such as linalool, citronellol, or coumarin, preserving blend stability for months or even years. High-energy laboratory reactions can modify the aldehyde group, making way for derivatives adaptable to broader olfactory palettes or product requirements. On rare occasions, advanced perfumers employ reductive amination or oxidative cleavage to tweak odor notes or shift volatility. These alternatives spawn “cousin” molecules but rarely match Sandalore’s balance of scent, stability, and safety.
Over the years, marketing and patent literature identified Sandalore under several variant names: the main synonym remains 3-(2,2,3-Trimethyl-3-cyclopenten-1-yl)-2-methylpropanal. Perfumers and purchasing agents refer to it as Sandalwood Synthetic, Santaliff, or Santalumé by certain fragrance houses, with trade names and codes changing from one supplier to another. In bibliographies and scientific communication, its CAS Number 65113-99-7 avoids confusion. Brand-specific labels on commercial packages often blend trademarked claims with these generic descriptors, reflecting a blend of regulatory compliance and marketing ambition.
Decades of data from suppliers, workplace records and toxicologists shape Sandalore’s safety landscape. Product handlers wear gloves and goggles in production and packaging stages, not due to any acute toxicity, but out of routine practice supported by incident reports and findings from in vitro skin irritation tests. Despite its gentle profile—dermatologists usually rate it as a low-sensitizer—companies respect maximum concentration guidelines to limit the emergence of allergies among sensitive users. Workers receive training to respond to leakage or spills, which are rare and easy to control due to low vapor pressure and high flash point. Manufacturers follow protocols from the International Fragrance Association and GHS, linking material handling to sound science and updated global legislation.
Sandalore finds traction wherever olfactory notes of sandalwood benefit a blend: deodorants, body creams, bar soaps, laundry detergents, candles, and even air freshening gels. Fine fragrance brands rely on it as a backbone, ensuring the woody base remains stable and perceptible without dependence on fluctuating harvests or fluctuating prices for natural sandalwood. Non-cosmetic industries use it in textile softeners, plastics with scent additives, and aroma diffusers engineered to mimic expensive botanicals. Chemists praise Sandalore’s ability to linger and radiate at low concentrations, letting manufacturers stretch cost and creative options well beyond what natural oils allow. Every year, new launches in bath and home care shelves demonstrate the compound’s versatility and market staying power.
Behind the scenes, Sandalore anchors plenty of scientific investigations—not just from major fragrance labs but also independent academics. Studies into olfactory receptor stimulation became headline news, as Sandalore activates OR2AT4, a receptor present not only in the nose but also in human skin cells. This breakthrough got researchers thinking about a broader future for scent molecules, blurring the boundaries between fragrance design and biomedical engineering. Teams explore enhancements to Sandalore’s odor threshold, seeking blends that require less raw material while delivering greater intensity or more naturalistic notes. Work continues on greener synthetic routes and improved waste recovery, aligning with sustainability targets adopted by many multinationals. Researchers evaluate each modification with GC-MS and human-trained panels, creating a feedback loop where chemical tweaks directly influence consumer satisfaction and environmental impact.
In toxicology circles, Sandalore’s clean record helped it achieve preferred status over some rivals. Peer-reviewed studies featuring repeated application to animal models and reconstructed human skin regularly report few, if any, sensitization events at relevant exposures. Long-term inhalation studies—especially important for aerosol and room-freshening applications—demonstrate a high safety margin. Regulatory panels such as the IFRA expert group review new data and occasionally update restricted-use concentrations, especially for products staying on the skin for extended periods. Transparency across the supply chain boosts consumer trust, since public databases reflect a strong focus on human and ecological safety, grounded in measurable endpoints rather than marketing rhetoric.
Tomorrow’s use of Sandalore stretches far beyond perfumery and cleaning products. As the skin receptor research deepens, scientists foresee applications in wellness, skin regeneration, even therapeutic care for damaged tissues. The molecule’s relationship with human physiology draws interest from biomedical firms investing in healing cream additives and transdermal delivery systems. Fragrance companies forecast continued expansion into markets where natural sandalwood remains out of reach, helping to democratize access to luxury scent experiences. Ongoing work in green chemistry promises even cleaner synthesis and smarter resource use. With consumer and regulatory preferences evolving fast, Sandalore stands ready to adapt—combining the lessons of its storied history with novel opportunities for technological and cultural relevance.
Sandalore gives off a creamy, woody, comforting aroma, a lot like true sandalwood from the Mysore region of India. Most folks don’t realize what’s behind that warm, smooth scent in their cologne or lotion. The secret rarely comes from real sandalwood anymore. Genuine sandalwood has grown scarce—the trees take nearly sixty years to mature, and illegal logging has driven up prices. Lab-created Sandalore is the perfume world’s answer.
This synthetic molecule appeared back in the 1970s. More affordable than sandalwood oil and easier on the environment, it fills out scents in cosmetics, soap, air fresheners, laundry products, and aftershaves. I remember the fresh smell that would hang in the air after a load of laundry as a kid—the softness, the faint hint of wood. Chances are, that comfort came from Sandalore woven in among all the jasmine and citrus. Its character stands out, rich and smooth, built to linger on skin and fabric.
Sandalore doesn’t just make things smell expensive. In 2018, German researchers uncovered something wild: the receptors in our noses that pick up Sandalore also turn up in our skin. They discovered the molecule can encourage skin cells to regenerate. Wound healing tests in the lab showed that cells exposed to Sandalore multiply faster—think quicker recovery times, better skin renewal. This doesn’t mean everyone should run out and buy sandalwood-scented creams, but the results point to real promise for new skin treatments.
Once that study came out, more companies started dropping Sandalore into their skin-care products. It’s a safe bet you’ll see more wound-healing creams and age-fighting serums drawing on this research over the next few years. Dermatologists remain cautious; they’re studying what happens with longer exposure, if there’s a risk of irritation for sensitive types, or if it only helps in a controlled lab dish. The science isn’t all settled, but the wave of innovation is rolling in.
Sandalore makes things last. In a world overrun by “clean” scents that wash away in minutes, this molecule anchors a whole perfume or a new bottle of shampoo. That consistency appeals to fragrance houses—consumers can get the same scent every time. There’s no gamble over climate or the health of Indian sandalwood trees. It takes stress off the trees themselves, helping slow the black-market logging that’s threatened whole forests. That speaks to sustainability, not just luxury.
As consumer demand grows for safer, cruelty-free, and clean-label products, Sandalore fits the bill. It hasn’t flagged up major allergy alerts for most users, and it can give vegan products the scent profile of the most expensive natural oils. Brands can build trust by being upfront about synthetic sandalwood’s origins and benefits, especially as shoppers get more savvy about what’s in a bottle.
Scent has a deep emotional impact, shaping memories and moods. Sandalore, both in its practical and potential medical uses, shows how chemistry and nature can work together. It offers tools to perfumers, the promise of progress to scientists, and maybe even some comfort to anyone longing for the gentle feel of old sandalwood, minus the worry for tomorrow’s forests.
The world of fragrances and personal care draws in all sorts of new ingredients. Sandalore stands out in this crowd, especially for anyone curious about what touches their skin or hair. Originally crafted to mimic the scent of sandalwood, Sandalore often shows up in perfumes, lotions, and even hair products. Many recognize its pleasant, warm fragrance. Plenty of manufacturers reach for it as a sandalwood alternative since real sandalwood comes with a heavy price tag and sustainability concerns.
Safety deserves real attention with anything used in everyday routines. Digging into studies from sources like the International Journal of Toxicology, Sandalore rarely triggers allergic reactions or significant irritation at concentrations found in cosmetics. Experts who evaluated Sandalore under strict guidelines from organizations such as the European Cosmetic Ingredients safety panel gave it the green light for topical use. This decision came after observing its effects on both healthy and sensitive skin in controlled settings.
Looking at personal use, I have tested cleansers and lotions with Sandalore. My own skin—sensitive and easily upset—never reacted to it. I checked the labels for concentration and found these products typically used less than 2%, which matches the standard set by large fragrance houses and regulators. Most cases of concern in the medical literature involved rare, direct exposure to undiluted compounds, something far removed from real-world applications.
Sandalore sparked more interest after scientists identified that it can bind to olfactory receptors in the skin. The research gained attention because some studies suggested Sandalore could help promote hair growth by triggering these receptors. Several labs showed that Sandalore, once applied to the scalp, signaled skin cells in hair follicles to survive longer, raising the hopes of those dealing with thinning hair.
So far, these promising signs come with limits. Most tests took place in labs, on cell cultures or small animals. Researchers want to see similar results in larger trials, especially long-term studies in people with sensitive skin types or underlying conditions. Industry leaders and dermatologists stress that no one should expect a miracle cure, but the ingredient looks far less risky than backyard solutions spreading across social media platforms.
Doctors and professional skincare advisors generally support the idea of patch testing any new ingredient. Even though Sandalore appears safe for most users, individual reactions still happen. I remember telling friends to try a product behind their ear or on the inside of the wrist before slathering it on their face or scalp. Anyone with a track record of allergies—especially to fragrances—should keep this habit. In the rare case of redness, itching, or swelling, discontinue use quickly and let a healthcare provider know.
People want transparency from companies using new fragrance molecules such as Sandalore. Brands can help by clearly listing ingredients, disclosing concentrations, and referencing up-to-date research. Consumers now read labels more closely than ever and reward those who communicate openly. This culture of information keeps everyone safer and pushes companies to meet higher standards.
Long-term safety always depends on informed choices. Sticking with reputable brands, reading labels, and keeping an eye out for emerging research goes a long way. Open communication between customers, manufacturers, and health professionals helps catch problems early. Ingredients like Sandalore show that science and safety can work together—so long as everyone stays curious and careful every step of the way.
Sandalore used to live mostly in high-end perfumes and air fresheners. Its scent mimics real sandalwood, which loads of people enjoy. Over the past few years, researchers found something surprising tucked behind its perfumery function. Sandalore switches on a set of olfactory receptors in our skin — not just in the nose. These receptors, once thought to be smell-only, show up in places you wouldn’t expect, such as hair follicles.
Back in 2018, a team from the University of Manchester uncovered a pathway: Sandalore – applied topically – will activate the OR2AT4 receptor in hair follicles. Once this receptor flips on, keratinocytes (which produce building blocks for hair) ramp up their activity. Studies in the lab even saw less cell death in follicles bathed in Sandalore. The main upshot is longer growth phases for hair, so more strands stay on your head rather than falling out.
Peer-reviewed work by Paus and colleagues grabbed real data, working with samples from actual human scalps. They put Sandalore on scalp skin in petri dishes and tracked follicle behavior. In these mini-experiments, the receptor’s activation led to around 25% more hair growth phase extension than untreated skin. It’s not a miracle leap, but such results outshine several trendy oils and supplements sold online. Data like this makes Sandalore more than just fragrance filler.
Millions watch their hair thin with every shower or brush. Hair loss reaches further than genetics; stress, pollution, harsh styling, and aging all play roles. Pretty easy for people to feel hopeless about it — I went through that stress after my own hair began to thin. Most mainstream treatments throw side effects at users, especially those with hormone-based medications like finasteride or minoxidil, which gave me headaches and skin irritation. People crave solutions that feel simple, topical, and don’t come packed with hormonal baggage.
What excites dermatologists and patients about Sandalore? It doesn’t mess with the body’s hormones. Instead, it uses the body’s own cell-signaling language, waking up dormant follicles through a scent channel that bypasses the bloodstream. The topical route makes daily use easy and—so far—side effect reports have stayed minimal. No one wants to trade hair for rashes or brain fog.
Even with the promising start, independent research proves hard to find. Drugstore aisles haven’t flooded with Sandalore-infused products just yet. Companies who want to bottle it for hair use must push past skepticism, confirm dosing, and run larger studies. The concentration that works in the lab could irritate sensitive scalps or won’t absorb well in real life. Regulators also keep a watchful eye; mass-market remedies need data by the truckload before they stamp their approval.
For anyone balding and searching for fresh tools, hope won’t hinge on early hype alone. Scalp serums, prescription blends, or at-home trials should be built on evidence, not wishful thinking. Doctors who keep up with recent trials and read the full research will stand better equipped to guide patients. Simple measures—like gentle shampoo, stress management, and avoiding harsh heat—still play a big part in keeping what you’ve got.
Sandalore plants its roots in science, but clear answers take time. For now, anyone experimenting should do a patch test, check the sources on any claims, and ask their doctor before diving headlong into something new. The future of hair growth sits in unlikely places. Sometimes, it might even be in your perfume bottle.
The buzz around Sandalore started in labs. Scientists noticed that this synthetic fragrance, smelling like warm sandalwood, woke up hair follicles in petri dishes and encouraged them to grow. Pretty soon, folks who worry about thinning hair paid attention. Who wouldn't want a lotion that smells good and helps hair look fuller?
The stuff is everywhere in perfumes and soaps, so most people have already rubbed or washed with it, maybe without knowing. For those who hope to use it as a treatment, the question keeps coming up — what could go wrong? Does it sting, cause rashes, mess with hormones, or something worse?
Last year, I tried Sandalore cream hoping for a bit more hair coverage in my beard. No dramatic results, but I paid close attention to how my skin felt. Sandalore itself didn’t give me a rash or redness. My girlfriend tested it behind her ear; nothing happened except she smelled like a candy store. Still, my experience isn't enough proof.
Dermatology research has logged cases of mild redness or itching, like with most fragrances. If your skin complains about regular scented stuff, there’s a shot Sandalore will do the same. Contact dermatitis (an itchy, red patch that flares up when your body doesn’t like a chemical) shows up in some people, especially if they already struggle with sensitive skin. Lab rats and human volunteers painted with heavy doses for weeks did not see major side effects in published studies, but real-world testing is limited.
I have seen posts online from people saying their scalp tingled or they noticed more shedding after starting Sandalore. Some may have confused this with normal hair cycles or mixed it up with other ingredients, since most Sandalore hair products combine several actives.
Rumors about Sandalore affecting hormones or acting like estrogen usually trace back to some early in-vitro studies. Scientists found Sandalore binds to certain skin receptors called OR2AT4. These aren’t classic hormone receptors, so it doesn’t mimic estrogen or testosterone the way some other chemicals can. There’s no strong evidence from published work or regulatory agencies that Sandalore changes hormonal balance in people.
The European Chemicals Agency places Sandalore on a list of common fragrance allergens, but their records focus mostly on allergic reactions, not hormone disruption or cancer risk. U.S. authorities treat it the same as most other commercial fragrances.
People who want to give Sandalore a try, especially on their scalp, should use a tiny bit first. Test it behind the ear before slathering it everywhere. Anyone with a long history of fragrance sensitivity, eczema, or allergies needs to check the ingredients label. Mixes found on the web, especially homemade stuff, might carry extra risks from poor formulation or hidden additives.
Dermatologists advise reading up on peer-reviewed studies, not just influencer hype. Those with lingering worry should talk to a doctor before starting regular use. As research grows, healthcare providers gain better information to guide each person. Until then, simple patch testing and careful observation help catch side effects early, long before they turn serious.
Sandalore shows up in a lot of conversations about fragrances and science. People flock to it because of its lasting, creamy scent that brings sandalwood to mind. This is not a new phenomenon—perfume enthusiasts have been chasing that warmth for ages, especially since genuine sandalwood oil prices keep rising due to environmental regulations and limited supply.
Big brands use Sandalore for a reason. The molecule not only smells pleasant, it’s also kinder to forests. That matters if you care about the footprint your products leave. Behind every bottle of cologne or scented shampoo there is a supply chain, and real sandalwood takes decades to mature. Using Sandalore means perfumers can keep making woody scents without leaning on endangered trees.
For anyone searching beyond everyday cologne or lotion, Sandalore in pure form is not at every corner shop. Most high street stores won’t carry it in isolation, because it’s an ingredient, not a finished product. Online shops fill that gap, catering to everyone from curious DIYers to pros mixing batches in small labs.
Reliable sources include reputable scientific supply companies and major fragrance ingredient distributors. Sigma-Aldrich and Perfumer’s Apprentice show up frequently as trusted names. Dozens of niche fragrance suppliers also stock it and ship in small volumes. Take care to pick those who list chemical purity, support questions with knowledgeable staff, and share third-party test results.
In my own experience, smaller independent shops may offer lower quantities and better prices, but they can’t always provide certificates or batch numbers as larger companies do. A home formulator once tipped me off to IndieScents and MakingCosmetics, both of which specialize in catering to artisan perfumers. Their Sandalore typically arrives in amber glass, keeping it stable in storage.
Avoid the shady listings on marketplaces where sellers seem to know nothing about fragrance chemistry or storage. Getting caught up in the price game can invite mystery bottles, diluted contents, or impure products. Sandalore doesn’t cost a fortune, so if a price looks too good to be trusted, it usually means exactly that.
Safety isn’t an afterthought here. Pure scent molecules deserve respect. Anyone handling individual aroma chemicals should read up on handling instructions and skin sensitivity risks, especially for hobbyists working from home. The International Fragrance Association (IFRA) publishes guidelines on how much Sandalore can safely be used in personal care products. Professional sources will have all the technical and safety documents available for download.
Buying Sandalore from known suppliers supports not just personal curiosity or craft but an industry shift toward sustainable fragrance. By choosing synthetic alternatives over unsustainable harvests, both consumers and makers back companies working to reduce environmental impact. Consumers increasingly want to look past “natural” labels to the bigger picture.
Sandalore’s story blends science, business, and the tiny joys of scent that make life a little more interesting. Whether you’re mixing up room sprays or re-creating a favorite cologne, good suppliers give you both quality and a conscience, and they welcome questions about where your ingredients come from.
| Names | |
| Preferred IUPAC name | 2-(1,1-dimethylethyl)-1,3-benzodioxole-5-propanal |
| Pronunciation | /ˈsændəˌlɔːr/ |
| Identifiers | |
| CAS Number | 61788-85-0 |
| Beilstein Reference | 1468731 |
| ChEBI | CHEBI:77719 |
| ChEMBL | CHEMBL2106359 |
| ChemSpider | 151306 |
| DrugBank | DB08308 |
| ECHA InfoCard | The ECHA InfoCard for Sandalore is: "100000016980 |
| EC Number | EC 255-587-1 |
| Gmelin Reference | 98046 |
| KEGG | C16007 |
| MeSH | D02.455.426.559.389 |
| PubChem CID | 91743 |
| RTECS number | VN8400000 |
| UNII | JF7T19A5W8 |
| UN number | UN3082 |
| Properties | |
| Chemical formula | C16H30O |
| Molar mass | 246.38 g/mol |
| Appearance | Pale yellow to yellow liquid |
| Odor | woody sandalwood |
| Density | 0.984 g/cm³ |
| Solubility in water | insoluble |
| log P | 2.94 |
| Vapor pressure | <0.01 hPa (20 °C)> |
| Acidity (pKa) | 15.81 |
| Basicity (pKb) | 7.7 |
| Magnetic susceptibility (χ) | −7.8×10⁻⁶ cm³/mol |
| Refractive index (nD) | 1.508 |
| Viscosity | 3500 - 4500 mPa.s |
| Dipole moment | 2.58 D |
| Thermochemistry | |
| Std molar entropy (S⦵298) | 354.33 J·mol⁻¹·K⁻¹ |
| Std enthalpy of formation (ΔfH⦵298) | No data |
| Std enthalpy of combustion (ΔcH⦵298) | -6616.7 kJ/mol |
| Pharmacology | |
| ATC code | D02AX |
| Hazards | |
| Main hazards | Causes skin irritation. Causes serious eye irritation. May cause an allergic skin reaction. |
| GHS labelling | GHS07, Warning, H317 |
| Signal word | Warning |
| Hazard statements | Hazard statements: H317 |
| Precautionary statements | P264, P270, P273, P280, P302+P352, P305+P351+P338, P310, P501 |
| NFPA 704 (fire diamond) | 1-1-0-0 |
| Flash point | > 108 °C |
| Autoignition temperature | 212 °C |
| Explosive limits | Lower explosion limit (LEL): 1.1% (v/v), Upper explosion limit (UEL): 6.6% (v/v) |
| Lethal dose or concentration | LD50 (oral, rat): 4640 mg/kg |
| LD50 (median dose) | > 5000 mg/kg |
| NIOSH | NIOSH: Not evaluated |
| PEL (Permissible) | 0.1 ppm |
| REL (Recommended) | 3.0000% |
| Related compounds | |
| Related compounds |
Benzyl salicylate
Benzyl acetate Isopropyl myristate |
